白黎芦醇对GH3细胞增殖和PRL合成的影响

目的 探讨白黎芦醇对垂体腺瘤GH3细胞增殖和泌乳素合成的影响，及其对雌激素的拮抗作用。方法 在无血清无酚红的培养条件下，白黎芦醇单独或与雌二醇联合作用于GH3细胞，用MTT法测定细胞增殖，用免疫荧光法、RT-PCR和Western印迹法测定泌乳素的表达情况。结果 白黎芦醇对GH3细胞增殖具有刺激和抑制双相作用，呈时间一剂量依赖性。并且白黎芦醇使GH3细胞中PRL阳性细胞比例下降。同时，白黎芦醇抑制泌乳素的合成。白黎芦醇对雌二醇诱发的细胞增殖和泌乳素合成均有拮抗作用．但对泌乳素合成的拮抗作用较强，而雌二醇刺激细胞增殖作用较其诱发泌乳素合成作用强。结论 白黎芦醇对GH3细胞增殖和泌乳素合成均有抑制作用，从两方面发挥着抗肿瘤作用。     

Role of the non-canonical notch ligand delta-like protein 1 in hormone-producing cells of the adult male mouse pituitary

To better understand the role of the non-canonical Notch ligand delta-like protein 1 (DLK1), in hormone-producing cells, we studied the cell distribution and subcellular localisation of DLK1 in the pituitary of male adult 129/SvJ mice, and analysed the variations in the hormone-producing cells associated with the lack of this gene in Dlk1 knockout mice. The results obtained showed the presence of DLK1-immunoreactive (ir) cells in all hormone-producing cells of the anterior pituitary. Immunoelectron microscopy showed DLK1-ir in the rough endoplasmic reticulum and inside secretory vesicles, suggesting that DLK1 is released together with pituitary hormones. Moreover, we found that prolactin (PRL)-DLK1-ir cells are in intimate contact with follicle-stimulating hormone (FSH)-ir-DLK1-negative cells. In Dlk1 knockout mice, we detected a significantly lower number of gowth hormone (GH)-ir cells, a reduction in the FSH and PRL immunostaining intensity, and a significant decrease in FSH mRNA expression compared to wild-type mice. An increase in pituitary GH mRNA expression and serum leptin levels was also found. These findings provide evidence supporting several regulatory functions of DLK1 in the pituitary gland.     

Inhibition of epidermal growth factor receptor stimulates prolactin expression in primary culture of the mouse pituitary gland

The roles of epidermal growth factor (EGF) in the regulation of prolactin (PRL) gene expression in the normal pituitary gland remain poorly understood. In the present study, the effects of EGF and an inhibitor of the EGF receptor, erlotinib, on PRL gene expression were examined both in the pituitary tumour cell line GH3 and in a primary culture of the mouse pituitary gland under similar experimental conditions. The results showed that EGF stimulated PRL expression in GH3 cells, but not in normal cells. Erlotinib was found to counteract EGF in GH3 cells inhibiting the PRL expression enhanced by EGF. By contrast, erlotinib induced an elevation in the PRL mRNA levels in the primary culture of the adult pituitary gland and the initiation of PRL production in the culture of the foetal pituitary gland in which PRL production had not yet occurred. Western blot analyses showed that EGF induced and erlotinib inhibited the activation of extracellular regulated protein kinase equally in GH3 and normal cells. These results suggest that the consequences of EGF receptor activation in normal PRL cells contradict those in adenomatous PRL cells.     

过氧化物酶体增殖物激活受体γ在垂体腺瘤中的表达

目的 通过检测过氧化物酶体增殖物激活受体γ(PPARγ)在人垂体腺瘤组织中的表达,探讨其在垂体腺瘤中的相关机制.方法 通过免疫组化法确定经手术切除的83例垂体腺瘤组织细胞来源;采用RT-PCR、适时定量PCR检测研究83例垂体腺瘤组织及6例正常垂体组织PPARγ的mRNA表达量,采用Western blot法检测组织PPARγ蛋白质表达水平,分析不同类型垂体腺瘤组织之间核酸及蛋白水平表达量的差异.结果 GH腺瘤17例、PRL腺瘤15例、ACTH腺瘤18例、多激素腺瘤(MCPAs)17例、无功能腺瘤(NFAs)16例及正常对照组6例;mRNA水平检测显示所有垂体腺瘤组织的表达量均高于正常对照组,其中GH腺瘤的表达量最高,与其他组比较P＜0.05;蛋白水平检测显示GH腺瘤、PRL腺瘤、ACTH腺瘤及MCPAs的表达量均高于正常对照组(P＜0.05),GH腺瘤的表达量最高,NFAs的表达量与正常对照组差异无统计学意义(P＞0.05).结论 PPARγ转录及蛋白表达水平在人GH、PRL、ACTH及MCPAs垂体腺瘤组织中高表达,该基因与垂体腺瘤有一定的相关性,而无功能垂体腺瘤在核酸水平的表达量增高,蛋白水平的表达量不高,可能与激素的分泌水平有关;在GH腺瘤中的表达量最高,且与其他组相比,差异有统计学意义(P＜0.05),说明该类肿瘤与PPARγ的关系最为密切,可能与生长激素能刺激PPARγ的表达有关.     

Expression of neurotensin and its receptors in pituitary adenomas

The neurotensin (NT) produced in the hypothalamus and in pituitary gonadotrophs and thyrotrophs participates in neuroendocrine regulation. Recently, the involvement of this peptide in normal and neoplastic cell proliferation has been postulated. In the present study, we evaluated the expression of NT and its receptors (NTR1, 2 and 3) in a series of 50 pituitary adenomas [11 growth hormone (GH)-, eight prolactin (PRL)-, four adrenocorticotrophic hormone (ACTH)- and 27 nonfunctioning adenomas]. NT mRNA expression was significantly higher in functioning compared to nonfunctioning adenomas and with normal pituitary. Nonfunctioning pituitary adenomas showed lower expression of NT mRNA than normal pituitary. In the immunohistochemical study of functioning adenomas, NT was colocalised with GH, PRL and ACTH secreting cells. In nonfunctioning adenomas, the NT immunoreactivity intensity was variable among the samples. NTR3 mRNA expression was observed in all examined samples and was higher in the adenomas, both functioning and nonfunctioning, compared to normal pituitary. By contrast, NTR1 and NTR2 mRNA were not detected in either pituitary adenomas or normal tissue. The higher expression of NTR3, as well as the expression of NT by tumoural corticotrophs, lactotrophs and somatotrophs, which are cells types that do not express this peptide in the normal pituitary, suggests that NT autocrine and/or paracrine stimulation mediated by NTR3 may be a mechanism associated with the tumourigenesis of functioning adenomas.     

Double tumors of anterior and posterior pituitary gland

Summary Double tumors were found in the anterior and posterior lobes of pituitary gland at autopsy in a patient who presented with progressive deterioration of mental status. The chromophobe adenoma of anterior lobe consisted of a mixture of non-immunoreactive hormone containing cells and a few prolactin (PRL) and growth hormone (GH) cells in the mid portion whereas the periphery of the tumor contained immunoreactive cells for PRL, GH, thyroid-stimulating hormone (TSH), luteinizing hormone (LH), and follicle-stimulating hormone (FSH). A microscopic focus of granular cell myoblastoma (GCM) was found in the posterior lobe. Differentiation of tumor cells into anterior pituitary cells and GCM is discussed.     

Effects of cyclosporine A on the hypothalamic-pituitary-adrenal axis and anterior pituitary interleukin-6 mRNA expression during chronic inflammatory stress in the rat

In the rat, adjuvant arthritis (AA) is an inflammatory joint disease associated with chronic stimulation of the hypothalamic-pituitary-adrenal (HPA) axis. We have investigated the effects of the immunosuppressive agent cyclosporine A (CsA) on plasma levels of adrenocorticotropin (ACTH) and corticosterone (B), as well as on anterior pituitary proopiomelanocortin (POMC) and interleukin (IL)-6 mRNA accumulation in control and adjuvant-injected animals. In control animals, CsA reduced basal anterior pituitary POMC and IL-6 mRNA and decreased plasma levels of ACTH and B. Adjuvant-injected animals that were treated with CsA showed no clinical signs of AA. Moreover, CsA inhibited the arthritis-induced increases in pituitary POMC and IL-6 mRNA levels and in circulating ACTH and B. In vitro, CsA reduced the POMC mRNA content of cultured anterior pituitary cells and diminished the stimulatory effects of corticotropin-releasing hormone (CRH) on POMC mRNA expression and ACTH secretion from these cells. These data indicate that CsA has a direct action on the HPA axis and also reduces the activation of the HPA axis seen in chronic inflammatory arthritis.     

Effects of Morphine and Naloxone on Prolactin and Growth Hormone Gene Expression in the Male Rat Pituitary Gland

It is generally admitted that opioids can stimulate the release of both prolactin (PRL) and growth hormone (GH). In order to investigate the role of opioids in the regulation of PRL and GH gene expression in the rat pituitary, we studied the effects of chronic administration of the opioid drug morphine and an opiate receptor antagonist naloxone on both PRL and GH gene expression as measured by in situ hybridization. Four-day treatment with morphine (40 mg/kg/day) produced a 12% increase in PRL mRNA levels. Conversely, naloxone (4 mg/kg/day) decreased the autoradiographic reaction by 10%. The concomitant administration of morphine and naloxone induced no significant changes in PRL gene expression. On the other hand, treatment with morphine produced a 22% decrease in GH mRNA levels, an effect which was prevented by the concomitant administration of naloxone. When injected alone, naloxone did not modify the hybridization signal. These results clearly indicate that opioids are involved not only in the regulation of GH and PRL release but also in the gene expression of the two hormones. The discordance observed between the acute effects of morphine on GH release and the effect of the opioid drug on mRNA levels remains to be clarified.     

Effects of streptozotocin-induced diabetes on lymphocyte POMC and growth hormone gene expression in the rat

Diabetes in the rat is associated with a change in the profiles of several neuroendocrine hormones resulting in poor growth and decreased immune function. Since lymphocytes can also serve as a source of neuroendocrine hormones, we have examined whether the change in hormone profiles are accompanied by an impairment of lymphocyte GH and POMC gene expression in the immune system. Diabetes was induced by the administration of streptozotocin (STZ; 10 mg/100 g body weight) and 3 days later GH and ACTH protein and mRNA were determined. The results show a modest diminution of GH RNA in the spleen of diabetic animals whereas the expression of POMC mRNA and ACTH by the thymus was enhanced. The expression of POMC in the spleen appeared unaltered while the increase of POMC RNA in the thymus was evident after the first day of STZ treatment. STZ had no direct effect on GH or POMC expression in the spleen or thymus cells in vitro. Insulin does not appear to be involved in the expression of lymphocyte GH or POMC. The administration of insulin to the diabetic animals had no significant effect on the expression of GH or POMC by the immune cells. In addition, lymphocytes do not appear to serve as a source of insulin or are the expression of genes for lymphocyte GH or ACTH altered by insulin in vitro. Taken together, the findings are the first to report on the expression of neuroendocrine genes in lymphocytes during diabetes. The mechanism for the inhibition of GH and stimulation of POMC expression by lymphocytes in diabetic animals is unknown, but it is tempting to speculate an important role in the development of the autoimmunity that characterizes this complex disease.     

Constitutive and TCDD-induced expression of Ah receptor-responsive genes in the pituitary

The 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) and related substances cause a wide variety of pathological alterations, with the most severe being progressive anorexia and body weight loss. These features suggest a possible involvement of the nervous system and endocrine organs, including the pituitary gland. TCDD-related toxicity is considered mainly to be mediated by the aryl hydrocarbon receptor (AHR) protein, which binds TCDD, and heterodimerizes with its partner protein, the aryl hydrocarbon receptor nuclear translocator (ARNT), and binds to xenobiotica responsive elements (XREs) in the promoter regions of biotransformation genes as well as genes involved in growth, differentiation and cellular homeostasis. In the present study, we have investigated the expression of AHR responsive genes in the pituitary of untreated and TCDD treated 129/SV/C57BL/6 mice in vivo and in pituitary cells in vitro. After TCDD or beta-naphthoflavone (beta NF) treatment, the relative levels of cytochrome P4501A1 (CYP1A1) mRNA and protein were dramatically increased in pituitary cells. The AHR repressor (AHRR) mRNA level was induced 7-13-fold by TCDD and beta NF. Furthermore, the expression of the adrenocorticotrophic hormone (ACTH) precursor, the proopiomelanocortin (POMC) gene, was investigated. A three-fold increase in POMC mRNA was observed in the pituitary of TCDD treated mice. POMC mRNA level was also increased in the pituitary cell line AtT-20 after TCDD treatment. The proteins encoded by POMC translational products, ACTH and beta-endorphin, were found with immunocytochemistry staining to be increased in AtT-20 cells after TCDD exposure. The presence of several XRE sequences in the promoter region and in the first intron of the human POMC gene suggest that the up-regulation of POMC expression in the pituitary may play a role in the endocrine alterations induced by TCDD. All together, the results point to the pituitary gland being a direct target for TCDD.