Histopathology of the pituitary

Abstract

The cytoplasmic secretory granules of corticotrophs in the anterior pituitary are basophil in trichrome stains and periodic acid-Schiff positive in the histochemical stain for glycoprotein due to their content of the glycosylated 16000 N-terminal fragment of the precursor protein proopiomelanocorticotrophin (POC). The granules show a positive immunocytochemical reaction to antibodies raised against ACTH, β- endorphin and N-terminal fragments of POC. A small subset of corticotrophs contains immunoreactive αMSH in addition. Immunocytochemistry shows the corticotrophs to constitute about 15–20% of the anterior pituitary cells arranged both singly and in clumps. They are distributed in the median wedge and anteriorly, laterally and posteriorly adjacent to the pars nervosa which is often ‘invaded’ by corticotroph basophils. The αMSH subset is prominent in the rudimentary intermediate lobe and is scattered anteriorly in the pituitary of the human fetus. Crooke cell hyalinization is associated with pathologically maintained hypercortisolaemia and with glucosteroid therapy. The hyalinization is demonstrated in ultrastructure to be due to massive accumulation of intermediate cytoplasmic filaments 7–8 nm in diameter that are normally present in only small number. The change is associated with a varying degree of loss of secretory granules.

In untreated Addison's disease there is a marked increase in the number of corticotrophs, many of which are arranged in distended alveoli to form micronodules. The vast majority of cases of pituitary-dependent Cushing's disease and all cases of Nelson's syndrome are associated with a basophil or chromophobe adenoma. These give a positive immunocytochemical reaction with anti-ACTH, β-endorphin and N-terminal POC. In ultrastructure the cells of the chromophobe adenomas are seen to contain sparse secretory granules that are usually smaller than those in the chromophil adenomas. There are only very few reports of pituitary-dependent Cushing's disease found to be due to immunocytochemically confirmed corticotroph hyperplasia with or without a corticotroph adenoma. A few cases have been described in which the adenoma cells show Crooke's hyalinization, associated in one example with secretion of a big ACTH found more typically in ectopic ACTH-secreting tumours. A group of cases due to corticotroph adenoma has been reported whose excessive ACTH secretion is reduced by treatment with the dopamine agonist bromocriptine, in which it is suggested that the tumour cells arise from a subset of corticotrophs of pars intermedia origin. A puzzling finding has been the incidence of immunoreactive corticotroph adenomas that are not associated with any evidence of clinical or biochemical Cushing's disease. These have been noted in surgically resected material as well as in postmortem pituitaries.