Stem cell factor and c-kit gene expression and protein localization in the sheep ovary during fetal development.

The aim of this study was to investigate stem cell factor and c-kit gene expression and protein localization in the mesonephros and ovary of sheep fetuses at different days of gestation, using RNA in situ hybridization and immunohistochemical procedures. At days 24 and 26 of gestation, stem cell factor mRNA and protein were present in cells throughout the developing gonad and mesonephros. From day 28 to day 40 of gestation, stem cell factor mRNA and protein became increasingly localized to the cortical region of the ovary, where most germ cells were present as actively proliferating oogonia. From day 40 to day 90 of gestation, stem cell factor mRNA and protein localization were confined mainly to the ovarian cortex. Moreover, within the cortical region, stem cell factor mRNA was low or absent where follicles were first forming and highest in the outer ovarian cortex, where germ cells were undergoing mitosis or the early stages of meiosis. In contrast, stem cell factor protein was present in newly forming follicles, as well as in mitotic and meiotic germ cells, which is consistent with the presence of both membrane-bound and soluble forms of this ligand. However, by day 90 of gestation, both stem cell factor mRNA and protein were observed in the granulosa cells of most (> 90%) primordial follicles. C-kit mRNA and protein were observed from day 24 of gestation in both germ cells and somatic cells but, with increasing gestational age, preferentially in germ cells (for example, pre-meiotic germ cells and both isolated oocytes and follicle-enclosed oocytes). C-kit protein, but not mRNA, was also observed in germ cells that were undergoing meiosis. The results indicate that the cells containing stem cell factor mRNA within the ovary up to day 90 of gestation originated from the gonadal blastema and from cells that migrated from the mesonephros before day 28 of gestation. Since stem cell factor mRNA was absent in both mesonephric cells migrating after day 28 of gestation and in regions where follicles were first forming, it is suggested that these later migrating mesonephric cells are the progenitors of the granulosa cells in the first forming follicles. In conclusion, during follicle formation, c-kit mRNA is localized to germ cells whereas c-kit, together with stem cell factor protein, is localized to both germ cells and somatic cells, consistent with the hypothesis that the presence of this receptor-ligand pair is essential to prevent apoptosis.

Route of BCG administration in possums affects protection against bovine tuberculosis.

The Australian brushtail possum (Trichosurus vulpecula) is the major wildlife reservoir of Mycobacterium bovis in New Zealand. Control of bovine tuberculosis in farmed animals requires measures to reduce the transmission of M. bovis from wildlife. Possums were vaccinated with BCG intranasally by aerosol spray, orally or subcutaneously to compare the efficacy of these three routes on protection against challenge with virulent M. bovis. Possums vaccinated with BCG by the intranasal or subcutaneous routes had a marked reduction in severity of disease compared to possums which had been unvaccinated or orally vaccinated. The severity of the disease was assessed by changes in body weight and pathology. BCG vaccination by all three routes resulted in reduced dissemination of M. bovis to the spleen and liver following challenge. Intranasal and oral BCG vaccination induced lower mean peripheral blood lymphocyte blastogenic responses to bovine PPD than subcutaneous vaccination, indicating that these responses did not correlate well with protection from the disease. Given a suitable delivery system, aerosol vaccination of possums, used in conjunction with other control measures, may be a suitable method of reducing the spread of M. bovis from wildlife to domestic animals.