Delayed behavioural aging and altered mortality in Drosophila beta integrin mutants.

The genetic basis for aging is being intensely investigated in a variety of model systems. Much of the focus in Drosophila has been on the molecular-genetic determinants of lifespan, whereas the molecular-genetic basis for age-related functional declines has been less vigorously explored. We evaluated behavioural aging and lifespan in flies harbouring loss-of-function mutations in myospheroid, the gene that encodes betaPS, a beta integrin. Integrins are adhesion molecules that regulate a number of cellular processes and developmental events. Their role in aging, however, has received limited attention. We report here that age-related declines in locomotor activity are ameliorated and that mean lifespan is increased in myospheroid mutants. The delayed functional senescence and altered mortality in myospheroid flies are independent of changes in body size, reproduction or stress resistance. Our data indicate that functional senescence and age-dependent mortality are influenced by beta integrins in Drosophila.

Dihydrotestosterone activates sexual behavior in adult male hamsters but not in juveniles.

The effect of an androgenic metabolite of testosterone, dihydrotestosterone (DHT), on reproductive behavior and brain androgen receptor (AR) immunoreactivity was compared in juvenile and adult male Syrian hamsters. Prepubertal and adult animals were castrated and treated with 0, 500, or 1000 microg of DHT daily for 1 week and then tested for their ability to engage in mating behavior. The 1000-microg dose of DHT activated intromissions in adult but not prepubertal males. Brains were collected immediately after the behavioral test to investigate whether the lack of a behavioral response to DHT prior to puberty is associated with fewer AR-immunoreactive (AR-ir) cells in the forebrain nuclei that mediate male sexual behavior. In four of the five nuclei within the behavioral circuit that were examined, the number of AR-containing cells was similar in prepubertal and adult males treated with 1000 microg of DHT. Only in the anterior medial amygdala (MeA) was there a greater number of AR-ir cells in adults. These data indicate that (1) DHT does not activate components of male reproductive behavior prior to puberty and (2) the lack of behavioral responsiveness to DHT in prepubertal males is most likely not related to an overall reduction in ARs within the forebrain circuit that mediates mating behavior.