溶酶体在垂体—肾上腺皮质激素分泌调节中的作用

本实验用地塞米松造成大鼠垂体促皮质激素细胞及其靶腺肾上腺皮质束状带细胞分泌抑制,对这两种细胞中的溶酶体及分泌自噬和自体吞噬活动进行了超微结构观察、CMP 酶细胞化学定性和形态计量。实验结果显示,在分泌受抑制状态下,垂体促皮质激素细胞中分泌自噬和自体吞噬作用加强,与此同时,肾上腺皮质细胞中自体吞噬作用也业著加强。这些结果表明,在分泌类固醇激素的细胞中,溶酶体以自体吞噬的方式清除一部分生产激素的细胞器,可能是一种普遍存在的分泌调节机制,正如在分泌蛋白质和肽类激素的细胞中普遍存在着分泌自噬这一调节机制一样。     

大鼠睾丸间质细胞的自体吞噬活动

本文结合超微结构和细胞化学观察,研究大鼠睾丸间质细胞(Leydig细胞)中溶酶体的结??构与功能。观察结果表明,大鼠睾丸间质细胞中高尔基体非常发达,在高尔基体的成熟面存在着CMP酶阳性反应的GERL系统,说明这种细胞有不断产生溶酶体的能力。细胞化学结果也证实在睾丸间质细胞有较多的初级和次级溶酶体。睾丸间质细胞不仅有较多的溶酶体,而且还有相当数量的自噬小体,存在着活跃的自体吞噬活动。自噬小体的界膜来源于特化的光面内质网或高尔基体膜囊,包围的内容物主要是光面内质网和少量线粒体。当自噬小体与溶酶体融合后即成为自体吞噬泡,由于酶的消化作用,自体吞噬泡内的细胞器有一系列形态变化。根据CMP酶细胞化学反应,可以区分自噬小体和自体吞噬泡,后者是一种次级溶酶体,呈CMP酶阳性反应。睾丸间质细胞是分泌雄性激素的内分泌细胞,其光面内质网和线粒体在类固醇激素分泌中起重要作用,自体吞噬活动的结果是去除部分内质网和线粒体,可能在细胞水平上起着对雄性激素分泌的调节作用。     

睾丸间质细胞——研究自体吞噬的一种正常细胞模型

细胞在生理状态下自体吞噬出现的频率很低,很难用正常细胞来研究自体吞噬活动,一般都通过诱导自体吞噬来获得有关自体吞噬活动的资料。本实验观察了肝、肾、睾丸等组织的32种细胞,发现睾丸间质细胞中自体吞噬出现频率远远高于其他细胞,平均每100个细胞切面中可以看到25个自噬小体,从而为研究自体吞噬的过程和机理提供了一个正常细胞模型。本实验还观察到睾丸间质细胞的自体吞噬活动可分为前自噬小体、早期自噬小体和晚期自噬小体三个阶段,是一个连续的过程。前自噬小体和早期自噬小体不含溶酶体酶,只有在自噬小体与溶酶体接触后,才从后者获取溶酶体酶并将其内容物消化分解,成为晚期自噬小体。由自体吞噬所产生的残余体并不在睾丸间质细胞内积聚,而是通过胞吐作用排出细胞外。     

外源激素对雌性黄鳝血清类固醇激素的影响

本文研究了几种外源激素对不同季节的雌性黄鳝血清性类固醇激素的影响。结果表明:鲤鱼垂体匀浆和人绒毛膜促性腺激素均显著蹭加血清类固醇水平,多巴胺拮抗剂domperidone降低血清类固醇水平,鲑鱼促性腺激素释放激素类似物增加血清类固醇水平。这些结果提示:雌鳝促性腺激素分泌亦受促性腺激素释放激素刺激,但多巴胺是否也起促性腺激素释放抑制因子的作用尚不清楚。垂体-性腺轴对外源激素的反应有明显的季节性差异,繁殖季节性腺成熟系数高的鱼反应性最强,繁殖前性腺未成熟期较繁殖后恢复发育期反应快.     

足月周期的生理调控

下丘脑－垂体－卵巢轴直接调控月经周期,三者之间通过促性腺激素与卵轩体激素对下丘脑,垂体产生的反馈机制产生生理性周期变化,卵巢局部产生众多的肽关因子形成卵巢内自分泌／社分泌调节系统,参与垂体促性腺激素性腺内作用机制的调迭。     

月经周期的生理调控

下丘脑-垂体-卵巢轴直接调控月经周期,三者之间通过促性腺激素与卵巢甾体激素对下丘脑、垂体产生的反馈机制产生生理性周期变化,卵巢局部产生众多的肽类因子形成卵巢内自分泌／旁分泌调节系统,参与垂体促性腺激素性腺内作用机制的调控。     

超强激素

超强激素董为人李进李福山（第一军医大学细胞生物学实验室,广州５１０５１５）关键词超强激素糖蛋白激素糖蛋白激素为一组进化保守的激素,参与生殖和代谢调节,广泛存在于种属间,如鳗鱼和人类。该类激素的家族包括垂体腺分泌的促性腺激素,如促卵泡素（ＦＳＨ）、黄体...     

左旋十八甲基炔诺酮对大鼠卵巢颗粒细胞和垂体细胞激素合成及分泌的影响

研究了左旋十八甲基炔诺酮对大鼠卵巢颗粒细胞和垂体细胞激素合成及分泌的直接作用。结果显示左旋十八甲基炔诺酮单独作用于无血清培养的颗粒细胞时,抑制雌二醇的合成,但刺激孕酮的分泌;在与促卵泡素合并处理时,颗粒细胞雌二醇、孕酮的分泌量随着左旋十八甲基炔诺酮浓度的增加而增加。利用促性腺激素生物测定方法证明大鼠整体用左旋十八甲基炔诺酮处理后,垂体中促卵泡素和促黄体生成素活性明显下降;同时外周血清中促卵泡素的活性亦下降。培养的垂体单纯用左旋十八甲基炔诺酮处理后,其培养液经生物测定呈现抑制颗粒细胞雌二醇和孕酮的分泌,促性腺激素释放激素可减弱左旋十八甲基炔诺酮的抑制作用。提示左旋十八甲基炔诺酮除通过垂体卵巢轴系起作用外,还能直接作用于卵巢。     

黄颡鱼脑垂体的组织学和超微结构的研究

利用组织切片和超薄切片对性成熟雌黄颡鱼的脑垂体进行了组织学和超微结构的研究.黄颡鱼的脑垂体由垂体神经部和垂体腺部组成,垂体腺部又由前叶、间叶和后叶三部分构成.舍有嗜酸性和嗜碱性细胞.促肾上腺皮质激素细胞和催乳激素细胞组成腺垂体前叶,促性腺激素分泌细胞、促生长激素分泌细胞、促甲状腺激素分泌细胞组成腺垂体间叶,腺垂体后叶由促黑色素激素细胞构成.     

大鳍促性腺激素分泌调控的研究

用非洲鲶鱼促性腺激素放射免疫测定方法测定了科鱼类样品中的促性腺激素含量。用这种方法和鲤鱼促性腺激素β亚基放射免疫测定法测定大鳍同一批血清样品结果也相当吻合。通过注射促黄体素释放激素类似物和／或多巴胺的Ｄ２受体拮抗剂地欧酮后,定时取样测定血清促性腺激素含量,证明大鳍促性腺激素的释放同时受到下丘脑分泌的促性腺激素释放激素和多巴胺的双重调节。但是,多巴胺只能抑制由促性腺激素释放激素诱导的促性腺激素分泌,而不能直接抑制基础的促性腺激素分泌,这与非洲鲶鱼相似而与金鱼和鲤鱼等鲤科鱼类明显不同。     

内分泌细胞中溶酶体对激素分泌调节的作用

Enzyme cytochemistry and immunocytochemistry were utilized to study the morphological alterations of the lysosomes and associated crinophagic and autophagic structures in the hypo-secreting pituitary gonadotrophin and Leydig cells induced by exogenous androgen. The lysosomes and autophagic vacuoles in the electron micrographs were quantitatively analysed. The morphological and quantitative data led to the following conclusions: 1) The hypo-secreting gonadotrophin showed an increase in the number of lysosomes and an enhancement of crinophagy. It demonstrated once again that the lysosomes in the protein and polypeptide hormone secreting cells play a role in the regulation of secretion process by means of the crinophagy. 2) The hypo-secreting Leydig cells showed an increase in the number of lysosomes and an enhancement of autophagic activity. This indicated that the lysosomes in the steroid hormone secreting cells also function in the regulation of hormone secretion but by means of autophagy which scavenge a part of steroid-producing apparatus and hormone. The autophagy might have similar effect in regulation of steroid secretion to the crinophagy in regulation of protein secretion.     

Morphometric analysis of the autophagic and crinophagic lysosomal systems in mammotropes throughout the estrous cycle of the rat

Summary The crinophagic and autophagic lysosomal systems were studied in mammotropes (prolactin secreting cells) of the adenohypophysis throughout the estrous cycle of the rat. By means of morphometric analysis, it was found that the volume of secondary autophagic lysosomes was usually greater than that of the crinophagic type. Although the volumes of both secondary autophagic and crinophagic lysosomes were minimal throughout proestrus and diestrus 2, the autophagic lysosomal volume per mammotrope was elevated during the estrous period. The volume of secondary crinophagic lysosomes per mammotrope increased during late estrus and remained elevated throughout early diestrus 1. Furthermore, there was an inverse relationship between the volume of mature secretory granules per cell and of the crinophagic system. These data suggest a role for lysosomes in the regulation of synthesis and secretion of prolactin by the adenohypophysis of the rat.Supported by grant HD 11571 from the National Institutes of Health     

Lysosomes and pancreatic islet function

Summary Ultrastructural studies of pancreatic islets have suggested that crinophagy provides a possible mechanism for intracellular degradation of insulin in the insulin-producing B-cells. In the present study, a quantitative estimation of crinophagy in mouse pancreatic islets was attempted by morphometric analysis of lysosomes containing immunoreactive insulin. Isolated islets were incubated in tissue culture for one week in 3.3, 5.5 or 28 mmol/l glucose. The lysosomes of the pancreatic B-cells were identified by morphological and enzyme-cytochemical criteria and divided into three subpopulations comprising primary lysosomes and insulin-positive or insulin-negative secondary lysosomes. Both the volume and numerical density of the primary lysosomes increased with increasing glucose concentration. The proportion of insulin-containing secondary lysosomes was highest at 5.5 and lowest at 3.3 mmol/l glucose. Insulin-negative secondary lysosomes predominated at 3.3 mmol/l glucose. Studies of the dose-response relationships of glucose-stimulated insulin biosynthesis and insulin secretion of the pancreatic islets showed that biosynthesis had an apparent K_m-value for glucose of 7.0 mmol/l, whereas it was 14.5 mmol/l for secretion. The pronounced crinophagic activity at 5.5 mmol/l glucose may thus be explained by the difference in glucose sensitivity between insulin biosynthesis and secretion resulting in an intracellular accumulation of insulin-containing secretory granules. The predominance of insulin-negative secondary lysosomes at 3.3 mmol/l glucose may reflect an increased autophagy, whereas the predominance of primary lysosomes at 28 mmol/l glucose may reflect a generally low activity of intracellular degradative processes.     

多泡体形成过程的细胞化学研究

本实验用酶细胞化学和示踪细胞化学方法观察了睾丸间质细胞中多泡体的形成过程及其与溶酶体的关系。实验结果表明,睾丸间质细胞中多泡体的形成可分三个阶段:首先,一些含内吞物质的泡状结构进入高尔基体区域,与那里的小泡融合,形成内含少量小泡的前多泡体;然后,前多泡体互相融合,形成体积较大、基质电子密度低、内含小泡排列稀疏的低电子密度多泡体;最后,低电子密度多泡体通过表面长出微绒毛样结构并不断断裂的方式去除多余的界膜,形成体积较小、基质电子密度高、内含小泡排列紧密的高电子密度多泡体。因此,多泡体的形成既与内吞活动有关,又与高尔基体区域小泡有关。前多泡体和低电子密度多泡体不含溶酶体酶。在多泡体形成过程中,只有到高电子密度多泡体阶段,才与溶酶体发生关系,从溶酶体中获取溶酶体酶。多泡体形成后,常与自体吞噬泡靠近,可能参与睾丸间质细胞的自体吞噬活动。     

Caspase activation regulates the extracellular export of autophagic vacuoles

The endothelium plays a central role in the regulation of vascular wall cellularity and tone by secreting an array of mediators of importance in intercellular communication. Nutrient deprivation of human endothelial cells (EC) evokes unconventional forms of secretion leading to the release of nanovesicles distinct from apoptotic bodies and bearing markers of multivesicular bodies (MVB). Nutrient deficiency is also a potent inducer of autophagy and vesicular transport pathways can be assisted by autophagy. Nutrient deficiency induced a significant and rapid increase in autophagic features, as imaged by electron microscopy and immunoblotting analysis of LC3-II/LC3-I ratios. Increased autophagic flux was confirmed by exposing serum-starved cells to bafilomycin A₁. Induction of autophagy was followed by indices of an apoptotic response, as assessed by microscopy and poly (ADP-ribose) polymerase cleavage in absence of cell membrane permeabilization indicative of necrosis. Pan-caspase inhibition with ZVAD-FMK did not prevent the development of autophagy but negatively impacted autophagic vacuole (AV) maturation. Adopting a multidimensional proteomics approach with validation by immunoblotting, we determined that nutrient-deprived EC released AV components (LC3I, LC3-II, ATG16L1 and LAMP2) whereas pan-caspase inhibition with ZVAD-FMK blocked AV release. Similarly, nutrient deprivation in aortic murine EC isolated from CASP3/caspase 3-deficient mice induced an autophagic response in absence of apoptosis and failed to prompt LC3 release. Collectively, the present results demonstrate the release of autophagic components by nutrient-deprived apoptotic human cells in absence of cell membrane permeabilization. These results also identify caspase-3 as a novel regulator of AV release.     

Regulated autophagy controls hormone content in secretory-deficient pancreatic endocrine beta-cells

Endocrine cells are continually regulating the balance between hormone biosynthesis, secretion, and intracellular degradation to ensure that cellular hormone stores are maintained at optimal levels. In pancreatic beta-cells, intracellular insulin stores in beta-granules are mostly upheld by efficiently up-regulating proinsulin biosynthesis at the translational level to rapidly replenish the insulin lost via exocytosis. Under normal circumstances, intracellular degradation of insulin plays a relatively minor janitorial role in retiring aged beta-granules, apparently via crinophagy. However, this mechanism alone is not sufficient to maintain optimal insulin storage in beta-cells when insulin secretion is dysfunctional. Here, we show that despite an abnormal imbalance of glucose/glucagon-like peptide 1 regulated insulin production over secretion in Rab3A(-/-) mice compared with control animals, insulin storage levels were maintained due to increased intracellular beta-granule degradation. Electron microscopy analysis indicated that this was mediated by a significant 12-fold up-regulation of multigranular degradation vacuoles in Rab3A(-/-) mouse islet beta-cells (P 相似文献   

Caspase activation regulates the extracellular export of autophagic vacuoles

The endothelium plays a central role in the regulation of vascular wall cellularity and tone by secreting an array of mediators of importance in intercellular communication. Nutrient deprivation of human endothelial cells (EC) evokes unconventional forms of secretion leading to the release of nanovesicles distinct from apoptotic bodies and bearing markers of multivesicular bodies (MVB). Nutrient deficiency is also a potent inducer of autophagy and vesicular transport pathways can be assisted by autophagy. Nutrient deficiency induced a significant and rapid increase in autophagic features, as imaged by electron microscopy and immunoblotting analysis of LC3-II/LC3-I ratios. Increased autophagic flux was confirmed by exposing serum-starved cells to bafilomycin A 1. Induction of autophagy was followed by indices of an apoptotic response, as assessed by microscopy and poly (ADP-ribose) polymerase cleavage in absence of cell membrane permeabilization indicative of necrosis. Pan-caspase inhibition with ZVAD-FMK did not prevent the development of autophagy but negatively impacted autophagic vacuole (AV) maturation. Adopting a multidimensional proteomics approach with validation by immunoblotting, we determined that nutrient-deprived EC released AV components (LC3I, LC3-II, ATG16L1 and LAMP2) whereas pan-caspase inhibition with ZVAD-FMK blocked AV release. Similarly, nutrient deprivation in aortic murine EC isolated from CASP3/caspase 3-deficient mice induced an autophagic response in absence of apoptosis and failed to prompt LC3 release. Collectively, the present results demonstrate the release of autophagic components by nutrient-deprived apoptotic human cells in absence of cell membrane permeabilization. These results also identify caspase-3 as a novel regulator of AV release.