Human pituitary adenomas express endogenous inhibin subunit and follistatin messenger ribonucleic acids.

Specific factors involved in the pathogenesis of tumors that stimulate clonal human pituitary adenoma cell proliferation remain unknown. An important question regarding the pathogenesis of human pituitary tumors is whether they synthesize autocrine regulatory factors that regulate both hormone biosynthesis and neoplastic growth. Activin and inhibin are both comprised of inhibin subunits and have diverse regulatory roles as growth and differentiation factors in normal and neoplastic tissue. Activin stimulates FSH beta messenger ribonucleic acid (mRNA) biosynthesis and FSH secretion, and these effects are down-regulated in normal gonadotrophs by the endogenous glycoprotein follistatin. In addition to its effects on gonadotrophs, activin modulates hormone secretion by somatotroph and corticotroph cell lines. It is not known whether human neoplastic pituitary tissue synthesizes inhibin subunits or follistatin or whether their expression is cell type specific. We investigated whether alpha-, beta A-, and beta B-inhibin subunit and follistatin mRNAs could be detected in 27 human pituitary adenomas [clinically nonfunctioning (n = 11), somatotroph (n = 5), corticotroph (n = 5), and lactotroph (n = 6)] using reverse transcriptase-polymerase chain reaction techniques. Twenty-six of the tumors contained mRNAs encoding one or more inhibin subunits. beta B-Inhibin mRNA was the most prevalent (81% of tumors), followed by beta A-inhibin (59% of tumors) and alpha-inhibin (52% of tumors). Endogenous alpha-, beta A-, and beta B-inhibin subunit mRNA synthesis was also examined in normal human pituitary and testicular complementary DNA libraries, and all subunit mRNAs were detected. In contrast to the widespread expression of inhibin subunits in pituitary tumors, follistatin mRNA was detected in a subset of nonfunctioning tumors (54%) as well as in control normal human pituitary and testicular complementary DNA libraries. Tumor-specific follistatin biosynthesis was not observed in other pituitary tumor subtypes. These data are the first to demonstrate that 1) endogenous inhibin subunits are synthesized in human pituitary adenomas of all known secretory phenotypes as well as normal pituitary tissue; and 2) follistatin gene expression in pituitary adenomas is specific to clinically nonfunctioning or gonadotropin subunit-producing tumors. The characterization of inhibin subunit and follistatin biosynthesis by human pituitary tumors will be important in investigating their potential roles in regulating both tumor phenotype and cell proliferation.