Abstract
Three major long-term effects of sterol deprivation in Caenorhabditis elegans are described. 1) The life expectancy of sterol-deprived wild-type animals is decreased by more than 40%. Similar decreases are found in animals carrying mutations in the daf-9, daf-12, daf-16, and clk-1 genes, suggesting that previously described aging pathways involving these genes are not involved in the life-extending effects of sterols. 2) There is a premature loss of motility, measured by response to mild touch. 3) There is a rapid postreproductive onset of sarcopenia (muscle wasting) as measured by total body fluorescence in a myo3::GFP-expressing strain. We also report that five sterols (the desmethylsterols cholesterol, 7-dehydrocholesterol, and lathosterol and the 4alpha-methyl sterols lophenol and 4alpha-methyl-cholesta-Delta8(14)-en-3beta-ol) are found in significant amounts at all stages of development and aging in cholesterol-fed animals. Supplying any one of these as the sole sterol confers similar protection from the long-term effects of sterol deprivation. These findings suggest that sterols are required continuously throughout the animal's life.
Highlights
Three major long-term effects of sterol deprivation in Caenorhabditis elegans are described. 1) The life expectancy of sterol-deprived wild-type animals is decreased by more than 40%
We report that five sterols (the desmethylsterols cholesterol, 7-dehydrocholesterol, and lathosterol and the 4␣-methyl sterols lophenol and 4␣-methyl-cholesta-⌬8(14)-en-3-ol) are found in significant amounts at all stages of development and aging in cholesterol-fed animals
We found that longevity of wild-type worms depended strongly on the presence of cholesterol
Summary
Three major long-term effects of sterol deprivation in Caenorhabditis elegans are described. 1) The life expectancy of sterol-deprived wild-type animals is decreased by more than 40%. Three major long-term effects of sterol deprivation in Caenorhabditis elegans are described. 1) The life expectancy of sterol-deprived wild-type animals is decreased by more than 40%. Similar decreases are found in animals carrying mutations in the daf-9, daf-12, daf-16, and clk-1 genes, suggesting that previously described aging pathways involving these genes are not involved in the life-extending effects of sterols. 3) There is a rapid postreproductive onset of sarcopenia (muscle wasting) as measured by total body fluorescence in a myo3::GFP-expressing strain. Supplying any one of these as the sole sterol confers similar protection from the long-term effects of sterol deprivation. These findings suggest that sterols are required continuously throughout the animal’s life.—Merris, M., J.
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