The goal of this project is to identify how aging affects the function of neurons and muscles. These studies are being performed using the nematode, C. elegans, which offers both genetic and cell biological approaches for studying this problem. In C. elegans, aging affects locomotory ability much more dramatically than sensory ability, which is relatively well-maintained during aging. The basis for this age-related locomotory deficit appears to be due, at least in part, to functional declines in the muscles.
A second aim of this project is to investigate the basis for aging-related decline of the pharynx, a small, isolated neuromuscular organ in the head of the animal. In the pharynx, aging appears to primarily affect the muscle's ability to respond to neuronal stimulation, and probably does not significantly affect neuronal function. Thus, aging causes declines in both locomotion and pharyngeal function by reducing the responsiveness of muscles to neuronal stimulation. These studies are leading to new research aimed at identifying strategies for slowing aging-related muscle decline and for improving responsiveness of aged muscles.
Iser, Wendy B; Kim, Daemyung; Bachman, Eric et al. (2005) Examination of the requirement for ucp-4, a putative homolog of mammalian uncoupling proteins, for stress tolerance and longevity in C. elegans. Mech Ageing Dev 126:1090-6 |
Glenn, Charles F; Chow, David K; David, Lawrence et al. (2004) Behavioral deficits during early stages of aging in Caenorhabditis elegans result from locomotory deficits possibly linked to muscle frailty. J Gerontol A Biol Sci Med Sci 59:1251-60 |