(en) Mary Donoghue, Frank Hsieh, Elizabeth Baronas, Kevin Godbout, Michael Gosselin, Nancy Stagliano, Michael Donovan, Betty Woolf, Keith Robison, Raju Jeyaseelan, Roger E. Breitbart et Susan Acton, « A Novel Angiotensin-Converting Enzyme–Related Carboxypeptidase (ACE2) Converts Angiotensin I to Angiotensin 1-9 », Circulation Research, vol. 87, no 5, , E1-E9 (PMID10969042, DOI10.1161/01.res.87.5.e1, lire en ligne).
(en) Wang Wang, Shaun M.K. McKinnie, Maikel Farhan, Manish Paul, Tyler McDonald, Brent McLean, Catherine Llorens-Cortes, Saugata Hazra, Allan G. Murray, John C. Vederas et Gavin Y. Oudit, « Angiotensin-Converting Enzyme 2 Metabolizes and Partially Inactivates Pyr-Apelin-13 and Apelin-17 », Hypertension, vol. 68, no 2, , p. 365-377 (PMID27217402, DOI10.1161/HYPERTENSIONAHA.115.06892, lire en ligne).
(en) Koichi Yamamoto, Mitsuru Ohishi, Tomohiro Katsuya, Norihisa Ito, Masashi Ikushima, Masaharu Kaibe, Yuji Tatara, Atsushi Shiota, Sumio Sugano, Satoshi Takeda, Hiromi Rakugi et Toshio Ogihara, « Deletion of Angiotensin-Converting Enzyme 2 Accelerates Pressure Overload-Induced Cardiac Dysfunction by Increasing Local Angiotensin II », Hypertension, vol. 47, no 4, , p. 718-726 (PMID16505206, DOI10.1161/01.HYP.0000205833.89478.5b, lire en ligne)
(en) Shlomo Keidar, Aviva Gamliel-Lazarovich, Marielle Kaplan et Elsa Pavlotzky, « Mineralocorticoid Receptor Blocker Increases Angiotensin-Converting Enzyme 2 Activity in Congestive Heart Failure Patients », Circulation Research, vol. 97, no 9, , p. 946–953 (ISSN0009-7330 et 1524-4571, DOI10.1161/01.RES.0000187500.24964.7A, lire en ligne, consulté le )
(en) Mahmoud Gheblawi, Kaiming Wang, Anissa Viveiros, Quynh Nguyen, Jiu-Chang Zhong, Anthony J. Turner, Mohan K. Raizada, Maria B. Grant et Gavin Y. Oudit, « Angiotensin-Converting Enzyme 2: SARS-CoV-2 Receptor and Regulator of the Renin-Angiotensin System », Circulation Research, vol. 126, no 10, , p. 1456-1474 (PMID32264791, PMCID7188049, DOI10.1161/CIRCRESAHA.120.317015, lire en ligne)
asm.org
jvi.asm.org
(en) Yuuki Inoue, Nobuyuki Tanaka, Yoshinori Tanaka, Shingo Inoue, Kouichi Morita, Min Zhuang, Toshio Hattori et Kazuo Sugamura, « Clathrin-Dependent Entry of Severe Acute Respiratory Syndrome Coronavirus into Target Cells Expressing ACE2 with the Cytoplasmic Tail Deleted », Journal of Virology, vol. 81, no 16, , p. 8722-8729 (PMID17522231, PMCID1951348, DOI10.1128/JVI.00253-07, lire en ligne)
(en) Shutoku Matsuyama, Noriyo Nagata, Kazuya Shirato, Miyuki Kawase, Makoto Takeda et Fumihiro Taguchi, « Efficient Activation of the Severe Acute Respiratory Syndrome Coronavirus Spike Protein by the Transmembrane Protease TMPRSS2 », Journal of Virology, vol. 84, no 24, , p. 12658-12664 (PMID20926566, PMCID3004351, DOI10.1128/JVI.01542-10, lire en ligne)
(en) Fang Li, « Structural Analysis of Major Species Barriers between Humans and Palm Civets for Severe Acute Respiratory Syndrome Coronavirus Infections », Journal of Virology, vol. 82, no 14, , p. 6984-6991 (PMID18448527, PMCID2446986, DOI10.1128/JVI.00442-08, lire en ligne)
(en) Yushun Wan, Jian Shang, Rachel Graham, Ralph S. Baric et Fang Li, « Receptor Recognition by the Novel Coronavirus from Wuhan: an Analysis Based on Decade-Long Structural Studies of SARS Coronavirus », Journal of Virology, vol. 94, no 7, , article no e00127-20 (PMID31996437, DOI10.1128/JVI.00127-20, lire en ligne)
asnjournals.org
jasn.asnjournals.org
(en) G.Y. Oudit, A.M. Herzenberg, Z. Kassiri, D. Wong, H. Reich, R. Khokha, M.A. Crackower, P.H. Backx, J.M. Penninger et J.W. Scholey, « Angiotensin-Converting Enzyme-2 (ACE2)—A New Player in the Genesis of Glomerular Injury? », Journal of the American Society of Nephrology, vol. 17, no 10, , p. 2637-2643 (DOI10.1681/ASN.2006080888, lire en ligne)
(en) Julie R. Ingelfinger, « ACE2: A New Target for Prevention of Diabetic Nephropathy? », Journal of the American Society of Nephrology, vol. 17, no 11, , p. 2957-2959 (PMID17021263, DOI10.1681/ASN.2006090986, lire en ligne)
(en) Minghao Ye, Jan Wysocki, Josette William, Maria José Soler, Ivan Cokic et Daniel Batlle, « Glomerular Localization and Expression of Angiotensin-Converting Enzyme 2 and Angiotensin-Converting Enzyme: Implications for Albuminuria in Diabetes », Journal of the American Society of Nephrology, vol. 17, no 11, , p. 3067-3075 (PMID17021266, DOI10.1681/ASN.2006050423, lire en ligne)
biorxiv.org
Alexandra Wallset al., « Structure, function and antigenicity of the SARS-CoV-2 spike glycoprotein », bioRxiv, (DOI10.1101/2020.02.19.956581, lire en ligne, consulté le ).
cell.com
(en) Louise M. Burrell, Colin I. Johnston, Christos Tikellis et Mark E. Cooper, « ACE2, a new regulator of the renin–angiotensin system », Trends in Endocrinology and Metabolism, vol. 15, no 4, , p. 166-169 (PMID15109615, DOI10.1016/j.tem.2004.03.001, lire en ligne).
doi.org
dx.doi.org
(en) Paul Towler, Bart Staker, Sridhar G. Prasad, Saurabh Menon, Jin Tang, Thomas Parsons, Dominic Ryan, Martin Fisher, David Williams, Natalie A. Dales, Michael A. Patane et Michael W. Pantoliano, « ACE2 X-Ray Structures Reveal a Large Hinge-bending Motion Important for Inhibitor Binding and Catalysis », Journal of Biological Chemistry, vol. 279, no 17, , p. 17996-18007 (PMID14754895, DOI10.1074/jbc.M311191200, lire en ligne).
(en) I. Hamming, W. Timens, M. L. C. Bulthuis, A. T. Lely, G. J. Navis et H. van Goor, « Tissue distribution of ACE2 protein, the functional receptor for SARS coronavirus. A first step in understanding SARS pathogenesis », The Journal of Pathology, vol. 203, no 2, , p. 631-637 (PMID15141377, DOI10.1002/path.1570, lire en ligne).
(en) Mary Donoghue, Frank Hsieh, Elizabeth Baronas, Kevin Godbout, Michael Gosselin, Nancy Stagliano, Michael Donovan, Betty Woolf, Keith Robison, Raju Jeyaseelan, Roger E. Breitbart et Susan Acton, « A Novel Angiotensin-Converting Enzyme–Related Carboxypeptidase (ACE2) Converts Angiotensin I to Angiotensin 1-9 », Circulation Research, vol. 87, no 5, , E1-E9 (PMID10969042, DOI10.1161/01.res.87.5.e1, lire en ligne).
(en) Mamfred Boehm et Elizabeth G. Nabel, « Angiotensin-converting enzyme 2 — a new cardiac regulator. », The New England Journal of Medicine, vol. 347, no 22, , p. 1795-1797 (PMID12456857, DOI10.1056/NEJMcibr022472, lire en ligne).
(en) L. Anguiano, M. Riera, J. Pascual et M. J. Soler, « Circulating ACE2 in Cardiovascular and Kidney Diseases », Current Medicinal Chemistry, vol. 24, no 30, (DOI10.2174/0929867324666170414162841, lire en ligne, consulté le ).
(en) Gavin Y. Oudit, Michael A. Crackower, Peter H. Backx et Josef M. Penninger, « The Role of ACE2 in Cardiovascular Physiology », Trends in Cardiovascular Medicine, vol. 13, no 3, , p. 93-101 (PMID12691672, DOI10.1016/S1050-1738(02)00233-5, lire en ligne).
(en) Louise M. Burrell, Colin I. Johnston, Christos Tikellis et Mark E. Cooper, « ACE2, a new regulator of the renin–angiotensin system », Trends in Endocrinology and Metabolism, vol. 15, no 4, , p. 166-169 (PMID15109615, DOI10.1016/j.tem.2004.03.001, lire en ligne).
(en) Katalin Úri, Miklós Fagyas, Ivetta Mányiné Siket, Attila Kertész, Zoltán Csanádi, Gábor Sándorfi, Marcell Clemens, Roland Fedor, Zoltán Papp, István Édes, Attila Tóth et Erzsébet Lizanecz, « New Perspectives in the Renin-Angiotensin-Aldosterone System (RAAS) IV: Circulating ACE2 as a Biomarker of Systolic Dysfunction in Human Hypertension and Heart Failure », PLoS One, vol. 9, no 4, , article no e87845 (PMID24691269, PMCID3972189, DOI10.1371/journal.pone.0087845, Bibcode2014PLoSO...987845U, lire en ligne).
(en) Shlomo Keidar, Marielle Kaplan et Aviva Gamliel-Lazarovich, « ACE2 of the heart: From angiotensin I to angiotensin (1–7) », Cardiovascular Research, vol. 73, no 3, , p. 463-469 (PMID17049503, DOI10.1016/j.cardiores.2006.09.006, lire en ligne).
(en) Wang Wang, Shaun M.K. McKinnie, Maikel Farhan, Manish Paul, Tyler McDonald, Brent McLean, Catherine Llorens-Cortes, Saugata Hazra, Allan G. Murray, John C. Vederas et Gavin Y. Oudit, « Angiotensin-Converting Enzyme 2 Metabolizes and Partially Inactivates Pyr-Apelin-13 and Apelin-17 », Hypertension, vol. 68, no 2, , p. 365-377 (PMID27217402, DOI10.1161/HYPERTENSIONAHA.115.06892, lire en ligne).
(en) Mohammed A. R. Chamsi-Pasha, Zhili Shao et W. H. Wilson Tang, « Angiotensin-Converting Enzyme 2 as a Therapeutic Target for Heart Failure », Current Heart Failure Reports, vol. 11, no 1, , p. 58-63 (PMID24293035, PMCID3944399, DOI10.1007/s11897-013-0178-0, lire en ligne).
(en) Annamaria Mascolo, Konrad Urbanek, Antonella De Angelis, Maurizio Sessa, Cristina Scavone, Liberato Berrino, Giuseppe Massimo Claudio Rosano, Annalisa Capuano et Francesco Rossi, « Angiotensin II and angiotensin 1–7: which is their role in atrial fibrillation? », Heart Failure Reviews, vol. 25, no 2, , p. 367-380 (PMID31375968, DOI10.1007/s10741-019-09837-7, lire en ligne).
(en) Peng Zhou, Xing-Lou Yang, Xian-Guang Wang, Ben Hu, Lei Zhang, Wei Zhang, Hao-Rui Si, Yan Zhu, Bei Li, Chao-Lin Huang, Hui-Dong Chen, Jing Chen, Yun Luo, Hua Guo, Ren-Di Jiang, Mei-Qin Liu, Ying Chen, Xu-Rui Shen, Xi Wang, Xiao-Shuang Zheng, Kai Zhao, Quan-Jiao Chen, Fei Deng, Lin-Lin Liu, Bing Yan, Fa-Xian Zhan, Yan-Yi Wang, Geng-Fu Xiao et Zheng-Li Shi, « A pneumonia outbreak associated with a new coronavirus of probable bat origin », Nature, vol. 579, no 7798, , p. 270-273 (PMID32015507, PMCID7095418, DOI10.1038/s41586-020-2012-7, lire en ligne).
(en) Xintian Xu, Ping Chen, Jingfang Wang, Jiannan Feng, Hui Zhou, Xuan Li, Wu Zhong et Pei Hao, « Evolution of the novel coronavirus from the ongoing Wuhan outbreak and modeling of its spike protein for risk of human transmission », Science China Life Sciences, vol. 63, no 3, , p. 457-460 (PMID32009228, PMCID7089049, DOI10.1007/s11427-020-1637-5, lire en ligne).
Alexandra Wallset al., « Structure, function and antigenicity of the SARS-CoV-2 spike glycoprotein », bioRxiv, (DOI10.1101/2020.02.19.956581, lire en ligne, consulté le ).
(en) Junwen Luan, Yue Lu, Xiaolu Jin et Leiliang Zhang, « Spike protein recognition of mammalian ACE2 predicts the host range and an optimized ACE2 for SARS-CoV-2 infection », Biochemical and Biophysical Research Communications, vol. 526, no 1, , p. 165–169 (PMID32201080, PMCIDPMC7102515, DOI10.1016/j.bbrc.2020.03.047, lire en ligne, consulté le ).
(en) Keiji Kuba, Yumiko Imai, Shuan Rao, Hong Gao, Feng Guo, Bin Guan, Yi Huan, Peng Yang, Yanli Zhang, Wei Deng, Linlin Bao, Binlin Zhang, Guang Liu, Zhong Wang, Mark Chappell, Yanxin Liu, Dexian Zheng, Andreas Leibbrandt, Teiji Wada, Arthur S Slutsky, Depei Liu, Chuan Qin, Chengyu Jiang et Josef M Penninger, « A crucial role of angiotensin converting enzyme 2 (ACE2) in SARS coronavirus–induced lung injury », Nature Medicine, vol. 11, no 8, , p. 875-879 (PMID16007097, PMCID7095783, DOI10.1038/nm1267, lire en ligne).
(en) Anthony J. Turner, Sarah R. Tipnis, Jodie L. Guy, Gillian I. Rice et Nigel M. Hoope, « ACEH/ACE2 is a novel mammalian metallocarboxypeptidase and a homologue of angiotensin-converting enzyme insensitive to ACE inhibitors », Revue canadienne de physiologie et pharmacologie, vol. 80, no 4, , p. 346-353 (PMID12025971, DOI10.1139/y02-021, lire en ligne)
(en) Chad Vickers, Paul Hales, Virendar Kaushik, Larry Dick, James Gavin, Jin Tang, Kevin Godbout, Thomas Parsons, Elizabeth Baronas, Frank Hsieh, Susan Acton, Michael Patane, Andrew Nichols et Peter Tummino, « Hydrolysis of Biological Peptides by Human Angiotensin-converting Enzyme-related Carboxypeptidase », Journal of Biological Chemistry, vol. 277, no 17, , p. 14838-14843 (PMID11815627, DOI10.1074/jbc.M200581200, lire en ligne)
(en) G.Y. Oudit, A.M. Herzenberg, Z. Kassiri, D. Wong, H. Reich, R. Khokha, M.A. Crackower, P.H. Backx, J.M. Penninger et J.W. Scholey, « Angiotensin-Converting Enzyme-2 (ACE2)—A New Player in the Genesis of Glomerular Injury? », Journal of the American Society of Nephrology, vol. 17, no 10, , p. 2637-2643 (DOI10.1681/ASN.2006080888, lire en ligne)
(en) Robson A. S. Santos, Ana C. Simoes e Silva, Christine Maric, Denise M. R. Silva, Raquel Pillar Machado, Insa de Buhr, Silvia Heringer-Walther, Sergio Veloso B. Pinheiro, Myriam Teresa Lopes, Michael Bader, Elizabeth P. Mendes, Virgina Soares Lemos, Maria Jose Campagnole-Santos, Heinz-Peter Schultheiss, Robert Speth et Thomas Walther, « Angiotensin-(1–7) is an endogenous ligand for the G protein-coupled receptor Mas », Proceedings of the National Academy of Sciences of the United States of America, vol. 100, no 14, , p. 8258-8263 (PMID12829792, PMCID166216, DOI10.1073/pnas.1432869100, JSTOR3139914, Bibcode2003PNAS..100.8258S, lire en ligne)
(en) Michael A. Crackower, Renu Sarao, Gavin Y. Oudit, Chana Yagil, Ivona Kozieradzki, Sam E. Scanga, Antonio J. Oliveira-dos-Santos, Joan da Costa, Liyong Zhang, York Pei, James Scholey, Carlos M. Ferrario, Armen S. Manoukian, Mark C. Chappell, Peter H. Backx, Yoram Yagil et Josef M. Penninger, « Angiotensin-converting enzyme 2 is an essential regulator of heart function », Nature, vol. 417, no 6891, , p. 822-828 (PMID12075344, DOI10.1038/nature00786, Bibcode2002Natur.417..822C/abstract, lire en ligne)
(en) Susan B. Gurley, Alicia Allred, Thu H. Le, Robert Griffiths, Lan Mao, Nisha Philip, Timothy A. Haystead, Mary Donoghue, Roger E. Breitbart, Susan L. Acton, Howard A. Rockman et Thomas M. Coffman, « Altered blood pressure responses and normal cardiac phenotype in ACE2-null mice », The Journal of Clinical Investigations, vol. 116, no 8, , p. 2218-2225 (PMID16878172, PMCID1518789, DOI10.1172/JCI16980, lire en ligne)
(en) Koichi Yamamoto, Mitsuru Ohishi, Tomohiro Katsuya, Norihisa Ito, Masashi Ikushima, Masaharu Kaibe, Yuji Tatara, Atsushi Shiota, Sumio Sugano, Satoshi Takeda, Hiromi Rakugi et Toshio Ogihara, « Deletion of Angiotensin-Converting Enzyme 2 Accelerates Pressure Overload-Induced Cardiac Dysfunction by Increasing Local Angiotensin II », Hypertension, vol. 47, no 4, , p. 718-726 (PMID16505206, DOI10.1161/01.HYP.0000205833.89478.5b, lire en ligne)
(en) Julie R. Ingelfinger, « ACE2: A New Target for Prevention of Diabetic Nephropathy? », Journal of the American Society of Nephrology, vol. 17, no 11, , p. 2957-2959 (PMID17021263, DOI10.1681/ASN.2006090986, lire en ligne)
(en) Minghao Ye, Jan Wysocki, Josette William, Maria José Soler, Ivan Cokic et Daniel Batlle, « Glomerular Localization and Expression of Angiotensin-Converting Enzyme 2 and Angiotensin-Converting Enzyme: Implications for Albuminuria in Diabetes », Journal of the American Society of Nephrology, vol. 17, no 11, , p. 3067-3075 (PMID17021266, DOI10.1681/ASN.2006050423, lire en ligne)
(en) Sarah R. Tipnis, Nigel M. Hooper, Ralph Hyde, Eric Karran et Gary Christie, « A human homolog of angiotensin-converting enzyme. Cloning and functional expression as a captopril-insensitive carboxypeptidase », Journal of Biological Chemistry, vol. 275, no 43, , p. 33238-33243 (PMID10924499, DOI10.1074/jbc.M002615200, lire en ligne)
(en) Slava Epelman, W.H. Wilson Tang, Stephen Y. Chen, Frederick Van Lente, Gary S. Francis et Subha Sen, « Detection of Soluble Angiotensin-Converting Enzyme 2 in Heart Failure: Insights Into the Endogenous Counter-Regulatory Pathway of the Renin-Angiotensin-Aldosterone System », Journal of the American College of Cardiology, vol. 52, no 9, , p. 750-754 (PMID18718423, PMCID2856943, DOI10.1016/j.jacc.2008.02.088, lire en ligne)
(en) Albena Nunes-Silva, Guilherme Carvalho Rocha, Daniel Massote Magalhaes et Lucas Neves Vaz, « Physical Exercise and ACE2-Angiotensin-(1-7)-Mas Receptor Axis of the Renin Angiotensin System », Protein & Peptide Letters, vol. 24, no 9, (DOI10.2174/0929866524666170728151401, lire en ligne, consulté le )
(en) Sumit Kar, Lie Gao et Irving H. Zucker, « Exercise training normalizes ACE and ACE2 in the brain of rabbits with pacing-induced heart failure », Journal of Applied Physiology, vol. 108, no 4, , p. 923–932 (ISSN8750-7587 et 1522-1601, DOI10.1152/japplphysiol.00840.2009, lire en ligne, consulté le )
(en) Shlomo Keidar, Aviva Gamliel-Lazarovich, Marielle Kaplan et Elsa Pavlotzky, « Mineralocorticoid Receptor Blocker Increases Angiotensin-Converting Enzyme 2 Activity in Congestive Heart Failure Patients », Circulation Research, vol. 97, no 9, , p. 946–953 (ISSN0009-7330 et 1524-4571, DOI10.1161/01.RES.0000187500.24964.7A, lire en ligne, consulté le )
(en) Tony Karram, Anan Abbasi, Shlomo Keidar et Eliahu Golomb, « Effects of spironolactone and eprosartan on cardiac remodeling and angiotensin-converting enzyme isoforms in rats with experimental heart failure », American Journal of Physiology-Heart and Circulatory Physiology, vol. 289, no 4, , H1351–H1358 (ISSN0363-6135 et 1522-1539, DOI10.1152/ajpheart.01186.2004, lire en ligne, consulté le )
(en) Kulbhushan Tikoo, Gaurang Patel, Sandeep Kumar et Pinakin Arun Karpe, « Tissue specific up regulation of ACE2 in rabbit model of atherosclerosis by atorvastatin: Role of epigenetic histone modifications », Biochemical Pharmacology, vol. 93, no 3, , p. 343–351 (DOI10.1016/j.bcp.2014.11.013, lire en ligne, consulté le )
(en) Fang Li, Wenhui Li, Michael Farzan et Stephen C. Harrison, « Structure of SARS Coronavirus Spike Receptor-Binding Domain Complexed with Receptor », Science, vol. 309, no 5742, , p. 1864-1868 (PMID16166518, DOI10.1126/science.1116480, JSTOR3843779, lire en ligne)
(en) Yuuki Inoue, Nobuyuki Tanaka, Yoshinori Tanaka, Shingo Inoue, Kouichi Morita, Min Zhuang, Toshio Hattori et Kazuo Sugamura, « Clathrin-Dependent Entry of Severe Acute Respiratory Syndrome Coronavirus into Target Cells Expressing ACE2 with the Cytoplasmic Tail Deleted », Journal of Virology, vol. 81, no 16, , p. 8722-8729 (PMID17522231, PMCID1951348, DOI10.1128/JVI.00253-07, lire en ligne)
(en) Graham Simmons, Dhaval N. Gosalia, Andrew J. Rennekamp, Jacqueline D. Reeves, Scott L. Diamond et Paul Bates, « Inhibitors of cathepsin L prevent severe acute respiratory syndrome coronavirus entry », Proceedings of the National Academy of Sciences of the United States of America, vol. 102, no 33, , p. 11876-11881 (PMID16081529, PMCID1188015, DOI10.1073/pnas.0505577102, JSTOR3376363, Bibcode2005PNAS..10211876S, lire en ligne)
(en) Hongliang Wang, Peng Yang, Kangtai Liu, Feng Guo, Yanli Zhang, Gongyi Zhang et Chengyu Jiang, « SARS coronavirus entry into host cells through a novel clathrin- and caveolae-independent endocytic pathway », Cell Research, vol. 18, no 2, , p. 290-301 (PMID18227861, DOI10.1038/cr.2008.15, lire en ligne)
(en) Shutoku Matsuyama, Noriyo Nagata, Kazuya Shirato, Miyuki Kawase, Makoto Takeda et Fumihiro Taguchi, « Efficient Activation of the Severe Acute Respiratory Syndrome Coronavirus Spike Protein by the Transmembrane Protease TMPRSS2 », Journal of Virology, vol. 84, no 24, , p. 12658-12664 (PMID20926566, PMCID3004351, DOI10.1128/JVI.01542-10, lire en ligne)
(en) Swee Kee Wong, Wenhui Li, Michael J. Moore, Hyeryun Choe et Michael Farzan, « A 193-Amino Acid Fragment of the SARS Coronavirus S Protein Efficiently Binds Angiotensin-converting Enzyme 2 », Journal of Biological Chemistry, vol. 279, no 5, , p. 3197-3201 (PMID14670965, DOI10.1074/jbc.C300520200, lire en ligne)
(en) Lanying Du, Yuxian He, Yusen Zhou, Shuwen Liu, Bo-Jian Zheng et Shibo Jiang, « The spike protein of SARS-CoV — a target for vaccine and therapeutic development », Nature Reviews Microbiology, vol. 7, no 3, , p. 226-236 (PMID19198616, PMCID2750777, DOI10.1038/nrmicro2090, lire en ligne)
(en) Fang Li, « Structural Analysis of Major Species Barriers between Humans and Palm Civets for Severe Acute Respiratory Syndrome Coronavirus Infections », Journal of Virology, vol. 82, no 14, , p. 6984-6991 (PMID18448527, PMCID2446986, DOI10.1128/JVI.00442-08, lire en ligne)
(en) Fang Li, Wenhui Li, Michael Farzan et Stephen C. Harrison, « Interactions between SARS coronavirus and its receptor », Advances in Experimental Medicine and Biology, vol. 581, , p. 229-234 (PMID17037534, DOI10.1007/978-0-387-33012-9_38, lire en ligne)
(en) Yushun Wan, Jian Shang, Rachel Graham, Ralph S. Baric et Fang Li, « Receptor Recognition by the Novel Coronavirus from Wuhan: an Analysis Based on Decade-Long Structural Studies of SARS Coronavirus », Journal of Virology, vol. 94, no 7, , article no e00127-20 (PMID31996437, DOI10.1128/JVI.00127-20, lire en ligne)
(en) Renhong Yan, Yuanyuan Zhang, Yaning Li, Lu Xia, Yingying Guo et Qiang Zhou, « Structural basis for the recognition of SARS-CoV-2 by full-length human ACE2 », Science, vol. 367, no 6485, , p. 1444-1448 (PMID32132184, PMCID7164635, DOI10.1126/science.abb2762, lire en ligne)
(en) Mahmoud Gheblawi, Kaiming Wang, Anissa Viveiros, Quynh Nguyen, Jiu-Chang Zhong, Anthony J. Turner, Mohan K. Raizada, Maria B. Grant et Gavin Y. Oudit, « Angiotensin-Converting Enzyme 2: SARS-CoV-2 Receptor and Regulator of the Renin-Angiotensin System », Circulation Research, vol. 126, no 10, , p. 1456-1474 (PMID32264791, PMCID7188049, DOI10.1161/CIRCRESAHA.120.317015, lire en ligne)
elsevier.com
linkinghub.elsevier.com
(en) Junwen Luan, Yue Lu, Xiaolu Jin et Leiliang Zhang, « Spike protein recognition of mammalian ACE2 predicts the host range and an optimized ACE2 for SARS-CoV-2 infection », Biochemical and Biophysical Research Communications, vol. 526, no 1, , p. 165–169 (PMID32201080, PMCIDPMC7102515, DOI10.1016/j.bbrc.2020.03.047, lire en ligne, consulté le ).
(en) Kulbhushan Tikoo, Gaurang Patel, Sandeep Kumar et Pinakin Arun Karpe, « Tissue specific up regulation of ACE2 in rabbit model of atherosclerosis by atorvastatin: Role of epigenetic histone modifications », Biochemical Pharmacology, vol. 93, no 3, , p. 343–351 (DOI10.1016/j.bcp.2014.11.013, lire en ligne, consulté le )
eurekaselect.com
(en) L. Anguiano, M. Riera, J. Pascual et M. J. Soler, « Circulating ACE2 in Cardiovascular and Kidney Diseases », Current Medicinal Chemistry, vol. 24, no 30, (DOI10.2174/0929867324666170414162841, lire en ligne, consulté le ).
(en) Albena Nunes-Silva, Guilherme Carvalho Rocha, Daniel Massote Magalhaes et Lucas Neves Vaz, « Physical Exercise and ACE2-Angiotensin-(1-7)-Mas Receptor Axis of the Renin Angiotensin System », Protein & Peptide Letters, vol. 24, no 9, (DOI10.2174/0929866524666170728151401, lire en ligne, consulté le )
harvard.edu
ui.adsabs.harvard.edu
(en) Katalin Úri, Miklós Fagyas, Ivetta Mányiné Siket, Attila Kertész, Zoltán Csanádi, Gábor Sándorfi, Marcell Clemens, Roland Fedor, Zoltán Papp, István Édes, Attila Tóth et Erzsébet Lizanecz, « New Perspectives in the Renin-Angiotensin-Aldosterone System (RAAS) IV: Circulating ACE2 as a Biomarker of Systolic Dysfunction in Human Hypertension and Heart Failure », PLoS One, vol. 9, no 4, , article no e87845 (PMID24691269, PMCID3972189, DOI10.1371/journal.pone.0087845, Bibcode2014PLoSO...987845U, lire en ligne).
(en) Robson A. S. Santos, Ana C. Simoes e Silva, Christine Maric, Denise M. R. Silva, Raquel Pillar Machado, Insa de Buhr, Silvia Heringer-Walther, Sergio Veloso B. Pinheiro, Myriam Teresa Lopes, Michael Bader, Elizabeth P. Mendes, Virgina Soares Lemos, Maria Jose Campagnole-Santos, Heinz-Peter Schultheiss, Robert Speth et Thomas Walther, « Angiotensin-(1–7) is an endogenous ligand for the G protein-coupled receptor Mas », Proceedings of the National Academy of Sciences of the United States of America, vol. 100, no 14, , p. 8258-8263 (PMID12829792, PMCID166216, DOI10.1073/pnas.1432869100, JSTOR3139914, Bibcode2003PNAS..100.8258S, lire en ligne)
(en) Michael A. Crackower, Renu Sarao, Gavin Y. Oudit, Chana Yagil, Ivona Kozieradzki, Sam E. Scanga, Antonio J. Oliveira-dos-Santos, Joan da Costa, Liyong Zhang, York Pei, James Scholey, Carlos M. Ferrario, Armen S. Manoukian, Mark C. Chappell, Peter H. Backx, Yoram Yagil et Josef M. Penninger, « Angiotensin-converting enzyme 2 is an essential regulator of heart function », Nature, vol. 417, no 6891, , p. 822-828 (PMID12075344, DOI10.1038/nature00786, Bibcode2002Natur.417..822C/abstract, lire en ligne)
(en) Graham Simmons, Dhaval N. Gosalia, Andrew J. Rennekamp, Jacqueline D. Reeves, Scott L. Diamond et Paul Bates, « Inhibitors of cathepsin L prevent severe acute respiratory syndrome coronavirus entry », Proceedings of the National Academy of Sciences of the United States of America, vol. 102, no 33, , p. 11876-11881 (PMID16081529, PMCID1188015, DOI10.1073/pnas.0505577102, JSTOR3376363, Bibcode2005PNAS..10211876S, lire en ligne)
issn.org
portal.issn.org
(en) Sumit Kar, Lie Gao et Irving H. Zucker, « Exercise training normalizes ACE and ACE2 in the brain of rabbits with pacing-induced heart failure », Journal of Applied Physiology, vol. 108, no 4, , p. 923–932 (ISSN8750-7587 et 1522-1601, DOI10.1152/japplphysiol.00840.2009, lire en ligne, consulté le )
(en) Shlomo Keidar, Aviva Gamliel-Lazarovich, Marielle Kaplan et Elsa Pavlotzky, « Mineralocorticoid Receptor Blocker Increases Angiotensin-Converting Enzyme 2 Activity in Congestive Heart Failure Patients », Circulation Research, vol. 97, no 9, , p. 946–953 (ISSN0009-7330 et 1524-4571, DOI10.1161/01.RES.0000187500.24964.7A, lire en ligne, consulté le )
(en) Tony Karram, Anan Abbasi, Shlomo Keidar et Eliahu Golomb, « Effects of spironolactone and eprosartan on cardiac remodeling and angiotensin-converting enzyme isoforms in rats with experimental heart failure », American Journal of Physiology-Heart and Circulatory Physiology, vol. 289, no 4, , H1351–H1358 (ISSN0363-6135 et 1522-1539, DOI10.1152/ajpheart.01186.2004, lire en ligne, consulté le )
jbc.org
(en) Paul Towler, Bart Staker, Sridhar G. Prasad, Saurabh Menon, Jin Tang, Thomas Parsons, Dominic Ryan, Martin Fisher, David Williams, Natalie A. Dales, Michael A. Patane et Michael W. Pantoliano, « ACE2 X-Ray Structures Reveal a Large Hinge-bending Motion Important for Inhibitor Binding and Catalysis », Journal of Biological Chemistry, vol. 279, no 17, , p. 17996-18007 (PMID14754895, DOI10.1074/jbc.M311191200, lire en ligne).
(en) Chad Vickers, Paul Hales, Virendar Kaushik, Larry Dick, James Gavin, Jin Tang, Kevin Godbout, Thomas Parsons, Elizabeth Baronas, Frank Hsieh, Susan Acton, Michael Patane, Andrew Nichols et Peter Tummino, « Hydrolysis of Biological Peptides by Human Angiotensin-converting Enzyme-related Carboxypeptidase », Journal of Biological Chemistry, vol. 277, no 17, , p. 14838-14843 (PMID11815627, DOI10.1074/jbc.M200581200, lire en ligne)
(en) Sarah R. Tipnis, Nigel M. Hooper, Ralph Hyde, Eric Karran et Gary Christie, « A human homolog of angiotensin-converting enzyme. Cloning and functional expression as a captopril-insensitive carboxypeptidase », Journal of Biological Chemistry, vol. 275, no 43, , p. 33238-33243 (PMID10924499, DOI10.1074/jbc.M002615200, lire en ligne)
(en) Swee Kee Wong, Wenhui Li, Michael J. Moore, Hyeryun Choe et Michael Farzan, « A 193-Amino Acid Fragment of the SARS Coronavirus S Protein Efficiently Binds Angiotensin-converting Enzyme 2 », Journal of Biological Chemistry, vol. 279, no 5, , p. 3197-3201 (PMID14670965, DOI10.1074/jbc.C300520200, lire en ligne)
jci.org
(en) Susan B. Gurley, Alicia Allred, Thu H. Le, Robert Griffiths, Lan Mao, Nisha Philip, Timothy A. Haystead, Mary Donoghue, Roger E. Breitbart, Susan L. Acton, Howard A. Rockman et Thomas M. Coffman, « Altered blood pressure responses and normal cardiac phenotype in ACE2-null mice », The Journal of Clinical Investigations, vol. 116, no 8, , p. 2218-2225 (PMID16878172, PMCID1518789, DOI10.1172/JCI16980, lire en ligne)
jstor.org
(en) Robson A. S. Santos, Ana C. Simoes e Silva, Christine Maric, Denise M. R. Silva, Raquel Pillar Machado, Insa de Buhr, Silvia Heringer-Walther, Sergio Veloso B. Pinheiro, Myriam Teresa Lopes, Michael Bader, Elizabeth P. Mendes, Virgina Soares Lemos, Maria Jose Campagnole-Santos, Heinz-Peter Schultheiss, Robert Speth et Thomas Walther, « Angiotensin-(1–7) is an endogenous ligand for the G protein-coupled receptor Mas », Proceedings of the National Academy of Sciences of the United States of America, vol. 100, no 14, , p. 8258-8263 (PMID12829792, PMCID166216, DOI10.1073/pnas.1432869100, JSTOR3139914, Bibcode2003PNAS..100.8258S, lire en ligne)
(en) Fang Li, Wenhui Li, Michael Farzan et Stephen C. Harrison, « Structure of SARS Coronavirus Spike Receptor-Binding Domain Complexed with Receptor », Science, vol. 309, no 5742, , p. 1864-1868 (PMID16166518, DOI10.1126/science.1116480, JSTOR3843779, lire en ligne)
(en) Graham Simmons, Dhaval N. Gosalia, Andrew J. Rennekamp, Jacqueline D. Reeves, Scott L. Diamond et Paul Bates, « Inhibitors of cathepsin L prevent severe acute respiratory syndrome coronavirus entry », Proceedings of the National Academy of Sciences of the United States of America, vol. 102, no 33, , p. 11876-11881 (PMID16081529, PMCID1188015, DOI10.1073/pnas.0505577102, JSTOR3376363, Bibcode2005PNAS..10211876S, lire en ligne)
nature.com
(en) Peng Zhou, Xing-Lou Yang, Xian-Guang Wang, Ben Hu, Lei Zhang, Wei Zhang, Hao-Rui Si, Yan Zhu, Bei Li, Chao-Lin Huang, Hui-Dong Chen, Jing Chen, Yun Luo, Hua Guo, Ren-Di Jiang, Mei-Qin Liu, Ying Chen, Xu-Rui Shen, Xi Wang, Xiao-Shuang Zheng, Kai Zhao, Quan-Jiao Chen, Fei Deng, Lin-Lin Liu, Bing Yan, Fa-Xian Zhan, Yan-Yi Wang, Geng-Fu Xiao et Zheng-Li Shi, « A pneumonia outbreak associated with a new coronavirus of probable bat origin », Nature, vol. 579, no 7798, , p. 270-273 (PMID32015507, PMCID7095418, DOI10.1038/s41586-020-2012-7, lire en ligne).
(en) Keiji Kuba, Yumiko Imai, Shuan Rao, Hong Gao, Feng Guo, Bin Guan, Yi Huan, Peng Yang, Yanli Zhang, Wei Deng, Linlin Bao, Binlin Zhang, Guang Liu, Zhong Wang, Mark Chappell, Yanxin Liu, Dexian Zheng, Andreas Leibbrandt, Teiji Wada, Arthur S Slutsky, Depei Liu, Chuan Qin, Chengyu Jiang et Josef M Penninger, « A crucial role of angiotensin converting enzyme 2 (ACE2) in SARS coronavirus–induced lung injury », Nature Medicine, vol. 11, no 8, , p. 875-879 (PMID16007097, PMCID7095783, DOI10.1038/nm1267, lire en ligne).
(en) Michael A. Crackower, Renu Sarao, Gavin Y. Oudit, Chana Yagil, Ivona Kozieradzki, Sam E. Scanga, Antonio J. Oliveira-dos-Santos, Joan da Costa, Liyong Zhang, York Pei, James Scholey, Carlos M. Ferrario, Armen S. Manoukian, Mark C. Chappell, Peter H. Backx, Yoram Yagil et Josef M. Penninger, « Angiotensin-converting enzyme 2 is an essential regulator of heart function », Nature, vol. 417, no 6891, , p. 822-828 (PMID12075344, DOI10.1038/nature00786, Bibcode2002Natur.417..822C/abstract, lire en ligne)
(en) Hongliang Wang, Peng Yang, Kangtai Liu, Feng Guo, Yanli Zhang, Gongyi Zhang et Chengyu Jiang, « SARS coronavirus entry into host cells through a novel clathrin- and caveolae-independent endocytic pathway », Cell Research, vol. 18, no 2, , p. 290-301 (PMID18227861, DOI10.1038/cr.2008.15, lire en ligne)
(en) Lanying Du, Yuxian He, Yusen Zhou, Shuwen Liu, Bo-Jian Zheng et Shibo Jiang, « The spike protein of SARS-CoV — a target for vaccine and therapeutic development », Nature Reviews Microbiology, vol. 7, no 3, , p. 226-236 (PMID19198616, PMCID2750777, DOI10.1038/nrmicro2090, lire en ligne)
nejm.org
(en) Mamfred Boehm et Elizabeth G. Nabel, « Angiotensin-converting enzyme 2 — a new cardiac regulator. », The New England Journal of Medicine, vol. 347, no 22, , p. 1795-1797 (PMID12456857, DOI10.1056/NEJMcibr022472, lire en ligne).
nih.gov
ncbi.nlm.nih.gov
(en) Paul Towler, Bart Staker, Sridhar G. Prasad, Saurabh Menon, Jin Tang, Thomas Parsons, Dominic Ryan, Martin Fisher, David Williams, Natalie A. Dales, Michael A. Patane et Michael W. Pantoliano, « ACE2 X-Ray Structures Reveal a Large Hinge-bending Motion Important for Inhibitor Binding and Catalysis », Journal of Biological Chemistry, vol. 279, no 17, , p. 17996-18007 (PMID14754895, DOI10.1074/jbc.M311191200, lire en ligne).
(en) I. Hamming, W. Timens, M. L. C. Bulthuis, A. T. Lely, G. J. Navis et H. van Goor, « Tissue distribution of ACE2 protein, the functional receptor for SARS coronavirus. A first step in understanding SARS pathogenesis », The Journal of Pathology, vol. 203, no 2, , p. 631-637 (PMID15141377, DOI10.1002/path.1570, lire en ligne).
(en) Mary Donoghue, Frank Hsieh, Elizabeth Baronas, Kevin Godbout, Michael Gosselin, Nancy Stagliano, Michael Donovan, Betty Woolf, Keith Robison, Raju Jeyaseelan, Roger E. Breitbart et Susan Acton, « A Novel Angiotensin-Converting Enzyme–Related Carboxypeptidase (ACE2) Converts Angiotensin I to Angiotensin 1-9 », Circulation Research, vol. 87, no 5, , E1-E9 (PMID10969042, DOI10.1161/01.res.87.5.e1, lire en ligne).
(en) Mamfred Boehm et Elizabeth G. Nabel, « Angiotensin-converting enzyme 2 — a new cardiac regulator. », The New England Journal of Medicine, vol. 347, no 22, , p. 1795-1797 (PMID12456857, DOI10.1056/NEJMcibr022472, lire en ligne).
(en) Gavin Y. Oudit, Michael A. Crackower, Peter H. Backx et Josef M. Penninger, « The Role of ACE2 in Cardiovascular Physiology », Trends in Cardiovascular Medicine, vol. 13, no 3, , p. 93-101 (PMID12691672, DOI10.1016/S1050-1738(02)00233-5, lire en ligne).
(en) Louise M. Burrell, Colin I. Johnston, Christos Tikellis et Mark E. Cooper, « ACE2, a new regulator of the renin–angiotensin system », Trends in Endocrinology and Metabolism, vol. 15, no 4, , p. 166-169 (PMID15109615, DOI10.1016/j.tem.2004.03.001, lire en ligne).
(en) Katalin Úri, Miklós Fagyas, Ivetta Mányiné Siket, Attila Kertész, Zoltán Csanádi, Gábor Sándorfi, Marcell Clemens, Roland Fedor, Zoltán Papp, István Édes, Attila Tóth et Erzsébet Lizanecz, « New Perspectives in the Renin-Angiotensin-Aldosterone System (RAAS) IV: Circulating ACE2 as a Biomarker of Systolic Dysfunction in Human Hypertension and Heart Failure », PLoS One, vol. 9, no 4, , article no e87845 (PMID24691269, PMCID3972189, DOI10.1371/journal.pone.0087845, Bibcode2014PLoSO...987845U, lire en ligne).
(en) Shlomo Keidar, Marielle Kaplan et Aviva Gamliel-Lazarovich, « ACE2 of the heart: From angiotensin I to angiotensin (1–7) », Cardiovascular Research, vol. 73, no 3, , p. 463-469 (PMID17049503, DOI10.1016/j.cardiores.2006.09.006, lire en ligne).
(en) Wang Wang, Shaun M.K. McKinnie, Maikel Farhan, Manish Paul, Tyler McDonald, Brent McLean, Catherine Llorens-Cortes, Saugata Hazra, Allan G. Murray, John C. Vederas et Gavin Y. Oudit, « Angiotensin-Converting Enzyme 2 Metabolizes and Partially Inactivates Pyr-Apelin-13 and Apelin-17 », Hypertension, vol. 68, no 2, , p. 365-377 (PMID27217402, DOI10.1161/HYPERTENSIONAHA.115.06892, lire en ligne).
(en) Mohammed A. R. Chamsi-Pasha, Zhili Shao et W. H. Wilson Tang, « Angiotensin-Converting Enzyme 2 as a Therapeutic Target for Heart Failure », Current Heart Failure Reports, vol. 11, no 1, , p. 58-63 (PMID24293035, PMCID3944399, DOI10.1007/s11897-013-0178-0, lire en ligne).
(en) Annamaria Mascolo, Konrad Urbanek, Antonella De Angelis, Maurizio Sessa, Cristina Scavone, Liberato Berrino, Giuseppe Massimo Claudio Rosano, Annalisa Capuano et Francesco Rossi, « Angiotensin II and angiotensin 1–7: which is their role in atrial fibrillation? », Heart Failure Reviews, vol. 25, no 2, , p. 367-380 (PMID31375968, DOI10.1007/s10741-019-09837-7, lire en ligne).
(en) Peng Zhou, Xing-Lou Yang, Xian-Guang Wang, Ben Hu, Lei Zhang, Wei Zhang, Hao-Rui Si, Yan Zhu, Bei Li, Chao-Lin Huang, Hui-Dong Chen, Jing Chen, Yun Luo, Hua Guo, Ren-Di Jiang, Mei-Qin Liu, Ying Chen, Xu-Rui Shen, Xi Wang, Xiao-Shuang Zheng, Kai Zhao, Quan-Jiao Chen, Fei Deng, Lin-Lin Liu, Bing Yan, Fa-Xian Zhan, Yan-Yi Wang, Geng-Fu Xiao et Zheng-Li Shi, « A pneumonia outbreak associated with a new coronavirus of probable bat origin », Nature, vol. 579, no 7798, , p. 270-273 (PMID32015507, PMCID7095418, DOI10.1038/s41586-020-2012-7, lire en ligne).
(en) Xintian Xu, Ping Chen, Jingfang Wang, Jiannan Feng, Hui Zhou, Xuan Li, Wu Zhong et Pei Hao, « Evolution of the novel coronavirus from the ongoing Wuhan outbreak and modeling of its spike protein for risk of human transmission », Science China Life Sciences, vol. 63, no 3, , p. 457-460 (PMID32009228, PMCID7089049, DOI10.1007/s11427-020-1637-5, lire en ligne).
(en) Junwen Luan, Yue Lu, Xiaolu Jin et Leiliang Zhang, « Spike protein recognition of mammalian ACE2 predicts the host range and an optimized ACE2 for SARS-CoV-2 infection », Biochemical and Biophysical Research Communications, vol. 526, no 1, , p. 165–169 (PMID32201080, PMCIDPMC7102515, DOI10.1016/j.bbrc.2020.03.047, lire en ligne, consulté le ).
(en) Keiji Kuba, Yumiko Imai, Shuan Rao, Hong Gao, Feng Guo, Bin Guan, Yi Huan, Peng Yang, Yanli Zhang, Wei Deng, Linlin Bao, Binlin Zhang, Guang Liu, Zhong Wang, Mark Chappell, Yanxin Liu, Dexian Zheng, Andreas Leibbrandt, Teiji Wada, Arthur S Slutsky, Depei Liu, Chuan Qin, Chengyu Jiang et Josef M Penninger, « A crucial role of angiotensin converting enzyme 2 (ACE2) in SARS coronavirus–induced lung injury », Nature Medicine, vol. 11, no 8, , p. 875-879 (PMID16007097, PMCID7095783, DOI10.1038/nm1267, lire en ligne).
(en) Anthony J. Turner, Sarah R. Tipnis, Jodie L. Guy, Gillian I. Rice et Nigel M. Hoope, « ACEH/ACE2 is a novel mammalian metallocarboxypeptidase and a homologue of angiotensin-converting enzyme insensitive to ACE inhibitors », Revue canadienne de physiologie et pharmacologie, vol. 80, no 4, , p. 346-353 (PMID12025971, DOI10.1139/y02-021, lire en ligne)
(en) Chad Vickers, Paul Hales, Virendar Kaushik, Larry Dick, James Gavin, Jin Tang, Kevin Godbout, Thomas Parsons, Elizabeth Baronas, Frank Hsieh, Susan Acton, Michael Patane, Andrew Nichols et Peter Tummino, « Hydrolysis of Biological Peptides by Human Angiotensin-converting Enzyme-related Carboxypeptidase », Journal of Biological Chemistry, vol. 277, no 17, , p. 14838-14843 (PMID11815627, DOI10.1074/jbc.M200581200, lire en ligne)
(en) Robson A. S. Santos, Ana C. Simoes e Silva, Christine Maric, Denise M. R. Silva, Raquel Pillar Machado, Insa de Buhr, Silvia Heringer-Walther, Sergio Veloso B. Pinheiro, Myriam Teresa Lopes, Michael Bader, Elizabeth P. Mendes, Virgina Soares Lemos, Maria Jose Campagnole-Santos, Heinz-Peter Schultheiss, Robert Speth et Thomas Walther, « Angiotensin-(1–7) is an endogenous ligand for the G protein-coupled receptor Mas », Proceedings of the National Academy of Sciences of the United States of America, vol. 100, no 14, , p. 8258-8263 (PMID12829792, PMCID166216, DOI10.1073/pnas.1432869100, JSTOR3139914, Bibcode2003PNAS..100.8258S, lire en ligne)
(en) Michael A. Crackower, Renu Sarao, Gavin Y. Oudit, Chana Yagil, Ivona Kozieradzki, Sam E. Scanga, Antonio J. Oliveira-dos-Santos, Joan da Costa, Liyong Zhang, York Pei, James Scholey, Carlos M. Ferrario, Armen S. Manoukian, Mark C. Chappell, Peter H. Backx, Yoram Yagil et Josef M. Penninger, « Angiotensin-converting enzyme 2 is an essential regulator of heart function », Nature, vol. 417, no 6891, , p. 822-828 (PMID12075344, DOI10.1038/nature00786, Bibcode2002Natur.417..822C/abstract, lire en ligne)
(en) Susan B. Gurley, Alicia Allred, Thu H. Le, Robert Griffiths, Lan Mao, Nisha Philip, Timothy A. Haystead, Mary Donoghue, Roger E. Breitbart, Susan L. Acton, Howard A. Rockman et Thomas M. Coffman, « Altered blood pressure responses and normal cardiac phenotype in ACE2-null mice », The Journal of Clinical Investigations, vol. 116, no 8, , p. 2218-2225 (PMID16878172, PMCID1518789, DOI10.1172/JCI16980, lire en ligne)
(en) Koichi Yamamoto, Mitsuru Ohishi, Tomohiro Katsuya, Norihisa Ito, Masashi Ikushima, Masaharu Kaibe, Yuji Tatara, Atsushi Shiota, Sumio Sugano, Satoshi Takeda, Hiromi Rakugi et Toshio Ogihara, « Deletion of Angiotensin-Converting Enzyme 2 Accelerates Pressure Overload-Induced Cardiac Dysfunction by Increasing Local Angiotensin II », Hypertension, vol. 47, no 4, , p. 718-726 (PMID16505206, DOI10.1161/01.HYP.0000205833.89478.5b, lire en ligne)
(en) Julie R. Ingelfinger, « ACE2: A New Target for Prevention of Diabetic Nephropathy? », Journal of the American Society of Nephrology, vol. 17, no 11, , p. 2957-2959 (PMID17021263, DOI10.1681/ASN.2006090986, lire en ligne)
(en) Minghao Ye, Jan Wysocki, Josette William, Maria José Soler, Ivan Cokic et Daniel Batlle, « Glomerular Localization and Expression of Angiotensin-Converting Enzyme 2 and Angiotensin-Converting Enzyme: Implications for Albuminuria in Diabetes », Journal of the American Society of Nephrology, vol. 17, no 11, , p. 3067-3075 (PMID17021266, DOI10.1681/ASN.2006050423, lire en ligne)
(en) Sarah R. Tipnis, Nigel M. Hooper, Ralph Hyde, Eric Karran et Gary Christie, « A human homolog of angiotensin-converting enzyme. Cloning and functional expression as a captopril-insensitive carboxypeptidase », Journal of Biological Chemistry, vol. 275, no 43, , p. 33238-33243 (PMID10924499, DOI10.1074/jbc.M002615200, lire en ligne)
(en) Slava Epelman, W.H. Wilson Tang, Stephen Y. Chen, Frederick Van Lente, Gary S. Francis et Subha Sen, « Detection of Soluble Angiotensin-Converting Enzyme 2 in Heart Failure: Insights Into the Endogenous Counter-Regulatory Pathway of the Renin-Angiotensin-Aldosterone System », Journal of the American College of Cardiology, vol. 52, no 9, , p. 750-754 (PMID18718423, PMCID2856943, DOI10.1016/j.jacc.2008.02.088, lire en ligne)
(en) Fang Li, Wenhui Li, Michael Farzan et Stephen C. Harrison, « Structure of SARS Coronavirus Spike Receptor-Binding Domain Complexed with Receptor », Science, vol. 309, no 5742, , p. 1864-1868 (PMID16166518, DOI10.1126/science.1116480, JSTOR3843779, lire en ligne)
(en) Yuuki Inoue, Nobuyuki Tanaka, Yoshinori Tanaka, Shingo Inoue, Kouichi Morita, Min Zhuang, Toshio Hattori et Kazuo Sugamura, « Clathrin-Dependent Entry of Severe Acute Respiratory Syndrome Coronavirus into Target Cells Expressing ACE2 with the Cytoplasmic Tail Deleted », Journal of Virology, vol. 81, no 16, , p. 8722-8729 (PMID17522231, PMCID1951348, DOI10.1128/JVI.00253-07, lire en ligne)
(en) Graham Simmons, Dhaval N. Gosalia, Andrew J. Rennekamp, Jacqueline D. Reeves, Scott L. Diamond et Paul Bates, « Inhibitors of cathepsin L prevent severe acute respiratory syndrome coronavirus entry », Proceedings of the National Academy of Sciences of the United States of America, vol. 102, no 33, , p. 11876-11881 (PMID16081529, PMCID1188015, DOI10.1073/pnas.0505577102, JSTOR3376363, Bibcode2005PNAS..10211876S, lire en ligne)
(en) Hongliang Wang, Peng Yang, Kangtai Liu, Feng Guo, Yanli Zhang, Gongyi Zhang et Chengyu Jiang, « SARS coronavirus entry into host cells through a novel clathrin- and caveolae-independent endocytic pathway », Cell Research, vol. 18, no 2, , p. 290-301 (PMID18227861, DOI10.1038/cr.2008.15, lire en ligne)
(en) Shutoku Matsuyama, Noriyo Nagata, Kazuya Shirato, Miyuki Kawase, Makoto Takeda et Fumihiro Taguchi, « Efficient Activation of the Severe Acute Respiratory Syndrome Coronavirus Spike Protein by the Transmembrane Protease TMPRSS2 », Journal of Virology, vol. 84, no 24, , p. 12658-12664 (PMID20926566, PMCID3004351, DOI10.1128/JVI.01542-10, lire en ligne)
(en) Swee Kee Wong, Wenhui Li, Michael J. Moore, Hyeryun Choe et Michael Farzan, « A 193-Amino Acid Fragment of the SARS Coronavirus S Protein Efficiently Binds Angiotensin-converting Enzyme 2 », Journal of Biological Chemistry, vol. 279, no 5, , p. 3197-3201 (PMID14670965, DOI10.1074/jbc.C300520200, lire en ligne)
(en) Lanying Du, Yuxian He, Yusen Zhou, Shuwen Liu, Bo-Jian Zheng et Shibo Jiang, « The spike protein of SARS-CoV — a target for vaccine and therapeutic development », Nature Reviews Microbiology, vol. 7, no 3, , p. 226-236 (PMID19198616, PMCID2750777, DOI10.1038/nrmicro2090, lire en ligne)
(en) Fang Li, « Structural Analysis of Major Species Barriers between Humans and Palm Civets for Severe Acute Respiratory Syndrome Coronavirus Infections », Journal of Virology, vol. 82, no 14, , p. 6984-6991 (PMID18448527, PMCID2446986, DOI10.1128/JVI.00442-08, lire en ligne)
(en) Fang Li, Wenhui Li, Michael Farzan et Stephen C. Harrison, « Interactions between SARS coronavirus and its receptor », Advances in Experimental Medicine and Biology, vol. 581, , p. 229-234 (PMID17037534, DOI10.1007/978-0-387-33012-9_38, lire en ligne)
(en) Yushun Wan, Jian Shang, Rachel Graham, Ralph S. Baric et Fang Li, « Receptor Recognition by the Novel Coronavirus from Wuhan: an Analysis Based on Decade-Long Structural Studies of SARS Coronavirus », Journal of Virology, vol. 94, no 7, , article no e00127-20 (PMID31996437, DOI10.1128/JVI.00127-20, lire en ligne)
(en) Renhong Yan, Yuanyuan Zhang, Yaning Li, Lu Xia, Yingying Guo et Qiang Zhou, « Structural basis for the recognition of SARS-CoV-2 by full-length human ACE2 », Science, vol. 367, no 6485, , p. 1444-1448 (PMID32132184, PMCID7164635, DOI10.1126/science.abb2762, lire en ligne)
(en) Mahmoud Gheblawi, Kaiming Wang, Anissa Viveiros, Quynh Nguyen, Jiu-Chang Zhong, Anthony J. Turner, Mohan K. Raizada, Maria B. Grant et Gavin Y. Oudit, « Angiotensin-Converting Enzyme 2: SARS-CoV-2 Receptor and Regulator of the Renin-Angiotensin System », Circulation Research, vol. 126, no 10, , p. 1456-1474 (PMID32264791, PMCID7188049, DOI10.1161/CIRCRESAHA.120.317015, lire en ligne)
nrcresearchpress.com
(en) Anthony J. Turner, Sarah R. Tipnis, Jodie L. Guy, Gillian I. Rice et Nigel M. Hoope, « ACEH/ACE2 is a novel mammalian metallocarboxypeptidase and a homologue of angiotensin-converting enzyme insensitive to ACE inhibitors », Revue canadienne de physiologie et pharmacologie, vol. 80, no 4, , p. 346-353 (PMID12025971, DOI10.1139/y02-021, lire en ligne)
onlinejacc.org
(en) Slava Epelman, W.H. Wilson Tang, Stephen Y. Chen, Frederick Van Lente, Gary S. Francis et Subha Sen, « Detection of Soluble Angiotensin-Converting Enzyme 2 in Heart Failure: Insights Into the Endogenous Counter-Regulatory Pathway of the Renin-Angiotensin-Aldosterone System », Journal of the American College of Cardiology, vol. 52, no 9, , p. 750-754 (PMID18718423, PMCID2856943, DOI10.1016/j.jacc.2008.02.088, lire en ligne)
oup.com
academic.oup.com
(en) Shlomo Keidar, Marielle Kaplan et Aviva Gamliel-Lazarovich, « ACE2 of the heart: From angiotensin I to angiotensin (1–7) », Cardiovascular Research, vol. 73, no 3, , p. 463-469 (PMID17049503, DOI10.1016/j.cardiores.2006.09.006, lire en ligne).
physiology.org
(en) Sumit Kar, Lie Gao et Irving H. Zucker, « Exercise training normalizes ACE and ACE2 in the brain of rabbits with pacing-induced heart failure », Journal of Applied Physiology, vol. 108, no 4, , p. 923–932 (ISSN8750-7587 et 1522-1601, DOI10.1152/japplphysiol.00840.2009, lire en ligne, consulté le )
(en) Tony Karram, Anan Abbasi, Shlomo Keidar et Eliahu Golomb, « Effects of spironolactone and eprosartan on cardiac remodeling and angiotensin-converting enzyme isoforms in rats with experimental heart failure », American Journal of Physiology-Heart and Circulatory Physiology, vol. 289, no 4, , H1351–H1358 (ISSN0363-6135 et 1522-1539, DOI10.1152/ajpheart.01186.2004, lire en ligne, consulté le )
(en) Robson A. S. Santos, Ana C. Simoes e Silva, Christine Maric, Denise M. R. Silva, Raquel Pillar Machado, Insa de Buhr, Silvia Heringer-Walther, Sergio Veloso B. Pinheiro, Myriam Teresa Lopes, Michael Bader, Elizabeth P. Mendes, Virgina Soares Lemos, Maria Jose Campagnole-Santos, Heinz-Peter Schultheiss, Robert Speth et Thomas Walther, « Angiotensin-(1–7) is an endogenous ligand for the G protein-coupled receptor Mas », Proceedings of the National Academy of Sciences of the United States of America, vol. 100, no 14, , p. 8258-8263 (PMID12829792, PMCID166216, DOI10.1073/pnas.1432869100, JSTOR3139914, Bibcode2003PNAS..100.8258S, lire en ligne)
(en) Graham Simmons, Dhaval N. Gosalia, Andrew J. Rennekamp, Jacqueline D. Reeves, Scott L. Diamond et Paul Bates, « Inhibitors of cathepsin L prevent severe acute respiratory syndrome coronavirus entry », Proceedings of the National Academy of Sciences of the United States of America, vol. 102, no 33, , p. 11876-11881 (PMID16081529, PMCID1188015, DOI10.1073/pnas.0505577102, JSTOR3376363, Bibcode2005PNAS..10211876S, lire en ligne)
researchgate.net
(en) Katalin Úri, Miklós Fagyas, Ivetta Mányiné Siket, Attila Kertész, Zoltán Csanádi, Gábor Sándorfi, Marcell Clemens, Roland Fedor, Zoltán Papp, István Édes, Attila Tóth et Erzsébet Lizanecz, « New Perspectives in the Renin-Angiotensin-Aldosterone System (RAAS) IV: Circulating ACE2 as a Biomarker of Systolic Dysfunction in Human Hypertension and Heart Failure », PLoS One, vol. 9, no 4, , article no e87845 (PMID24691269, PMCID3972189, DOI10.1371/journal.pone.0087845, Bibcode2014PLoSO...987845U, lire en ligne).
sciencedirect.com
(en) Gavin Y. Oudit, Michael A. Crackower, Peter H. Backx et Josef M. Penninger, « The Role of ACE2 in Cardiovascular Physiology », Trends in Cardiovascular Medicine, vol. 13, no 3, , p. 93-101 (PMID12691672, DOI10.1016/S1050-1738(02)00233-5, lire en ligne).
(en) Fang Li, Wenhui Li, Michael Farzan et Stephen C. Harrison, « Structure of SARS Coronavirus Spike Receptor-Binding Domain Complexed with Receptor », Science, vol. 309, no 5742, , p. 1864-1868 (PMID16166518, DOI10.1126/science.1116480, JSTOR3843779, lire en ligne)
(en) Renhong Yan, Yuanyuan Zhang, Yaning Li, Lu Xia, Yingying Guo et Qiang Zhou, « Structural basis for the recognition of SARS-CoV-2 by full-length human ACE2 », Science, vol. 367, no 6485, , p. 1444-1448 (PMID32132184, PMCID7164635, DOI10.1126/science.abb2762, lire en ligne)
springer.com
link.springer.com
(en) Mohammed A. R. Chamsi-Pasha, Zhili Shao et W. H. Wilson Tang, « Angiotensin-Converting Enzyme 2 as a Therapeutic Target for Heart Failure », Current Heart Failure Reports, vol. 11, no 1, , p. 58-63 (PMID24293035, PMCID3944399, DOI10.1007/s11897-013-0178-0, lire en ligne).
(en) Xintian Xu, Ping Chen, Jingfang Wang, Jiannan Feng, Hui Zhou, Xuan Li, Wu Zhong et Pei Hao, « Evolution of the novel coronavirus from the ongoing Wuhan outbreak and modeling of its spike protein for risk of human transmission », Science China Life Sciences, vol. 63, no 3, , p. 457-460 (PMID32009228, PMCID7089049, DOI10.1007/s11427-020-1637-5, lire en ligne).
(en) Fang Li, Wenhui Li, Michael Farzan et Stephen C. Harrison, « Interactions between SARS coronavirus and its receptor », Advances in Experimental Medicine and Biology, vol. 581, , p. 229-234 (PMID17037534, DOI10.1007/978-0-387-33012-9_38, lire en ligne)
rd.springer.com
(en) Annamaria Mascolo, Konrad Urbanek, Antonella De Angelis, Maurizio Sessa, Cristina Scavone, Liberato Berrino, Giuseppe Massimo Claudio Rosano, Annalisa Capuano et Francesco Rossi, « Angiotensin II and angiotensin 1–7: which is their role in atrial fibrillation? », Heart Failure Reviews, vol. 25, no 2, , p. 367-380 (PMID31375968, DOI10.1007/s10741-019-09837-7, lire en ligne).
(en) I. Hamming, W. Timens, M. L. C. Bulthuis, A. T. Lely, G. J. Navis et H. van Goor, « Tissue distribution of ACE2 protein, the functional receptor for SARS coronavirus. A first step in understanding SARS pathogenesis », The Journal of Pathology, vol. 203, no 2, , p. 631-637 (PMID15141377, DOI10.1002/path.1570, lire en ligne).
