Detection of inhibin α and βA subunits (inhibin A, B, activin A,AB) in the human pituitary gland and in pituitary adenomas by immunohistochemistry and nonradioisotopicin situ hybridization

Inhibin and activin are gonadal hormones produced in human ovaries. They are known to act on anterior pituitary cells to regulate the synthesis and secretion of follicle-stimulating hormone (FSH). The purpose of the present study was to determine the localization of inhibin and activin subunits α and βA as endocrine markers in the human normal pituitary gland and pituitary adenomas, using immunohistochemistry andin situ hybridization (ISH) methods. Pituitary tissues from surgical and autopsy materials were fixed in 10% formalin and embedded in paraffin. Five normal pituitary glands and 79 pituitary adenomas were immunostained with the avidin-biotin peroxidase complex (ABC) method using polyclonal antibodies against inhibin and activin subunits α and βA. The other antibodies against anterior pituitary hormones used in this study were as follows: antigrowth hormone (anti-GH), antiprolactin (anti-PRL), antiadrenocorticotropic hormone (anti-ACTH), anti-FSHβ, antilutenizing hormone (anti-LH) β, antithyroid-stimulating hormone (anti-TSH) β, and antiglycoprotein α-subunit (anti-α-SU). We analyzed gene expressions of subunits α and βA by nonradioisotopic ISH in pituitary adenomas. In the normal human pituitary glands, inhibin and activin subunits α and βA immunoreactivities were found diffusely in the cytoplasm of anterior pituitary cells. The percentage of subunit α-immunopositive cells was 40% of the anterior pituitary cells. Subunit βA immunoreactivities were observed in about 15% of the anterior pituitary cells. By the double-staining method, subunit α immunoreactivity was detected in all types of anterior pituitary cells, and it was colocalized most frequently with GH and α-SU-positive cells. Subunit βA immunoreactivity was colocalized predominantly with PRL, FSH-β, LH-β, and α-SU. Among the 79 adenomas, 75 cases (94.9%) were positive for subunit α, and 50 cases (63.3%) were positive for subunit βA. Subunit βA was positive in tumor cells with the following incidences: GH adenomas, 3 of 14 (21.4%); PRL adenomas, 5 of 8 (62.5%); ACTH adenomas, 6 of 6 (100%); TSH adenomas, 7 of 7 (100%); nonfunctioning adenomas, 29 of 44 (65.9%), including gonadotropin-positive, 16 of 22 (80.0%). The ISH signals for subunits α and βA were strongly expressed in gonadotropin-positive adenomas among the nonfunctioning adenomas. The mRNA signals were low and infrequent in the GH-producing adenomas. Inhibin and activin subunit α localization did not demonstrate cell-type specificity in pituitary adenomas. In contrast, subunit βA demonstrated predominant positivity in the functioning pituitary adenomas (ACTH- and TSH-secreting) and nonfunctioning adenomas (including gonadotropin-positive adenomas). The present results suggest that the functional role of inhibin and activin in the differentiation of cells in normal human pituitary glands and adenomas is present in subunit βA.