A. A. Goldberg; A. Beach; G. F. Davies; T. A. Harkness; A. Leblanc; V. I. Titorenko. Lithocholic bile acid selectively kills neuroblastoma cells, while sparing normal neuronal cells. Oncotarget. 2011, s. 761–782. Dostupné online. PMID21992775.
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ncbi.nlm.nih.gov
V. Kozoni; G. Tsioulias; S. Shiff; B. Rigas. The effect of lithocholic acid on proliferation and apoptosis during the early stages of colon carcinogenesis: Differential effect on apoptosis in the presence of a colon carcinogen. Carcinogenesis. 2000, s. 999–1005. PMID10783324.
A. A. Goldberg; A. Beach; G. F. Davies; T. A. Harkness; A. Leblanc; V. I. Titorenko. Lithocholic bile acid selectively kills neuroblastoma cells, while sparing normal neuronal cells. Oncotarget. 2011, s. 761–782. Dostupné online. PMID21992775.
D. J. Jenkins; T. M. Wolever; A. V. Rao; R. A. Harkness; S. J. Hegele; D. L. Ransom. Effect on blood lipids of very high intakes of fiber in diets low in saturated fat and cholesterol. The New England Journal of Medicine. 1993, s. 21–26. PMID8389421.
M. Ishizawa; M. Matsunawa; R. Adachi; S. Uno; K. Ikeda; H. Masuno; M. Shimizu. Lithocholic acid derivatives act as selective vitamin D receptor modulators without inducing hypercalcemia. The Journal of Lipid Research. 2008, s. 763–772. PMID18180267.
A. A. Goldberg; V. R. Richard; P. Kyryakov; S. D. Bourque; A. Beach; M. T. Burstein; A. Glebov. Chemical genetic screen identifies lithocholic acid as an anti-aging compound that extends yeast chronological life span in a TOR-independent manner, by modulating housekeeping longevity assurance processes. Aging. 2010, s. 393–414. PMID20622262.
