Characterization and the regulation of inhibin/activin subunit proteins of cultured rat anterior pituitary cells.

The production of inhibin/activin by cultured rat anterior pituitary cells was evaluated using specific antisera to inhibin/activin alpha, beta A, and beta B subunit proteins (anti-alpha, anti-beta A, and anti-beta B). Cellular or secreted proteins recognized by the antisera were immunoprecipitated from metabolically labeled cells then analyzed by denaturing polyacrylamide gel electrophoresis. Immunoreactive inhibin/activin beta B proteins were visualized in both cell lysates and the media. Experiments with anti-beta B confirmed that activin-B (beta B beta B) is a local secretory product of cultured rat anterior pituitary cells. The secreted beta B-immunoreactive protein band had an apparent size of 24-25 kilodaltons (kDa) or 14-15 kDa, consistent with the size of unreduced beta B dimer or reduced monomer, respectively. Cell lysates contained two proteins that were specifically immunoprecipitated by anti-beta B. One of these had a mobility of greater than 95 kDa (unreduced) or 55-60 kDa (reduced), probably representing dimers or monomers of the beta B precursor, respectively. The second 14- to 15-kDa (reduced and unreduced) immunoreactive beta B protein band was verified to be the mature beta B monomer. Mature heterodimeric inhibin-B (alpha beta B) was not detected by either anti-alpha or anti-beta B. Multiple protein species, however, were observed to be specifically immunoprecipitated by incubation of cell lysates with anti-alpha. Mature beta A monomer was not detected in any of the samples. The regulation of cellular beta B production was monitored by evaluating its rate of synthesis in pulse-labeled cells. Treatment with either forskolin or 12-O-tetradecanoylphorbol acetate enhanced the rate of [35S]cysteine incorporation into the cellular 14- to 15-kDa beta B monomer, indicating that the activation of either protein kinase A or protein kinase C regulates its production. The rate of cellular beta B accumulation was also regulated by activin-A, inhibin-A, and follistatin; activin-A caused a 30% inhibition in contrast to the 70% stimulation by treatment with either inhibin-A or follistatin. Equimolar concentrations of activin-A and follistatin prevented the net effect produced by either factor alone. None of the immunoreactive alpha-forms was detectable under similar pulse-labeling conditions, and there was no apparent change in their level after labeling to equilibrium (up to 48 h). The observed changes in beta B accumulation may, therefore, reflect the regulated production of pituitary activin-B. Taken together, these results suggest that locally produced activin-B or gonadal activins exert an inhibitory tone on the production of pituitary activin-B and that this negative-feedback control is in turn modulated by inhibins and follistatins. The relative importance of pituitary and gonadal activins, inhibins, and follistatins in the proposed regulatory loop remains to be established.