Histologic and immunohistochemical study of clinically non-functioning pituitary adenomas

Seventy-five clinically non-functioning pituitary adenomas were characterized in terms of their histologic and immunohistochemical features. Fourteen adenomas (18.7%) were positive for hormones other than gonadotropins. These included two somatotroph adenomas, three lactotroph adenomas, four thyrotroph adenomas, four corticotroph adenomas and one unusual plurihormonal adenoma. Fifty-five adenomas (73.3%) were exclusively positive for one or more gonadotropin subunits (β-follicle stimulating hormone, p-luteinizing hormone, and α-subunit of glycoprotein hormones), but negative for other hormones such as growth hormone and β-thyrotropin. Histologically, a papillary arrangement along the capillary was most characteristically observed in the gonadotropin-positive adenomas. Five of six adenomas negative for any pituitary hormones exhibited the typical papillary structure. Thus, approximately 80% of clinically non-functioning adenomas constituted a single tumor group that shared the common histologic features of gonadotroph adenomas. These findings suggest that nearly all tumor types of clinically non-functioning adenomas can be diagnosed solely by light microscopy in combination with immunohistochemistry, and that the vast majority of them may be gonadotroph adenomas.     

Crooke's hyalinization in silent corticotroph adenoma: report of two cases

Corticotroph adenomas rarely show Crooke’s hyaline change in neoplastic cells, a feature similar to that of normal corticotroph cells exposed to excess cortisol. Crooke’s cell adenomas are usually associated with Cushing’s disease. Nonfunctioning examples are uncommon. We report two clinically silent corticotroph adenomas featuring extensive Crooke’s hyalinization in neoplastic cells. The two patients were 49 and 59 yr of age and neither had Cushing’s disease. Serum and urinary cortisol were normal. One patient had elevated serum adrenocorticotropic hormone. In our experience, the two patients accounted for 0.4% of pituitary adenomas operated on from January 1992 to December 2001 and 3.5% of all corticotroph adenomas. The two lesions had features of the subtype 1 silent corticotroph adenoma. Cytogenetic analysis performed on one lesion showed a normal karyotype (46;XY). Hyalinization in clinically silent Crooke’s cell adenoma indicates that hyaline changes do not always relate to excess cortisol. It is known that neoplastic Crooke’s cells show immunoreactivity for glucocorticoid receptors stronger than nontumorous Crooke’s corticotrophs. This fact suggests that receptor overexpression or lack of receptor downregulation may result in hypersensitivity of neoplastic Crooke’s cells to physiologic cortisol plasma levels.     

CDKN2A/p16 inactivation is related to pituitary adenoma type and size

p16 (CDKN2A, MTS1, INK4A) status at genomic and protein levels was analysed and correlated with clinico-pathological features in 72 pituitary adenomas. Methylation of CpG islands of promoter/exon 1 sequences was found in most gonadotroph, lactotroph, plurihormonal, and null cell adenomas (36 of 44, 82%), but it was rare in somatotroph (1 of 13 cases, 8%) and corticotroph adenomas (1 of 15 cases, 7%). Homozygous CDKN2A deletion was restricted to rare somatotroph (15%) and corticotroph adenomas (13%). Immunohistochemical p16 protein expression was observed in the normal adenohypophysis, whereas it was absent in 60 of 72 (83%) tumours and reduced in another ten (14%) tumours. Staining for p16 was only seen in 5 of 15 (33%) corticotroph, 3 of 13 (23%) somatotroph, 3 of 5 (60%) plurihormonal, and 1 of 19 (5%) null cell adenomas. p16 immunonegativity without CDKN2A methylation or deletion occurred in 22 tumours, including most somatotroph and corticotroph adenomas (15 of 28, 54%). Both CDKN2A alterations and p16 negativity were related to larger tumour size. Patients with p16-negative tumours were older than patients with p16-positive tumours. These data suggest that p16 down-regulation is common in all adenoma types. The mechanisms of p16 down-regulation probably involve CDKN2A methylation in most types, but remain to be determined in somatotroph and corticotroph adenomas. These findings also suggest that p16 down-regulation is usually not an initial event, but is acquired during adenoma progression.     

Interphase Analysis of Chromosome 11 in Human Pituitary Somatotroph Adenomas by Direct Fluorescence In Situ Hybridization

Chromosome 11 numerical abnormalities were detected by fluorescencein situ hybridization (FISH) technique in four surgically removed pituitary somatotroph adenomas from patients clinically associated with acromegaly. The tumors were diagnosed by histology, immunocytochemistry, and electron microscopy, and included two densely granulated somatotroph (DG-SM) and two sparsely granulated somatotroph (SG-SM) adenomas. For demonstration of chromosome 11, the direct FISH technique was applied on imprints from fresh adenoma tissue fixed in acetone using an α-satellite specific centromeric probe. The slides were studied with a fluorescence microscope and the percentages of positive nuclei with aberrant fluorescent signals were counted. All tumors exhibited numerical chromosomal abnormalities in 8–23% of their cell population and included nuclei containing 1–3 extra chromosome 11 copies. The SG-SM adenomas exhibited more prominent abnormalities compared with the DG-SM adenomas. We conclude that numerical chromosome 11 abnormalities represent a frequent event among somatotroph adenomas with a tendency for higher frequency in SG-SM adenomas.     

The pituitary in turner syndrome

Although Turner syndrome is not uncommon, studies of the pituitary in this condition are few. We undertook a histochemical and immunohistochemical study of four cases. As expected, “gonadal failure cells” were seen, but without recognizable gonadotroph hyperplasia. No gonadotroph adenomas were encountered. Instead, three silent corticotroph microadenomas were seen; their etiology remains unexplained. The question of whether the simultaneous occurrence of Turner syndrome and silent corticotroph adenoma is causal or incidental cannot be answered on the basis of the study of our material. Because these two diseases are rare, an etiologic association has to be considered. For example, it is possible that (a) protracted stimulation of gonadotrophs leads to transdifferentiation to corticotrophs, a hypothesis supported by the fact that normal and neoplastic gonadotrophs can contain ACTH and that some corticotroph adenomas produce LH and/or alpha subunit, (b) corticotrophs develop gonadotropin-releasing hormone (GnRH) receptors and undergo neoplastic transformation when exposed to continuous elevation of GnRH, FSH, and/or LH levels, and (c) the genetic defect in Turner syndrome promotes the formation of corticotroph adenomas.     

Effects of somatostatin on somatotroph adenomas of the human pituitary: An in vitro functional and morphological study

The effects of somatostatin or the somatostatin analog SMS 201–995 were studied on 4 densely granulated somatotroph adenomas and 4 sparsely granulated somatotroph adenomas in vitro. Release of growth hormone (GH) into culture media during incubation with somatostatin or SMS 201 -995 were measured by radioimmunoassay, and light-microscopical and ultrastructural morphometric parameters were compared with those of cultured control somatotroph adenoma cells of the same tumor. In all tumors except for 1 densely granulated somatotroph adenoma, somatostatin or SMS 201–995 decreased GH release into culture media in 24- and 2-hour incubations. After 48-hour incubation with somatostatin or SMS 201–995, there was no change in cell size or secretory granule diameter. One densely granulated adenoma showed decreased cytoplasmic volume density (CVD) of Golgi apparatus and secretory granules, and a sparsely granulated adenoma had reduced CVD of endoplasmic reticulum. All the tumors that responded with decreased GH release exhibited increased CVD of lysosomes after incubation with somatostatin or SMS 201–995. These results indicate that both densely and sparsely granulated somatotroph adenomas respond to somatostatin inhibition and, furthermore, that inhibition of hormone release is associated with accumulation of lysosomes, suggesting lysosomal degradation of stored hormone. Hospital 20 Nov. (ISSSTE) Coyoacan y Felix Cuevas, Colonia del Valle and (Dept Patologia) y Hospital de Especialidades (C.M.N., IMSS) Cuauhtemoc y Dr. Marquez, Mexico City (IF).     

Pituitary Corticotroph Adenoma in a Woman with Long-Standing Addison's Disease: A Histologic,immunocytochemical, Electron Microscopic,and In Situ Hybridization Study

A 64-year-old woman with long-standing Addison’s disease owing to destructive immune adrenalitis presented with hyperpigmentation and progressively increasing blood adrenocorticotrophic hormone (ACTH) levels. Magnetic resonance imaging demonstrated a pituitary microadenoma, which was removed by transsphenoidal surgery and investigated by histology, immunocytochemistry, transmission electron microscopy, andin situ hybridization (ISH). The morphologic studies revealed a basophilic, periodic acid-Schiff (PAS)-positive pituitary adenoma immunoreactive for ACTh and β-endorphin and in several cells for α-subunit. By transmission electron microscopy, the tumor was a densely granulated corticotroph adenoma, which, by ISH, expressed pro-opiomelanocortin (POMC) mRNA. The lack of corticotroph hyperplasia in the nontumorous adenohypophysis was an intriguing finding. Corticotroph adenomas in patients with long-standing Addison’s disease were very rarely examined by morphology. Our report includes a detailed morphologic analysis and is the first demonstration of POMC mRNA in the tumor cells using ISH. The question of whether the adenoma was related to increased secretory activity secondary to protracted hypocorticism or developed independently unrelated to deranged endocrine homeostasis remains unresolved. The lack of corticotroph hyperplasia in the nontumorous adenohypophysis favors the interpretation that hypothalamic stimulation played no major role in adenoma formation in our case.     

Detection of gonadotropin-releasing hormone receptor in normal human pituitary cells and pituitary adenomas using immunohistochemistry

Gonadotropin-releasing hormone (GnRH), which is a well-known regulator of gonadotroph function, has recently been considered to be a paracrine factor involved in the control of somatotroph, lactotroph, and corticotroph cells. GnRH action is initiated by binding to a specific cell surface receptor, the gonadotropin-releasing hormone receptor (GnRHR), which is expressed by follicle-stimulating hormone/luteinizing hormone (FSH/LH) cells. Using in situ hybridization techniques, GnRHR messenger ribonucleic acid (mRNA) has recently been detected in normal human anterior pituitary gland and in various pituitary adenomas, including FSH/LH-cell, growth hormone (GH)-cell, adrenocorticotropic hormone (ACTH)-cell, and null-cell adenomas. However, immunohistochemical studies indicating the specific cell distribution of GnRHR in normal pituitary cells have never been reported. The aim of the present investigation was to evaluate the immunohistochemical expression of GnRHR in different types of normal pituitary cells and related tumors. Using double-label immunohistochemical techniques on formalin-fixed and paraffin-embedded tissues and specific antibodies directed against pituitary hormones and GnRHR, we found GnRHR immunoreactivity not only in FSH/LH cells, but also in GH- and thyroid-stimulating hormone (TSH) cells. GnRHR was detected in FSH/LH-cell, GH-cell, mixed GH- and prolactin (PRL)-cell, and α-subunit (α-SU)/null-cell adenomas. The findings of this study suggest that the interaction between GnRH and GnRHR may play a role in paracrine/autocrine regulation of different types of normal pituitary cells and pituitary adenomas. Received: 24 January 2000 / Accepted: 12 April 2000     

Utility of Pit-1 Immunostaining in Distinguishing Pituitary Adenomas of Primitive Differentiation from Null Cell Adenomas

Pit-1 immunostaining is not routinely used in the characterization of pituitary adenomas, and its utility in distinguishing adenomas dedicated towards the lactotroph, somatotroph, and thyrotroph lineage from null cell adenomas warrants further evaluation. Pituitary adenomas that were negative for expression of a basic panel of hormonal markers (ACTH, prolactin, and growth hormone) were further evaluated for TSH, SF-1, and Pit-1 expression using a tissue microarray. Among the 147 identified pituitary adenomas that were negative for ACTH, prolactin, growth hormone, and TSH, expression of SF-1 was present in 68 cases (46%). Of the remaining 72 cases with sufficient tissue for further analysis, four were Pit-1 positive (6% of the adenomas negative for ACTH, prolactin, growth hormone, TSH, and SF-1); the remaining 68 were potentially null cell adenomas. Two of the Pit-1-positive adenomas displayed a paranuclear CAM 5.2 staining pattern suggestive of a sparsely granulated somatotroph adenoma; however, only one case contained fibrous bodies within a majority of the adenoma cells. Our data suggests that Pit-1 can be utilized as a second tier immunostain in cases of clinically non-functioning adenomas that are immunonegative for ACTH, prolactin, growth hormone, TSH, and SF-1 in order to further segregate rare cases of Pit-1-positive adenomas from null cell adenomas. Pit-1 immunostaining can recognize rare cases of sparsely granulated somatotroph adenomas that appear immunonegative for growth hormone, as well as rare cases of other Pit-1-positive adenomas that are negative for Pit-1 lineage hormones. Overall, pituitary adenomas of the Pit-1 lineage that do not produce prolactin, growth hormone, or TSH are rare, with only four cases identified in the current study.     

Growth hormone-releasing hormone receptor mRNA in acromegalic pituitary tumors.

The growth hormone (GH)-releasing hormone receptor (GHRH-R) has been recently cloned and found to be a member of a new family of seven transmembrane receptors that includes secretin, vasoactive intestinal peptide, calcitonin, and corticotropin-releasing factor. GHRH-R mRNA has been demonstrated by Northern blot analyses to be present specifically in the anterior pituitary gland. To determine the precise cellular localization of this receptor in normal anterior pituitary and pituitary adenomas, GHRH-R mRNA was analyzed in 2 normal human pituitary glands and 16 human pituitary adenomas using in situ hybridization. GHRH-R was specifically localized in somatotroph cells in the normal pituitary. In the adenomas, all GH-producing adenomas originating from acromegalic patients demonstrated up-regulation of GHRH-R mRNA when compared with levels in the normal pituitary. Only one of five clinically nonfunctioning adenomas, a gonadotroph luteinizing hormone/follicle-stimulating hormone-positive adenoma, exhibited up-regulation of this receptor message. Adrenocorticotrophic hormone-secreting and prolactin-secreting adenomas did not express GHRH-R message. In summary, GHRH-R is specifically expressed in somatotrophs and GH-producing adenomas, suggesting that GHRH-R may influence GH release in adenomas similar to this receptor's actions in the normal somatotrophs and may be involved in the growth of GH-secreting adenomas.     

Molecular cytogenetics of chromosome 11 in pituitary adenomas: a comparison of fluorescence in situ hybridization and DNA ploidy study

Chromosome 11 abnormalities were detected by fluorescence in situ hybridization (FISH) technique and compared with DNA ploidy in 24 surgically removed pituitary adenomas. The tumors were diagnosed and classified by histology, electron microscopy, and pituitary hormone immunocytochemistry. They included 2 densely granulated somatotroph (DG-SM) and 4 sparsely granulated somatotroph (SG-SM) adenomas, 3 SG lactotroph (LT), 2 mixed somatotroph-lactotroph (SM-LT), 4 functioning corticotroph (CRT), 1 silent CRT subtype 1, 1 thyrotroph, 1 mixed thyrotroph-somatotroph, 2 gonadotrophs, and 4 null cell adenomas. FISH analysis with an alpha-satellite DNA probe specific for chromosome 11 showed numerical abnormalities in 16 functioning (94%) and 5 nonfunctioning (71%) adenomas. Ten functioning tumors showed aneuploid histograms, whereas the remaining and all nonfunctioning adenomas were diploid. Aberrant chromosome 11 signals were noted mostly in aneuploid adenomas involving 17% to 100% of their cell population. The severity of chromosome 11 aberrations in adenomas containing extra copies often correlated with a higher DNA index (DI). Monosomy 11 as dominant aberration was noted in a mixed SM-LT and to a lesser degree in 3 CRT adenomas involving 21% to 97% of their cell population. Two of these CRT adenomas were associated with normal DI, whereas the remaining third showed a high DI, indicating increased copy number of chromosomes other than of chromosome 11. In conclusion, chromosome 11 abnormalities are common in all types of pituitary adenomas, occurring more frequently in functioning tumors. Specific numerical abnormalities, such as monosomy and trisomy, tend to be associated with certain adenoma types, whereas tumors with extra chromosome 11 copies often exhibit aneuploid histograms.     

Expression of parathyroid hormone related peptide in human pituitary tumours.

The presence of parathyroid hormone related peptide (PTHrP) was studied in 20 patients with pituitary adenomas and one patient with pituitary adenocarcinoma. PTHrP expression was shown in almost all of the pituitary adenomas (95%) and in 100% (n = 7) growth hormone producing pituitary adenomas. A metastatic lesion from a pituitary growth hormone producing adenocarcinoma revealed strongly expressed PTHrP. It was weakly detected in normal pituitary cells in all of the specimens (n = 10). There was no significant correlation, however, between PTHrP expression and the clinical or pathological features of growth hormone producing tumours. Apart from an important role in the physiological function of the pituitary gland, PTHrP may be closely related to somatotroph tumorigenicity.     

Somatotroph and corticotroph pituitary adenoma (double adenoma) in a cat with diabetes mellitus and hyperadrenocorticism

A 9-year-old castrated male European shorthair cat with insulin-resistant diabetes was referred with the preliminary diagnosis of pituitary-dependent hyperadrenocorticism, based on measurements of urinary corticoids. Further studies revealed not only resistance of plasma concentrations of cortisol, adrenocorticotropic hormone (ACTH) and alpha-melanocyte-stimulating hormone (alpha-MSH) to suppression by a low dose of dexamethasone, but also elevated plasma concentrations of growth hormone (GH) and insulin-like growth factor I (IGF-I). Pituitary imaging with dynamic contrast-enhanced computed tomography demonstrated an enlarged pituitary gland and an adenoma. The cat underwent trans-sphenoidal hypophysectomy after which the insulin resistance disappeared. On histopathological and immunocytochemical examination of the surgical specimen a double adenoma was found, consisting of a corticotroph adenoma and a somatotroph adenoma separated by unaffected pituitary tissue.     

Changes in hormone production of a recurrent silent corticotroph adenoma of the pituitary: a histologic, immunohistochemical, ultrastructural, and tissue culture study.

A 19-year-old man with blurred vision, headache, and no signs or symptoms of hormone excess was found to have a pituitary adenoma. The tumor was removed by a transfrontal approach. He had postoperative radiation therapy, but subsequently had three recurrences, all removed surgically. By histology, the tumor was a chromophobic, slightly acidophilic pituitary adenoma. Immunohistochemistry revealed the presence of adrenocorticotropin (ACTH) in all four biopsies, alpha-subunit of glycoprotein hormones, and, to a lesser extent, follicle-stimulating hormone (FSH) and luteinizing hormone (LH) in the third and fourth tumor resection specimens. Ultrastructurally, the tumor had typical features of a silent corticotroph adenoma subtype 2. In tissue culture, the second, third, and fourth specimens released ACTH, alpha-subunit, FSH, and LH and responded to corticotropin-releasing hormone with increased release of ACTH, alpha-subunit, FSH, and LH. To our knowledge only one silent corticotroph adenoma has been reported previously which expressed plurihormonality. Change in immunohistochemical profile in malignant tumors is a well-known phenomenon; however, it was not reported previously in benign pituitary adenomas. The factors accounting for changing tumor phenotype are unknown.     

Pituitary corticotroph adenoma with crooke’s hyalinization

The diagnosis of pituitary corticotroph adenoma relies on the demonstration of a loss of the normal feedback control of adrenocorticotropic hormone (ACTH) biosynthesis by cortisol. The marked variability in the degree of ACTH suppression by glucocorticoids in these tumors, however, greatly enhances the difficulty in distinguishing Cushing’s disease from other syndromes of glucocorticoid excess. To illustrate this variability, we describe the clinical, biochemical, and morphological characteristics of a pituitary corticotroph adenoma in a 63-year-old woman, who presented with symptoms of a sellar mass but did not initially have florid Cushing’s disease. Light and electron microscopy of the pituitary tumor showed a corticotroph adenoma with Crooke’s hyalinization of the tumor cells, characterized by the accumulation of keratin immunoreactive microfilaments similar to those observed in normal corticotrophs in the presence of excess glucocorticoids. This case illustrates an unusual clinical presentation that may be associated with pituitary corticotroph adenoma showing Crooke’s hyalinization.     

Immunocytochemical Investigations on the Vascularization of Pituitary Adenomas

Blood vessels within pituitary adenomas were visualized using the immunocytochemical reaction for Factor VIII (von Willebrand Factor), a specific marker of the vascular endothelium. The number of immunopositive vascular profiles were counted and expressed as a mean number per one microscopic field. The results were related to the type of adenoma, established on the basis of immunocytochemical investigation using the antibodies against pituitary hormones or α-subunit (α-SU). It was found that the richest vascularization occurred in adenomas expressing follicle-stimulating hormone (FSH). The possible role of FSH in pituitary angiogenesis is discussed.     

GH-, PRL-, POMC-, beta-TSH-, beta-LH-, beta-FSH-mRNA in gonadotroph adenomas of the pituitary by in situ hybridization in comparison with immunostaining and clinical data

In situ hybridization (ISH) enables the visualization of specific mRNA for pituitary hormones. Our collection consists of 40 surgically removed pituitary adenomas that were classified as follicle stimulating hormone/luteinizing hormone (FSH/LH) cell adenomas by structure and by immunostaining (IH) for all pituitary hormones. All forty adenomas were regarded as clinically inactive. The aim of our study was to examine nonfunctioning adenomas by ISH for demonostration of mRNAs for all pituitary hormones. The results were compared with proliferation markers, invasiveness and clinical data. ISH detected signals for all pituitary hormones at a range of 30% for prolactin (PRL) to 85% for proopiomelanocortin (POMC). mRNA for β-FSH was detected in 70% and β-LH mRNA in 43% of adenomas. Thirty-three percent of adenomas revealed negative mRNA detection for β-LH but positive hormone content. The majority of adenomas (75%) expressed more than two mRNAs simultaneously, mostly the combination of POMC mRNA together with β-FSH mRNA and one to four others. Comparison with clinical data showed no significant differences except for one adenoma with a high Ki-67 index (>2.1% positive nuclei). This adenoma showed very high signals for PRL and β-TSH mRNA.     

The Immunophenotype of Pituitary Adenomas

Although the production of pituitary hormones by adenohypophysial tumors has been studied extensively, an examination of the immunophenotype of pituitary adenomas using a broad spectrum of antibodies has not been previously investigated. We studied 23 pituitary adenomas using a large panel of antibodies to determine if these tumors exhibited a common immunophenotype. Various neuroendocrine markers, synaptophysin, neuron-specific enolase (NSE), and the intermediate filament protein, low-mol-wt keratin were expressed in most examples. There was, however, differential expression of chromogranin A in that few prolactin (PRL) and adenocorticotrophic hormone (ACTH) adenomas stained positively, whereas all other adenoma subtypes were reactive. The ACTH adenomas had a unique profile with positive staining for galanin, neurophysin, vasopressin, and ubiquitin. These results indicate that (1) pituitary adenomas do not express a single “generic” immunophenotype; (2) synaptophysin is the most reliable and best broad spectrum marker for pituitary adenomas; (3) the neuroendocrine granule marker chromogranin A is useful in the identification of null cell adenoma, a tumor that usually does not stain for anterior pituitary tumors; and (4) among pituitary tumors, ACTH adenomas have a unique immunoprofile.