Structure-function correlations of human pituitary gonadotroph adenomas in vitro

Two pituitary gonadotroph adenomas were studied in vitro to characterize structure-function correlations. Both tumors were from men, aged 63 and 69 years, who had elevated blood levels of follicle-stimulating hormone (FSH) and normal blood luteinizing hormone (LH) and testosterone values. The surgically resected adenomas contained diffuse immunohistochemical positivity for beta-FSH, beta-LH, and alpha-subunit of glycoprotein hormones; by electron microscopy they were composed of well-differentiated gonadotrophs. In vitro, both tumors released FSH, LH, and alpha-subunit. Morphometric studies were performed on surgically resected and cultured adenoma cells. Compared with the surgical specimens, the cultured cells had decreased cytoplasmic volume densities of endoplasmic reticulum and Golgi apparatus and slightly increased cytoplasmic volume densities of secretory granules. Incubation with gonadotropin-releasing hormone (GnRH) for 2 and 24 hours increased FSH, LH, and alpha-subunit release by both tumors; morphometry after 2 consecutive days of exposure confirmed significant increases in cytoplasmic volume densities of endoplasmic reticulum and Golgi regions and marked decreases in that of secretory granules. There was no significant change in cell size, nuclear/cytoplasmic ratio, or secretory granule diameter. The two tumors differed in their response to gonadal steroids. Estradiol, testosterone, and progesterone stimulated release of FSH, LH, and alpha-subunit by one tumor and the morphologic changes paralleled the biochemical response; addition of testosterone suppressed the secretory and morphologic response to GnRH. The other tumor showed no significant response to estradiol or testosterone and addition of these steroids did not alter the response to GnRH. The results are consistent with the interpretation that GnRH stimulates not only release but also synthesis of gonadotropins by gonadotroph adenomas of men. The data also indicate variable sensitivity of these tumors to gonadal steroids with paradoxical stimulation alone and inhibition of response to GnRH. The structural changes correlate with the hormone release response in vitro.     

The role of hypothalamic hormones in the pathogenesis of pituitary adenomas

There is evidence that hypothalamic hormones can regulate hormone secretion by pituitary adenomas. Hormone release by adenomas can be stimulated by hypothalamic releasing peptides; several hypothalamic inhibitory hormones or their analogues are used in the therapy of pituitary tumors to suppress hormone secretion and, in some cases, to reduce tumor size. A role for hypothalamic hormones in the development and growth of pituitary tumors has also been suggested by the association of pituitary adenomas with tumors producing hypothalamic hormones. In particular, tumors producing growth hormone-releasing hormone (GRH) or corticotropin-releasing hormone (CRH) have been associated with hyperplasia of their target adenohypophysial cells; a few have had pituitary neoplasms. Investigations have shown that some adenohypophysial cells respond to sustained stimulation by hypothalamic peptides with cell proliferation, however, it was not proven that the sustained stimulation resulted in the development of tumors. Recently, an animal model of disease was provided by mice transgenic for GRH. At 8 months of age, the mice developed pituitary mammosomatotroph hyperplasia; mice older than 12 months developed pituitary mammosomatotroph adenoma. It is suggested that continued hormonal stimulation plays a role in tumorigenesis, probably by promotion of cell replication.     

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).     

Silent somatotroph adenomas of the human pituitary. A morphologic study of three cases including immunocytochemistry, electron microscopy, in vitro examination, and in situ hybridization.

Pituitary adenomas, removed surgically from three women with normal or slightly elevated serum growth hormone levels and no evidence of acromegaly, were studied. The tumor cells were shown by electron microscopy to correspond to sparsely granulated somatotrophs but immunocytochemistry showed that they contained no, moderate, or little growth hormone. Two tumors examined in vitro secreted small amounts of growth hormone in the tissue culture medium initially with a spontaneous rise after several days, and responded to growth hormone-releasing hormone stimulation with increased growth hormone release. In situ hybridization demonstrated growth hormone mRNA expression in adenoma cells. Clinically silent somatotroph adenomas represent a hitherto undescribed entity; electron microscopy shows that they consist of somatotrophs, and express growth hormone mRNA but do not secrete growth hormone in amounts needed to raise substantially serum growth hormone levels and cause acromegaly. Further work is required to clarify the mechanisms accounting for the lack of clinical and biochemical evidence of hormone excess associated with these tumors.     

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.     

The Role of Hormones, Growth Factors and Their Receptors in Pituitary Tumorigenesis

Numerous factors have been shown to govern adenohypophysial cell proliferation. Human and animal models have documented that the hypothalamic trophic hormone growth hormone-releasing hormone stimulates cell proliferation, and prolonged stimulation leads to tumor formation. Similarly, lack of dopaminergic inhibition of lactotrophs and lack of feedback suppression by adrenal, gonadal or thyroid hormones are implicated, perhaps through hypothalamic stimulatory mechanisms, in pituitary adenoma formation superimposed on hyperplasia. However, most pituitary tumors are not associated with underlying hyperplasia. Overexpression of growth factors and their receptors, such as EGF, TGFalpha, EGF-R and VEGF has been identified in pituitary adenomas, and reduction of follistatin expression has been implicated in gonadotroph adenomas. Aberrant expression of members of the FGF family, an FGF antisense gene and FGF receptors have all been described in pituitary adenomas. The clonal composition of pituitary adenomas attests to the molecular basis of pituitary tumorigenesis, however, the evidence suggests that these various hypophysiotropic hormones and growth factors likely play a role as promoters of tumor cell growth in genetically transformed cells.     

Alpha-subunit immunoreactivity in plurihormonal pituitary adenomas of patients with acromegaly.

Twelve plurihormonal pituitary adenomas, removed surgically from 11 of 20 patients with acromegaly, were investigated. The mean age of the 11 patients was 45 yr. Seven patients with eight tumors were men. The tumors were immunostained for all known adenohypophysial hormones by the avidin-biotin-peroxidase complex (ABC) technique. All 12 adenomas were immunoreactive for growth hormone (GH) and alpha-subunit; prolactin (PRL) was detected in five tumors. Stains for the beta-subunits of glycoprotein hormones [thyroid-stimulating hormone (TSH), follicle-stimulating hormone (FSH), and luteinizing hormone (LH)] revealed immunopositivity for specific beta-subunits in ten adenomas. The close association between GH and alpha-subunit in pituitary tumors of acromegalic patients remains to be explained.     

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     

Histopathological analyses of silent pituitary somatotroph adenomas using immunohistochemistry, in situ hybridization and confocal laser scanning microscopic observation

To characterize the morphological and functional aspects of silent somatotroph adenomas with paradoxical responses of GH in TRH or GnRH provocation tests, which are considered to be a useful strategy for endocrinological identification of silent somatotroph adenomas, we examined three silent somatotroph adenomas histopathologically. The adenomas were investigated by immunohistochemistry, including the highly sensitive catalyzed signal amplification system, the non-radioisotopic in situ hybridization method, and confocal laser scanning microscopy. GH production and GH-immunopositive secretory granules in the adenoma cells were demonstrated histopathologically, and the adenomas were interpreted as being densely granulated somatotroph adenomas. Endocrinological identification of silent somatotroph adenomas in combination with paradoxical responses of GH in TRH or GnRH provocation tests may elucidate the increasing number of silent somatotroph adenomas that have been regarded as mammotroph or clinically inactive adenomas. One should be aware of the differences between the previously reported silent somatotroph adenomas, most of which are sparsely granulated somatotroph adenomas, a somatotroph adenomas with paradoxical and the silent somatotroph adenomas, most of which are sparsely granulated somatotroph adenomas, and the silent somatotroph adenomas with paradoxical responses of GH in TRH or GnRH provocation tests, which are densely granulated somatotroph adenomas.     

Localization of Epidermal Growth Factor (EGF) and Epidermal Growth Factor Receptor (EGFr) in Human Pituitary Adenomas and Nontumorous Pituitaries: An Immunocytochemical Study

Epidermal growth factor (EGF) and epidermal growth factor receptor (EGFr) were investigated by immunocytochemistry (ICH) in 57 human pituitary adenomas and 10 nontumorous autopsy pituitaries. EGF immunoreactivity was demonstrated in 24 adenomas (42%), representing 23 functioning tumors and 1 nonfunctioning tumor of oncocytic type, and in all nontumorous pituitaries. Among 40 tumors, EGFr was found positive in 15 functioning adenomas (37.5%), representing 50% of them. The presence of both EGF and EGFr was found mainly in corticotroph adenomas (60%) and less frequently in somatotroph and lactotroph adenomas (20%). ICH on serial sections with EGF or EGFr and adrenocorticotrophic hormone (ACTH) or S-100 protein revealed that EGF and EGFr are localized specifically in corticotrophs and EGFr in stellate cells of nontumorous adenohypophysis. These results confirm the presence of EGF and EGFr in human pituitary adenomas and nontumorous pituitaries and highlight their frequent occurrence in hormone-producing adenomas. Further work is required to explore the possibility that EGF and EGFr play a role in hormone production, release, and tumor progression.     

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.     

Gonadotroph adenomas of the human pituitary: sex-related fine-structural dichotomy. A histologic, immunocytochemical, and electron-microscopic study of 30 tumors.

Thirty pituitary tumors, removed from 14 men and 15 women, were diagnosed as gonadotroph adenomas on the basis of their immunocytochemical and/or ultrastructural features. Serum follicle-stimulating hormone (FSH), but not luteinizing hormone (LH), was elevated in 8 men, whereas none of the women had gonadotropin levels, as measured by radioimmunoassay, inappropriately high for their age. Immunoreactive FSH (sometimes also LH) was present in 13 of 15 tumors in men but only 6 of 13 adenomas in women. By electron microscopy, gonadotroph adenomas in men had uncharacteristic features often similar to those of null-cell adenomas with poorly or moderately developed cytoplasmic organelles. In women, all tumors were well differentiated, with a highly distinctive vesicular dilatation of the Golgi complex ("honeycomb Golgi") as a diagnostic marker present in 14 of 15 adenomas. To the author's knowledge, this is the first example of sex-linked dichotomy within a tumor type expressed as the markedly different ultrastructural appearance of cytoplasmic organelles, especially the Golgi apparatus.     

Unusual configurations of endoplasmic reticulum in human pituitary adenomas

Electron microscopic study of 435 surgically-removed human pituitary adenomas and 43 nontumorous adenohypophyses revealed unusual configurations of endoplasmic reticulum in 102 adenohypophysial tumors (23%) and in 12 nontumorous adenohypophyses (28%). These configurations classified as paired reticulum, annulate lamellae and ribosome-lamellar complexes were noted in various adenomatous and nontumorous adenohypophysial cells, indicating that they could not be used as specific markers for pituitary adenomas or for a particular adenohypophysial cell type. Paired reticulum was a common finding, whereas annulate lamellae and ribosome-lamellar complexes were rarely encountered. Whether or not these endoplasmic reticulum configurations could be considered as normal constituents of adenohypophysial cells was difficult to assess, since nontumorous cells studied were from patients who had various diseases and who had been treated with different hormones. The presence of endoplasmic reticulum configurations was neither related to age, sex of the patients nor degree of differentiation or endocrine activity of pituitary adenomas.     

Plurihormonal pituitary adenomas

Plurihormonal adenomas of the pituitary, ie, tumors that engage in the production of unusual combinations of hormones, represent approximately 10% to 15% of all adenomas. Such tumors comprise in excess of 50% of adenomas in the setting of acromegaly and occur with somewhat greater frequency in childhood and adolescence than in adulthood. Eight percent are associated with multiple endocrine neoplasia, type I. The most common variant of plurihormonal adenoma produces growth hormone, prolactin, and one or more glycoprotein hormones, the most common being TSH. Clinical effects most often reflect the presence of growth hormone, and to a lesser extent, prolactin cells; expression of glycoprotein hormone production is rare. The tumors are more often macroadenomas (80%) than microadenomas (20%) and demonstrate gross invasion in 50% of cases. Plurihormonal adenomas may be ultrastructurally monomorphous, bimorphous, or trimorphous; thus, one morphologic cell type may elaborate several hormones.     

Pathology of prolactin cell adenomas of the human pituitary

Prolactin (PRL) cell adenoma is the most common tumor type in the human pituitary. It accounts for 30% of surgically removed adenomas, while its prevalence is even higher (45%) among incidental pituitary tumors observed at autopsy. Most PRL cell adenomas are highly differentiated with a characteristic ultrastructure. Administration of bromocriptine, a dopaminergic agonist, evokes profound morphologic changes in responsive PRL cell adenomas, while it leaves the fine structure of unresponsive tumors unchanged. The importance of immunocytochemical and electron microscopic investigation of pituitary biopsies is emphasized as tumors with different cell derivation, biological behavior, and therapeutic responsiveness may mimic PRL cell adenomas clinically.     

Growth hormone-releasing hormone expression in pituitary somatotroph adenomas, studied by immunohistochemistry and in situ hybridization using catalyzed signal amplification system

Growth hormone-releasing hormone (GHRH) is a well-known hypothalamic hormone that stimulates the synthesis and release of growth hormone (GH) as well as the proliferation of GH-producing cells in the anterior pituitary gland. Recent reports have shown GHRH synthesis in pituitary somatotroph adenomas, but GHRH immunoreactivity has not been shown in previous studies. To confirm the role of locally generated GHRH for the progression of somatotroph adenomas, we investigated the expression of GHRH in 25 pituitary somatotroph adenomas immunohistochemically, through the use of both conventional avidin-biotin-complex (ABC) method and novel catalyzed signal amplified (CSA) system. In addition, we investigated the expression of GHRH mRNA and GHRH receptor mRNA with in situ hybridization (ISH) using the CSA system. The weak immunopositivity of GHRH was observed in only 2 adenomas (8.0%) of 25 somatotroph adenomas using the ABC method. In contrast, 15 adenomas (60.0%) of 25 somatotroph adenomas were immunopositive for GHRH, as shown by CSA system. Very few of nonsomatotroph adenomas were immunopositive for GHRH using the CSA system. The expression of GHRH mRNA was confirmed, using the CSA-ISH system in 13 adenomas (72.2%) of 18 somatotroph adenomas. In 11 adenomas (61.1%) of 18 somatotrophic adenomas, the expression of GHRH receptor mRNA was demonstrated using the CSA-ISH system. This is a first report that clarified histopathologically GHRH production in pituitary somatotrophic adenomas. The demonstration of GHRH and its receptor expression is meaningful in clarifying the autocrine or paracrine regulation of GHRH in GH production and progression of pituitary somatotroph adenomas.     

Human corticotroph cell adenomas

Sixty-one pituitary corticotroph adenomas from 47 patients with Cushing's disease, 10 with Nelson's syndrome, and four eucorticoid patients were studied by light microscopy, immunoperoxidase, and electron microscopy. Seventy nine percent of all tumors and 70% of Nelson's cases were microadenomas, sometimes minute. A contiguity between the posterior lobe and the adenoma was seen in ten cases. Spontaneous infarction of the tumor with remission of Cushing's syndrome occurred in one case. Light microscopy revealed that the adenoma cells were basophilic and contained PAS-positive granules also staining with Herlant tetrachrome and lead-hematoxylin. The granules stained positively with antiserum to adrenocorticotrophic hormone (ACTH), beta-lipotropic hormones (beta-LPH) and beta-endorphin. The most characteristic ultrastructural finding was the presence of perinuclear bundles of microfilaments found in all our cases. Oncocytic changes were seen in three tumors. Four silent corticotroph adenomas, two of them originally microadenomas that had enlarged to enclosed adenomas while being treated with bromocriptine for hyperprolactinemia and one a large diffuse invasive tumor, did not differ in their microscopic, immunocytological, or ultrastructural features.     

Localization of vascular endothelial growth factor in nontumorous human pituitaries

Vascular endothelial growth factor (VEGF) is a key mediator of endothelial cell proliferation, angiogenesis, and vascular permeability. Our aim was to investigate whether VEGF is expressed in various cell types of the human pituitary. Eight nontumorous pituitaries were investigated by histology, immunocytochemistry, double immunostaining, and immunoelectron microscopy. Immunocytochemistry, including double immunostaining, showed VEGF immunoreactive cells to be distributed throughout the adenohypophysis. Immunopositivity was evident in all adenohypophysial cell types, but was colocalized mainly with somatotroph and stellate cell antigen (i.e., growth hormone and S-100 protein). Weak to moderate VEGF immunoreactivity was also noted in posterior lobe pituicytes as well as in most endothelial and perivascular smooth muscle cells.In situ hybridization confirmed these findings in demonstrating a strong signal in corticotrophs, somatotrophs, and stellate cells. Immunoelectron microscopy showed VEGF to be present mainly within secretory granules where it colocalized with the full spectrum of adenohypophysial hormones. The subcellular distribution of VEGF suggests that hypothalamic factors play a role in its release from adenohypophysial cells. Further studies are required to examine the possible role of VEGF in affecting both the pituitary’s vasculature and endocrine activity.