Immunocytochemical and in Situ Hybridization Studies of Peptidylglycine α-Amidating Monooxygenase in Pituitary Gland*

Abstract

The pituitary gland contains high levels of peptidylglycine .alpha.-amidating monoxygenase (PAM) activity and mRNA. Using affinity-purified rabbit polyclonal antisera generated to synthetic PAM peptides and PAM RNA probes immunocytochemical and in situ hybridization studies were conducted to determine the tissue disposition and cell types expressing PAM in the adult male rat pituitary gland. PAM immunoreactivity was present at varying levels in nearly all of the anterior pituitary cells; one cell population stained intensely, while others stained moderately or weakly. These results correlated well with in situ hybridization studies that demonstrated high levels of PAM mRNA in a subpopulation comprising approximately 10-15% of the anterior pituitary cells. Based upon immunocytochemistry, intermediate pituitary lobe cells were divided into an intensely stained and a moderately stained group. PAM staining was also present in neural lobe fibers. Immunocytochemical staining of serial pituitary tissue sections of PAM and other pituitary hormones demonstrated that the anterior pituitary cells intensely stained for PAM represented a subpopulation of the gonadotropes. PAM was also identified at moderate levels in corticotropes and at lower levels in sommatotropes and lactotropes. These results suggest that many anterior pituitary cells are capable of producing amidated peptides along with their major peptide hormone.