Takeo Minematsu

PTTG overexpression is correlated with angiogenesis in human pituitary adenomas.

Human pituitary tumor transforming gene (hPTTG1) was recently identified as a proto-oncogene, which is a regulator of the cell cycle, as a homolog of yeast securin and a transcriptional activator of several angiogenic factors. Here we examined the relationships of hPTTG1 expression with cell proliferation, expression of the angiogenic factor, VEGF (vascular endothelial growth factor), and numbers of the blood vessels in the normal and/or adenomatous pituitary. With the exception of TSHoma, the expression of hPTTG1 was significantly higher in pituitary adenomas than in the normal pituitary gland. The cell proliferation activity was higher in pituitary adenomas than in the normal pituitary. Pituitary cell proliferation was significantly correlated with the level of hPTTG1 expression in the normal pituitary tissue, but there was no such correlation in the adenomas. The significant correlation of hPTTG1 with the VEGF expression and the numbers of the blood vessels was elucidated in pituitary adenomas. It is particularly noteworthy that immunohistochemical double staining indicated co-localization of VEGF in many hPTTG1-positive tumor cells. In conclusion, higher levels of hPTTG1 expression contribute to the pathobiology of pituitary adenomas by promoting angiogenesis rather than by activating cell proliferation, whereas hPTTG1 expression is related to mitotic activity in the normal pituitary gland.

The Pituitary Function of Androgen Receptor Constitutes a Glucocorticoid Production Circuit

ABSTRACT Androgen receptor (AR) mediates diverse androgen actions, particularly reproductive processes in males and females. AR-mediated androgen signaling is considered to also control metabolic processes; however, the molecular basis remains elusive. In the present study, we explored the molecular mechanism of late-onset obesity in male AR null mutant (ARKO) mice. We determined that the obesity was caused by a hypercorticoid state. The negative feedback system regulating glucocorticoid production was impaired in ARKO mice. Male and female ARKO mice exhibited hypertrophic adrenal glands and glucocorticoid overproduction, presumably due to high levels of adrenal corticotropic hormone. The pituitary glands of the ARKO males had increased expression of proopiomelanocortin and decreased expression of the glucocorticoid receptor (GR). There were no overt structural abnormalities and no alteration in the distribution of cell types in the pituitaries of male ARKO mice. Additionally, there was normal production of the other hormones within the glucocorticoid feedback system in both the pituitary and hypothalamus. In a cell line derived from pituitary glands, GR expression was under the positive control of the activated AR. Thus, this study suggests that the activated AR supports the negative feedback regulation of glucocorticoid production via up-regulation of GR expression in the pituitary gland.

Case of uterine cervical carcinosarcoma

Carcinosarcoma (CS) is a rare neoplasm that is called a mixed epithelial and mesenchymal malignancy. CS of the uterine cervix is much less common than its counterparts in the uterine corpus. A 61‐year‐old, gravida 2, para 2 woman, who had undergone menopause 16 years prior to the presentation, was diagnosed with CS of the uterine cervix. A semiradical hysterectomy was carried out on the diagnosis of stage Ib1 cervical cancer. The patient underwent whole pelvic 45 Gy radiation as a postoperative additional treatment, but she died from multiple organ failure by metastasis 17 months after the operation. The tumor protruded from the cervix to the vagina and measured 4.5 × 3.0 cm. Histologically, the tumor was characterized as a squamous cell carcinoma and mesenchymal malignancy, represented by osteosarcomatous components. The stroma was largely composed of atypical spindle‐shaped cells, which were immunohistochemically demonstrated to be of epithelial origin. Uterine cervical CS is one of the aggressive malignancies, and squamous cell carcinomas are common epithelial counterparts of cervical CS as well as adenocarcinomas.

Pituitary Changes in Prop1 Transgenic Mice: Hormone Producing Tumors and Signet-ring Type Gonadotropes

Prophet of Pit-1 (Prop1) is an early transcription factor that delays the appearance of gonadotropin in the developing pituitaries. Prop1 transgenic (Tg) mice have been shown to generate pituitary tumors that either produce TSH or are non-hormone producing. In our series of Prop1 Tg mice, only 5 out of 9 female mice produced pituitary adenomas, and the adenomas were only GH, PRL, GH and PRL, PRL and gonadotropin or TSH producing. The pituitary cells that surrounded these adenomas showed hyperplasia of the corresponding hormone producing cells; i.e. the GH cells were increased in the pituitary that contained GH producing adenoma. In addition, although the adenomas lacked the expression of Prop1, the non-neoplastic pituitary cells showed expression of Prop1. The Prop1 Tg mice also showed vacuolated cells with eccentric nuclei, which are characteristic of “signet-ring hypertrophic cells”. Using immunohistochemistry, these signet ring hypertrophic cells were found to be positive for gonadotropin. Taken together, our results suggest a (1) tumorigenic effect of Prop1 in the pituitaries, and (2) causative effects of signet ring-type gonadotropes.

ACTH and α-Subunit are Co-expressed in Rare Human Pituitary Corticotroph Cell Adenomas Proposed to Originate from ACTH-Committed Early Pituitary Progenitor Cells

The functional differentiation of pituitary cells and adenomas follows the combination of transcription factors and co-factors in three cell lineages [growth hormone–prolactin–thyroid-stimulating hormone lineage, adrenocorticotrophic hormone (ACTH)/pro-opiomelanocortin (POMC) lineage, and follicular stimulating hormone (FSH)/luteinizing hormone (LH) lineage], which include Pit-1, GATA-2, SF-1, NeuroD1/beta2, Tpit, ERα, and others. Only rarely are hormones from different lineages co-expressed in the same adenoma cells. Most corticotroph cell adenomas belonging to the ACTH/POMC lineage are mono-hormonal. In our study of 89 corticotroph cell adenomas, 5 cases expressed both ACTH and alpha-subunit; these adenomas did not express any other anterior pituitary hormones or subunits. To clarify the mechanism involved, we studied the transcription factors that regulate pituitary cell differentiation. NeuroD1 and T-pit, markers of the ACTH/POMC lineage, and SF-1 and DAX-1, related to the LH/FSH cell lineage were expressed in all cases. GATA2, a synergistic factor in the gonadotroph cell lineage with SF-1, was also expressed in three of five cases. As ACTH and alpha-subunit are the earliest hormones to appear during development, we speculate that these particular adenomas are derived from committed ACTH progenitor cells. The molecular process governing functional differentiation of these adenomas requires further investigation.

Granulogenesis in Non-neuroendocrine COS-7 Cells Induced by EGFP-tagged Chromogranin A Gene Transfection: Identical and Distinct Distribution of CgA and EGFP

We examined whether an enhanced green fluorescent protein (EGFP)-tagged chromogranin A (CgA) gene construct could serve as a marker protein to follow the synthesis of CgA and the process of granulogenesis in non-neuroendocrine (NE) cells. We transfected a CgA-EGFP expression vector into non-NE COS-7 cells and investigated the localization of a chimeric CgA-EGFP protein using confocal laser scanning microscopy (CLSM). The fluorescent signal of CgA-EGFP was distributed granularly in the cytoplasm. An immunocytochemical study using anti-CgA antibody with a quantum dot (Qd)525 shows colocalization of fluorescent signal of chimeric CgA-EGFP and CgA-Qd525 signals in granular structures, particularly at the periphery of the cytoplasm. We interpreted granules that were immunoreactive to CgA in electron micrographs as secretory. Spectral analysis of EGFP fluorescence revealed distinct EGFP signals without CgA colocalization. This is the first report to show that a granular structure can be induced by transfecting the EGFP-tagged human CgA gene into non-NE cells. The EGFP-tagged CgA gene could be a useful tool to investigate processes of the regulatory pathway. A more precise analysis of the fluorescence signal of EGFP by combination with the Qd system or by spectral analysis with CLSM can provide insight into biological phenomena.

Expression of proliferation markers in human pituitary incidentalomas.

This study aimed to immunohistochemically assess the proliferation activity of pituitary incidentalomas. A series of 52 incidentalomas studied included 22 gonadotroph cell adenomas, 21 null cell adenomas, and 9 clinically silent adenomas (identified as functioning by immunohistochemistry). We also analyzed the differences in proliferation activity between 43 non-functioning pituitary incidentalomas (not including 9 silent adenomas) and 43 symptomatic non-functioning adenomas (NFAs) that caused visual disturbance. Cell proliferation markers were immunostained using monoclonal Ki-67 (MIB-1) antibody and monoclonal anti-topoisomerase II alpha (Topo-II alpha) antibody. The average of MIB-1 labeling indices in pituitary incidentalomas was 0.61%±0.06%. Overall, both MIB-1 and Topo-II alpha labeling indices of the incidentalomas were significantly lower than those of symptomatic NFAs. There were no significant differences in immunopositivity between the two groups based on gender, age, or subtype. The MIB-1 index of the smallest adenoma group in pituitary incidentalomas was significantly lower than in symptomatic NFAs, while the Topo-II alpha incidentaloma was significantly lower than in symptomatic NFas. Our findings suggest that small or less invasive pituitary incidentalomas should be observed with follow-up MRI. Large or invasive incidentalomas should be surgically treated if the patients show visual disturbances, hypopituitarism, or pituitary apoplexy during the follow-up period.

Recent progress in studies of pituitary tumor pathogenesis.

The mechanisms of tumorigenesis of the human pituitary have been elucidated to a limited extent. Classically, pituitary tumor formation was shown to be induced by thyroidectomy and estrogen administration. Molecular biological and immunohistochemical studies have revealed several aspects of pituitary tumorigenesis. Trans-lineage cell differentiation has been shown to be induced by the aberrant expression of transcription factors and co-factors, such as Pit-1, Prop-1, and estrogen receptor. Defects or overexpression of cell cycle regulators, such as CDK inhibitors, PTTG, and GADD45γ, result in the abnormal proliferation of pituitary cells. Recently, epigenetic regulation has been suggested to be related to pituitary tumor formation. This article presents a review and update of recent progress in studies of the development and differentiation of pituitary tumors.