Glycerol stimulates innate chaperoning, proteasomal and stress-resistance functions: Implications for geronto-manipulation
Aging is associated with accumulation of toxic intracellular and extracellular protein aggregates. Cells manage “aged” proteins by mobilizing their molecular chaperones or heat shock proteins that are also considered as determinants of lifespan in diverse species. In this study, we tested whether an...
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oai:animorepository.dlsu.edu.ph:faculty_research-62502022-04-20T03:30:49Z Glycerol stimulates innate chaperoning, proteasomal and stress-resistance functions: Implications for geronto-manipulation Deocaris, Custer C. Takano, Syuichi Priyandoko, Didik Kaul, Zeenia Yaguchi, Tomoko Kraft, David C. Yamasaki, Kazuhiko Kaul, Sunil C. Wadhwa, Renu Aging is associated with accumulation of toxic intracellular and extracellular protein aggregates. Cells manage “aged” proteins by mobilizing their molecular chaperones or heat shock proteins that are also considered as determinants of lifespan in diverse species. In this study, we tested whether an exogenous addition of the non-toxic chemical chaperone ‘glycerol’ could elicit stress and geronto-protective activities. We found that glycerol enhanced chaperoning of heat-denatured proteins. In addition to stimulating proteasome activity, glycerol led to an increased expression of the stress chaperone ‘mortalin’ and decreased p53 function in human cells. Glycerol-fed worms exhibited thermo-tolerance and lower level of age-associated auto-fluorescence. Through the combined stimulation of the proteasome and chaperoning activities of mortalin, in particular, glycerol treatment resulted in increased survival and fitness against oxidative- and heat-stress. These results may have significant implications in the use of glycerol as a candidate geronto-modulator in development of practical interventions for “healthy aging”. 2008-01-01T08:00:00Z text https://animorepository.dlsu.edu.ph/faculty_research/5468 Faculty Research Work Animo Repository Glycerin Molecular chaperones Stress (Physiology) Gerontology Protein folding Homeostasis Biochemistry, Biophysics, and Structural Biology Biology |
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Glycerin Molecular chaperones Stress (Physiology) Gerontology Protein folding Homeostasis Biochemistry, Biophysics, and Structural Biology Biology |
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Glycerin Molecular chaperones Stress (Physiology) Gerontology Protein folding Homeostasis Biochemistry, Biophysics, and Structural Biology Biology Deocaris, Custer C. Takano, Syuichi Priyandoko, Didik Kaul, Zeenia Yaguchi, Tomoko Kraft, David C. Yamasaki, Kazuhiko Kaul, Sunil C. Wadhwa, Renu Glycerol stimulates innate chaperoning, proteasomal and stress-resistance functions: Implications for geronto-manipulation |
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Aging is associated with accumulation of toxic intracellular and extracellular protein aggregates. Cells manage “aged” proteins by mobilizing their molecular chaperones or heat shock proteins that are also considered as determinants of lifespan in diverse species. In this study, we tested whether an exogenous addition of the non-toxic chemical chaperone ‘glycerol’ could elicit stress and geronto-protective activities. We found that glycerol enhanced chaperoning of heat-denatured proteins. In addition to stimulating proteasome activity, glycerol led to an increased expression of the stress chaperone ‘mortalin’ and decreased p53 function in human cells. Glycerol-fed worms exhibited thermo-tolerance and lower level of age-associated auto-fluorescence. Through the combined stimulation of the proteasome and chaperoning activities of mortalin, in particular, glycerol treatment resulted in increased survival and fitness against oxidative- and heat-stress. These results may have significant implications in the use of glycerol as a candidate geronto-modulator in development of practical interventions for “healthy aging”. |
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text |
| author |
Deocaris, Custer C. Takano, Syuichi Priyandoko, Didik Kaul, Zeenia Yaguchi, Tomoko Kraft, David C. Yamasaki, Kazuhiko Kaul, Sunil C. Wadhwa, Renu |
| author_facet |
Deocaris, Custer C. Takano, Syuichi Priyandoko, Didik Kaul, Zeenia Yaguchi, Tomoko Kraft, David C. Yamasaki, Kazuhiko Kaul, Sunil C. Wadhwa, Renu |
| author_sort |
Deocaris, Custer C. |
| title |
Glycerol stimulates innate chaperoning, proteasomal and stress-resistance functions: Implications for geronto-manipulation |
| title_short |
Glycerol stimulates innate chaperoning, proteasomal and stress-resistance functions: Implications for geronto-manipulation |
| title_full |
Glycerol stimulates innate chaperoning, proteasomal and stress-resistance functions: Implications for geronto-manipulation |
| title_fullStr |
Glycerol stimulates innate chaperoning, proteasomal and stress-resistance functions: Implications for geronto-manipulation |
| title_full_unstemmed |
Glycerol stimulates innate chaperoning, proteasomal and stress-resistance functions: Implications for geronto-manipulation |
| title_sort |
glycerol stimulates innate chaperoning, proteasomal and stress-resistance functions: implications for geronto-manipulation |
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Animo Repository |
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2008 |
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https://animorepository.dlsu.edu.ph/faculty_research/5468 |
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1767196309768372224 |