Sean M. Wells scite author profile

Reduced reproduction extends lifespan in many experimental animals, but the mechanism by which this occurs is unclear. The disposable soma hypothesis suggests that when reproduction is reduced, more nutrients are allocated to the soma and lifespan is extended. Alternatively, the reproductive tissues or the process of reproduction may have a direct (i.e., non-nutritional) negative effect on lifespan. We used ovariectomized grasshoppers to examine the effects of reduced reproduction throughout the lifespan at the physiological level. We focused on protein, the limiting nutrient for egg production. Ovariectomized females lived significantly longer than sham females. Because both groups ingested similar amounts, the effect was independent of dietary restriction. Despite this, ovariectomized females gained less body mass than sham females. Ovariectomized grasshoppers produced the egg yolk-precursor protein vitellogenin. At the time sham females laid their first clutch, cumulative reproductive protein was similar in ovariectomized and sham females. By advanced ages, however, ovariectomized females had produced about 5-fold less cumulative reproductive protein than sham females. In contrast, old ovariectomized females had at least 2-fold more hemolymph storage protein. These results are consistent with ovariectomy extending lifespan in part via enhanced protein allocation to storage at the expense of reproduction.

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Calorie restriction and late-onset calorie restriction extend lifespan but do not alter protein storage in female grasshoppers

Hatle

Wells

Fuller

et al. 2006

Mechanisms of Ageing and Development

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SummaryCalorie restriction (CR) and late-onset CR enhance longevity in many organisms. Resource allocation theory suggests that longevity is enhanced by increasing somatic storage, at the expense of current reproduction. Phytophagous insects accumulate amino acids as hemolymph storage proteins for major developmental events. We hypothesized that protein storage is involved in life extension from CR. In a longitudinal experiment, we tested whether CR altered protein storage in female grasshoppers. Individuals on CR (60% or 70%) or late-onset CR had at least 60% greater longevity than ad libitum individuals. Age at first oviposition, dry mass of the first clutch, or lifetime fecundity were not affected by CR, but CR did increase the number of clutches produced. Most important, females on life-extending CR and late-onset CR did not differ in the concentration of hemolymph storage of proteins in comparison to ad libitum females. Protein storage changed with time in all groups, demonstrating sufficient sensitivity in our methods. Previous experiments have shown that severe CR (~30% of ad libitum) can reduce hemolymph storage. Therefore, the reduction in intake needed to extend lifespan is not sufficient to reduce protein storage in the hemolymph. These results do not support the hypothesis that protein storage is involved in life extension from CR.

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Pharmacokinetics of butorphanol in cats after intramuscular and buccal transmucosal administration

Wells¹,

Glerum²,

Papich³

2008

ajvr

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Pharmacokinetics of butorphanol in cats after intramuscular and buccal transmucosal administration

Wells¹

2008

Journal of the American Veterinary Medical Association

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Sean M. Wells

Protein accumulation underlying lifespan extension via ovariectomy in grasshoppers is consistent with the disposable soma hypothesis but is not due to dietary restriction

Calorie restriction and late-onset calorie restriction extend lifespan but do not alter protein storage in female grasshoppers

Pharmacokinetics of butorphanol in cats after intramuscular and buccal transmucosal administration

Pharmacokinetics of butorphanol in cats after intramuscular and buccal transmucosal administration

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