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31.
本实验用外源性雄激素引起垂体促性腺激素细胞和睾丸间质细胞分泌抑制,对这两种细胞中的溶酶体及分泌吞噬和自体吞噬活动进行了超微结构形态观察和半定量分析。实验中应用了CMP酶细胞化学技术和免疫胶体金技术。研究结果显示,在分泌受抑制状态下,垂体促性腺激素细胞中溶酶体增多,分泌吞噬活动加强;与此同时,睾丸间质细胞也表现溶酶体增多、自体吞噬活动加强。这些结果不仅再次证明在分泌蛋白质激素细胞中溶酶体以分泌吞噬的方式参与了激素分泌调节,更重要的是初步证明在分泌类固醇激素细胞的分泌调节中,也有溶酶体的参与,其形式是自体吞噬作用。细胞通过自体吞噬作用得以在短时间内清除一部分合成激素的细胞器和其中的激素,这可能是分泌类固醇激素的细胞及时有效地调整激素分泌量的一项重要机制,与分泌蛋白质激素细胞的分泌吞噬有着相同的意义。 相似文献
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Wenzhuo Zhuang ;Zhenghong Qin ;Zhongqin Liang 《Acta biochimica et biophysica Sinica》2009,(5):341-351
Malignant gliomas represent the majority of primary brain tumors. The current standard treatments for malignant gliomas include surgical resection, radiation therapy, and chemotherapy. Radiotherapy, a standard adjuvant therapy, confers some survival advantages, but resistance of the glioma cells to the efficacy of radiation limits the success of the treatment. The mechanisms underlying glioma cell radioresistance have remained elusive. Autophagy is a protein degradation system characterized by a prominent formation of double-membrane vesicles in the cytoplasm. Recent studies suggest that autophagy may be important in the regulation of cancer development and progression and in determining the response of tumor cells to anticancer therapy. Also, autophagy is a novel response of glioma cells to ionizing radiation. Autophagic cell death is considered programmed cell death type II, whereas apoptosis is programmed cell death type I. These two types of cell death are predominantly distinctive, but many studies demonstrate a cross-talk between them. Whether autophagy in cancer cells causes death or protects cells is controversial. The regulatory pathways of autophagy share several molecules. PI3K/Akt/mTOR, DNA-PK, tumor suppressor genes, mitochondrial damage, and lysosome may play important roles in radiation-induced autophagy in glioma cells. Recently, a highly tumorigenic glioma tumor subpopulation, termed cancer stem cell or tumor-initiating cell, has been shown to promote therapeutic resistance. This review summarizes the main mediators associated with radiation-induced autophagy in malignant glioma cells and discusses the implications of the cancer stem cell hypothesis for the development of future therapies for brain tumors. 相似文献
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《上海生物医学工程》2010,(3):137-137
日前,荷兰特文特大学经10年努力开发,研制成功一种生物陶瓷材料,可用于骨移植手术中,促进骨细胞的再生和受损骨组织的愈合。 相似文献
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研究表明,喉癌的早期诊断、及时治疗不仅可以提高治愈率,而且也减少了患者的手术创伤和经济负担。积极开展喉癌的早期诊断研究具有重要的临床和社会意义。发现早期喉癌常规方法主要有电子喉镜、纤维喉镜、颈部CT及MRI检查,但并不能明显有效提高早期诊断率。而窄带成像(narrow band imaging,NBI)及自体荧光内镜(autofluorescence endoscopy AFE)是近几年用于喉癌早期诊断的两种新颖的内镜技术。NBI是一种通过变窄光波的波长,使粘膜上皮内乳头样毛细血管袢及粘膜下静脉的结构形成鲜明的对比,从而提高组织表面细微结构的对比度,便于发现病灶。而AFE技术是一种利用自发荧光聚集于病变组织的某个区域产生的差异强度,来区别正常组织与肿瘤性病变,从而用于肿瘤的早期诊断及识别癌前病变。因此,对NBI及AFE的进一步研究及认识对喉癌早期诊断提供非常重要的临床应用价值。 相似文献
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The role of macroautophagy (hereafter autophagy) in cancer biology and response to clinical intervention is complex. It is clear that autophagy is dysregulated in a wide variety of tumor settings, both during tumor initiation and progression, and in response to therapy. However, the pleiotropic mechanistic roles of autophagy in controlling cell behavior make it difficult to predict in a given tumor setting what the role of autophagy, and, by extension, the therapeutic outcome of targeting autophagy, might be. In this review we summarize the evidence in the literature supporting pro- and anti-tumorigenic and -therapeutic roles of autophagy in cancer. This overview encompasses roles of autophagy in nutrient management, cell death, cell senescence, regulation of proteotoxic stress and cellular homeostasis, regulation of tumor-host interactions and participation in changes in metabolism. We also try to understand, where possible, the mechanistic bases of these roles for autophagy. We specifically expand on the emerging role of genetically- engineered mouse models of cancer in shedding light on these issues in vivo. We also consider how any or all of the above functions of autophagy proteins might be targetable by extant or future classes of pharmacologic agents. We conclude by briefly exploring non-canonical roles for subsets of the key autophagy proteins in cellular processes, and how these might impact upon cancer. 相似文献