Transgenic overexpression of neuromedin U promotes leanness and hypophagia in mice.

Recent work has shown that neuromedin U (NmU), a peptide initially identified as a smooth muscle contractor, may play a role in regulating food intake and energy homeostasis. To further evaluate this putative function, we measured food intake, body weight, energy expenditure and glucose homeostasis in transgenic mice that ubiquitously overexpress murine proNmU. NmU transgenic mice were lighter and had less somatic and liver fat, were hypophagic, and had improved insulin sensitivity as judged by an intraperitoneal insulin tolerance test. Transgenic mice had higher levels of hypothalamic NPY, POMC and MCH mRNA. There was no difference in O2 consumption between genotypes; however, NmU transgenic mice displayed a modest increase in respiratory quotient during food deprivation and refeeding. There were no behavioral disturbances in the NmU transgenic mice that could account for the results (e.g. changes in locomotor activity). When placed on a high-fat diet, transgenic mice remained lighter than wild-type mice and ate less, but gained weight at a rate similar to wild-type mice. Despite the increased weight gain with high-fat feeding, glucose tolerance was significantly improved in the transgenic mice. These findings support the hypothesized role of NmU as an endogenous anorexigenic peptide.

Photoperiodic regulation of the reproductive axis in male zebra finches, Taeniopygia guttata.

In arid central Australia, breeding of zebra finches (Taeniopygia guttata) tends to take place immediately after the aperiodic rainfall-this being irrespective of the time of year. As a result, zebra finches have traditionally been considered nonphotoperiodic. Despite this, there are some published reports of photoperiodic effects on behavior in zebra finches. Therefore, we transferred singly housed male zebra finches from a photoperiod of 14 h light and 10 h dark per day (14L:10D) to either 20L:4D or 8L:16D. Control birds remained exposed to 14L:10D. Plasma LH, testicular volume, and body mass were assessed at the start of the experiment and at intervals for a period of 56 days. Testicular mass was measured at the end of the 56-day period. Plasma LH increased significantly in the 20L:4D group after 14 days, but decreased again by 56 days, presumably an effect of increased gonadal steroid negative feedback. Plasma LH did not change significantly in the other two groups. Testicular volume increased steadily in the 20L:4D group during the treatment period and it was significantly higher than that of the 8L:16D group at the end of the experiment. After 56 days of treatment, combined testicular mass in the 20L:4D group was much greater than that of the 8L:16D group, but not quite statistically different from the 14L:10D group. There was no statistical difference in testicular mass between the 14L and 8L groups. Body mass did not differ between any of the groups at any time in the experiment. Our results are consistent with zebra finches being photoperiodic to some degree, despite their opportunistic breeding strategy. When considered in conjunction with recent reports of photoperiodic responses in tropical avian species, these data suggest that the ability to respond to changing photoperiod is more common among avian species than previously hypothesized.