Abstract
Screening a library of drugs with known safety profiles in humans yielded 30 drugs that reliably protected mammalian neurons against glucose toxicity. Subsequent screening demonstrated that 6 of these 30 drugs increase lifespan in C. elegans: caffeine, ciclopirox olamine, tannic acid, acetaminophen, bacitracin, and baicalein. Every drug significantly reduced the age-dependent acceleration of mortality rate. These protective effects were blocked by RNAi inhibition of cbp-1 in adults only, which also blocks protective effects of dietary restriction. Only 2 drugs, caffeine and tannic acid, exhibited a similar dependency on DAF-16. Caffeine, tannic acid, and bacitracin also reduced pathology in a transgenic model of proteotoxicity associated with Alzheimer's disease. These results further support a key role for glucose toxicity in driving age-related pathologies and for CBP-1 in protection against age-related pathologies. These results also provide novel lead compounds with known safety profiles in human for treatment of age-related diseases, including Alzheimer's disease and diabetic complications. © 2011 Lublin et al.
Cite
CITATION STYLE
Lublin, A., Isoda, F., Patel, H., Yen, K., Nguyen, L., Hajje, D., … Mobbs, C. (2011). FDA-approved drugs that protect mammalian neurons from glucose toxicity slow aging dependent on Cbp and protect against proteotoxicity. PLoS ONE, 6(11). https://doi.org/10.1371/journal.pone.0027762
Register to see more suggestions
Mendeley helps you to discover research relevant for your work.