Oxygen consumption in mosquito larvae parasitized by Romanomermis culicivorax (Nematoda)

Population variation in the metabolic response of deer mice to infection with Capillaria hepatica (Nematoda)

The effects of parasites on their hosts can vary among host populations, but few studies have examined geographic variation in host-parasite interactions. We examined the effects of Capillaria hepatica (Nematoda) infection on deer mice (Peromyscus maniculatus gracilis) from two different populations. Specifically, we measured the basal metabolic rate (BMR), cold-stress maximum oxygen consumption (MRpeak), metabolic scope (MRpeak/BMR), and thermogenic endurance of infected and uninfected mice from one population with, and a second population without, a history with C. hepatica. Infection had no effect on BMR, but did have effects on cold-stress measures. A previous study documented a significant relationship between survival and MRpeak in wild deer mice; hence, the effects of infection on the parameters that we measured could influence fitness. Only mice that had no historical association with C. hepatica displayed negative consequences of infection, which suggests that the historical host population has evolved mechanisms to cope with infection. Models of the evolution of virulence should include evolutionary responses of both hosts and parasites, particularly when systems involve macroparasites that have long generation times.

Ionic requirements for melanin concentrating hormone (MCH) actions on teleost Poecilia reticulata melanophores

Melanin concentrating hormone (MCH) is a cyclic heptadecapeptide, Asp-Thr-Met-Arg-Cys-Met-Val-Gly-Arg-Val-Tyr-Arg-Pro-Cys-Trp-Glu-Val, synthesized in the hypothalamus and released by the neurohypophysis of teleost fish. This hormone is a potent lightening agent of fish skin. This lightening results from the stimulation of a centripetal melanosome (melanin granule) migration to a perinuclear position within integumental melanophores. MCH and related fragment analogues, MCH5-17 and MCH1-14 were used to investigate the ionic requirements for receptor activation by MCH on dermal melanophores of the fish Poecilia reticulata. In calcium-free saline, the sensitivity of the melanophores to MCH and MCH1-14 increased, whereas the sensitivity of the cells to MCH5-17 decreased. Verapamil diminished the sensitivity to MCH5-17, but did not affect melanophore responses to MCH or MCH1-14. The melanosome aggregating response to MCH was not affected in the presence of tetrodotoxin or in sodium- or potassium-free (choline-substituted) saline. These results suggest that neither TTX-sensitive sodium channels nor extracellular sodium or potassium ions play a role in MCH-induced melanosome aggregation. It is known that MCH and MCH1-14 also exhibit MSH-like melanosome dispersion within melanophores, skin darkening activity on fish melanophores whereas MCH5-17 lacks this characteristic. Since the darkening activity of MCH and MCH1-14 requires calcium, these analogues exhibited a diminished lightening (MCH-like) activity in the presence of the divalent cation. In the absence of the N-terminal tetrapeptide sequence (necessary for the expression of MSH-like activity), a role for calcium on melanosome aggregation became evident. These results demonstrate a bifunctional role of calcium on melanosome movements.

Localization of two L-glutamate dehydrogenases in the coral Acropora latistella

The coral Acropora latistella has been shown to contain two distinct L-glutamate dehydrogenases. An NADPH-specific GDH, closely resembling the enzyme from other coelenterates, is located in the cytosol; a distinct NADH-specific GDH is localized within the mitochondria. This is in contrast to earlier reports, where the NADPH-specific enzyme was thought to be the only GDH present and was assumed to be mitochondrial. Preliminary kinetic and stability data are presented for the two GDHs.