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1.
目的:建立稳定表达的PHluorin标记的线虫种系,为囊泡在线虫ALA神经元上分泌机制的研究提供模型。方法:采用了国际先进的线虫转基因技术,将构建的Pida-1IDA-1:PHluorin质粒通过显微注射到线虫的母代,通过筛选后得到稳定表达的种系。结果:通过DIC显微镜整体检测和全内反射荧光成像技术(Tirfm)细胞检测,蛋白表达的位置正确,通过高倍数体式显微镜确定稳定种系中阳性率高达99%。结论:建立了一个稳定表达的荧光标记线虫种系,为进一步在线虫上研究囊泡分泌提供了很好的模型。  相似文献   

2.
Syt Ⅶ, 因其具有比Syt Ⅰ和Syt Ⅸ更高的钙离子亲和力, 以及在与脂质结合后表现出更慢的解离动力学过程, 被认为在致密核心大囊泡分泌的慢速动力学过程中起着钙离子感受器的作用, 而并不参与突触囊泡的快速分泌过程. 然而迄今为止, Syt Ⅶ的亚细胞定位和其在胞内具体的生理学功能尚未完全清楚. 在本研究中, 我们首先应用全内反射荧光显微镜技术表明, 在PC12细胞中Syt Ⅶ定位于致密核心囊泡. 通过综合运用高时间分辨率的细胞膜电容测量和碳纤维微电极安培检测, 确定了单独沉默内源性的Syt Ⅶ就可以明显减少PC12细胞中钙触发的致密核心囊泡和质膜的融合和抑制了融合孔的开放, 特别是减少了致密核心大囊泡胞吐触发相的幅值, 而对于其持续成分的速率则几乎没有影响. 这些发现提示我们Syt Ⅶ在PC12细胞致密核心囊泡融合机制中作为钙感受器, 对可释放致密核心大囊泡库的形成和维持起着非常重要的作用.  相似文献   

3.
Rim是囊泡分泌活性区中的重要组成蛋白,它与细胞分泌和突触可塑性相关.在秀丽隐感线虫中只存在一种编码Rim的基因即unc-10.我们的研究发现,在线虫中Rim的基因突变unc-10(md1117)会导致致密核心囊泡的分泌缺陷.在活体中,unc-10突变虫系的神经多肽分泌显著下降.此外,在主要分泌致密核心囊泡的ALA神经元内,钙光解释放促发的快相分泌也比野生型减少.运用全内反射荧光显微成像技术,我们观察在unc-10缺失的情况下ALA 神经元中致密核心囊泡的锚定过程,结果显示在细胞膜附近停留的囊泡数目减少,表明囊泡锚定受到阻碍.上述试验结果表明,UNC-10能够影响致密核心囊泡的分泌过程,其机制可能是影响了囊泡的锚定过程.  相似文献   

4.
葡萄糖转运子蛋白4(glucose transporter 4,GLUT4)在维持体内葡萄糖动态平衡的过程中起着至关重要的作用。GLUT4贮存囊泡(GLUT4 storage vesicle,GSV)和神经内分泌细胞中的分泌囊泡含有许多相同的蛋白。研究证明这些蛋白调节了分泌囊泡的胞内转运过程,但是GLUT4囊泡和分泌囊泡是否具有相同的胞内动态过程还未阐明。文章以3T3-L1纤维原细胞中的GSV和神经内分泌细胞PC12细胞中的分泌囊泡:致密核心大囊泡(large dense core vesicle,LDCV)为研究对象,使用消散场显微成像技术和单微粒跟踪技术直观观察了活体细胞内单个GSV和LDCV的三维运动轨迹。通过以适当方程拟合单个囊泡的均方位移曲线,发现两种囊泡都具有三种运动模式。定量分析显示作自由扩散运动和方向性扩散运动的GSV数量明显多于LDCV。对比GSV和LDCV的三维扩散系数,发现GSV的扩散系数中值为7.2×10-4μm2/s,而LDCV的扩散系数中值仅为1.94×10-4μm2/s。这一结果说明GSV的活动性远大于LDCV,提示GSV的胞内转运过程涉及不同的分子机制。  相似文献   

5.
获得活体细胞三维图像以观察细胞内分泌囊泡的空间分布有助于细胞分泌机制的研究。三维荧光反卷积显微技术可以为活体细胞观察提供低荧光漂白 ,低毒副作用的快速三维成像。研究了显微成像系统实验测定和理论计算点扩展函数之间的关系 ,并且实验验证了NA 1.6 5物镜条件下 ,理论计算点扩展函数可以较好地反映显微成像系统的特性。然后使用已知物理结构的三维样本对反卷积算法的有效性进行了研究。进而对使用吖啶橙(acridineorange)标记的大鼠胰腺 β细胞分泌囊泡进行观察。结果显示 ,反卷积算法可以有效地去除原始图像中因为焦外光影响产生的模糊 ,处理后图像清晰地显示了细胞内分泌囊泡的空间分布  相似文献   

6.
目的:研究秀丽隐杆线虫(简称线虫)中一种扩展的Synaptotagmin同源物ESYT-2在致密核心囊泡分泌过程中起到的作用。方法:以线虫为研究对象,运用线虫腔胞吸收ANF-GFP的基本原理来确定ESYT-2与分泌相关,之后又进一步使用全内反射荧光显微镜技术(TIRFM)来研究ESYT-2对致密核心囊泡的具体调控。结果:①ESYT-2功能缺失影响线虫神经细胞致密核心囊泡分泌。②ESYT-2影响致密核心囊泡分泌的栓系过程。结论:ESYT-2调控了致密核心囊泡的分泌过程。  相似文献   

7.
目的利用绿色荧光小鼠和红色荧光蛋白标记肿瘤细胞,建立荧光标记的小鼠肿瘤模型,并建立活体荧光成像和荧光显微镜成像在整体和细胞水平直接观察肿瘤的技术。方法将小鼠B16黑色素瘤细胞接种到绿色荧光蛋白转基因小鼠皮下,建立GFP小鼠肿瘤模型。以红色荧光蛋白作为标记基因导入小鼠黑色素瘤细胞B16细胞,建立稳定表达红色荧光蛋白的细胞株。将表达红色荧光蛋白B16细胞接种到绿色荧光转基因小鼠皮下,建立双荧光小鼠肿瘤模型。用荧光显微镜和活体荧光成像系统检测小鼠肿瘤的发生发展。结果分别建立了GFP小鼠肿瘤模型和双色荧光小鼠肿瘤模型。利用活体荧光影像仪可以观察双色荧光小鼠模型中受体绿色荧光组织和红色荧光移植肿瘤相互融合。利用荧光显微镜,可以观察到肿瘤内绿色荧光标记的来源于受体小鼠的血管和免疫细胞。经香菇多糖刺激的GFP小鼠肿瘤模型的移植瘤组织中,来源于受体小鼠绿色荧光标记的免疫细胞明显多于经生理盐水刺激的对照小鼠。结论利用绿色荧光小鼠和红色荧光RFP标记肿瘤细胞建立荧光标记的小鼠肿瘤模型,采用活体荧光成像仪和荧光显微镜可在整体和细胞水平直接观察肿瘤的生长以及肿瘤与宿主的相互作用。  相似文献   

8.
为了研究细胞内大型内吞囊泡的快速动态变化,本文借鉴了诱导神经元轴突诱导转向的方法,通过脉冲压力从微电极释放诱导因子,在细胞周围形成稳定的浓度梯度,诱导细胞产生胞饮泡,并通过局部染料释放进行快速标记和洗脱。同时利用活细胞成像技术,对胞饮泡标记过程以及标记后胞饮泡动态变化进行实时记录。该方法大大缩短了标记和洗脱的时间,从而实现了对细胞囊泡的快速标记和同步观察记录,可用于胞饮泡、溶酶体等细胞囊泡的动态标记和观察,是研究细胞大型内吞囊泡动态变化的一种实用且高效的手段。  相似文献   

9.
目的:研究大电导、钙离子和电压激活的钾离子通道(BK通道)在HEK293细胞膜上的单分子定位及其总体空间分布情况。方法:分别用mEos2、Dronpa等荧光蛋白标记BK通道的α亚基和辅助性β2亚基,将这些质粒在HEK293细胞内瞬时转染以表达通道蛋白,然后用激光共聚焦荧光显微成像、全内反射荧光显微成像、光敏定位荧光成像等技术观察BK通道的亚细胞定位及单分子分布,并用电生理实验技术检测荧光蛋白对BK通道有影响。结果:激光共聚焦荧光显微成像和全内反射荧光显微成像技术只能在亚细胞水平定位通道蛋白,BK通道在细胞膜上聚集并形成不规则的蛋白簇,它的仅亚基和β2亚基在细胞膜上完全共定位;光敏定位荧光成像技术成功定位BK通道蛋白簇里面的单分子,虽然α和β2亚基紧紧靠在一起,它们之间依然存在空间距离;BK通道的质膜表达和功能特性不受荧光蛋白的影响。结论:BK通道蛋白簇里面包含大量的α和β2亚基的蛋白单分子,它们紧密地聚集在一起,但是并没有完全共定位,在分子水平上揭示了BK通道α和p亚基功能耦合的结构基础,为以后研究大分子蛋白质间的相互作用机制提供了很好的分子模型,光敏定位荧光成像技术作为一种全新的单分子荧光成像手段,在基因表达、信号通路、蛋白质相互作用等许多重要生命活动的研究中发挥重要作用。  相似文献   

10.
摘要目的:研究大电导、钙离子和电压激活的钾离子通道(BK通道)在HEK293 细胞膜上的单分子定位及其总体空间分布情况。 方法:分别用mEos2、Dronpa 等荧光蛋白标记BK通道的α亚基和辅助性β2 亚基,将这些质粒在HEK293 细胞内瞬时转染以表 达通道蛋白,然后用激光共聚焦荧光显微成像、全内反射荧光显微成像、光敏定位荧光成像等技术观察BK通道的亚细胞定位及 单分子分布,并用电生理实验技术检测荧光蛋白对BK通道有影响。结果:激光共聚焦荧光显微成像和全内反射荧光显微成像技 术只能在亚细胞水平定位通道蛋白,BK 通道在细胞膜上聚集并形成不规则的蛋白簇,它的α亚基和β2 亚基在细胞膜上完全共 定位;光敏定位荧光成像技术成功定位BK通道蛋白簇里面的单分子,虽然α和β2 亚基紧紧靠在一起,它们之间依然存在空间 距离;BK通道的质膜表达和功能特性不受荧光蛋白的影响。结论:BK通道蛋白簇里面包含大量的α和β2 亚基的蛋白单分子, 它们紧密地聚集在一起,但是并没有完全共定位,在分子水平上揭示了BK通道α和β亚基功能耦合的结构基础,为以后研究大 分子蛋白质间的相互作用机制提供了很好的分子模型,光敏定位荧光成像技术作为一种全新的单分子荧光成像手段,在基因表 达、信号通路、蛋白质相互作用等许多重要生命活动的研究中发挥重要作用。  相似文献   

11.
The noradrenaline transporter (NAT) is present in noradrenergic neurons and a few other specialized cells such as adrenal medullary chromaffin cells and the rat pheochromocytoma (PC12) cell line. We have raised antibodies to a 49-residue segment (NATM2) of the extracellular region (residues 184-232) of bovine NAT. Affinity-purified NATM2 antibodies specifically recognized an 80-kDa band in PC12 cell membranes by western blotting. Bands of a similar size were also detected in membranes from human neuroblastoma (SK-N-SH) cells expressing endogenous NAT and human embryonic kidney (HEK293) cells stably expressing bovine NAT. Immunocytochemistry of rat adrenal tissue showed that NAT staining was colocalized with tyrosine hydroxylase in medullary chromaffin cells. Most NAT immunoreactivity in rat adrenal chromaffin and PC12 cells was present in the cytoplasm and had a punctate appearance. Cell surface biotinylation experiments in PC12 cells confirmed that only a minor fraction of the NAT was present at the cell surface. Subcellular fractionation of PC12 cells showed that relatively little NAT colocalized with plasma membrane, synaptic-like microvesicles, recycling endosomes, or trans-Golgi vesicles. Most of the NAT was associated with [3H]noradrenaline-containing secretory granules. Following nerve growth factor treatment, NAT was localized to the growing tip of neurites. This distribution was similar to the secretory granule marker secretogranin I. We conclude that the majority of NAT is present intracellularly in secretory granules and suggest that NAT may undergo regulated trafficking in PC12 cells.  相似文献   

12.
PC12 cells, a cell line derived from a rat pheochromocytoma, have both regulated and constitutive secretory pathways. Regulated secretion occurs via large dense core granules, which are related to chromaffin granules and are abundant in these cells. In addition, PC12 cells also contain small electron-lucent vesicles, whose numbers increase in response to nerve growth factor and which may be related to cholinergic synaptic vesicles. These could characterize a second regulated secretory pathway. We have investigated the trafficking of protein markers for both these organelles. We have purified and characterized the large dense core granules from these cells using sequential velocity and equilibrium gradients. We demonstrate the copurification of the major PC12 soluble regulated secretory protein (secretogranin II) with this organelle. As a marker for the synaptic vesicle-like organelles in this system, we have used the integral membrane glycoprotein p38 or synaptophysin. We show that the p38-enriched fraction of PC12 cells comigrates with rat brain synaptic vesicles on an equilibrium gradient. We also demonstrate that p38 purifies away from the dense core granules; less than 5% of this protein is found in our dense granule fraction. Finally we show that p38 does not pass through the dense granule fraction in pulse-chase experiments. These results rule out the possibility of p38 reaching the small clear vesicles via mature dense granules and imply that these cells may have two independently derived regulated pathways.  相似文献   

13.
Rab proteins comprise a complex family of small GTPases involved in the regulation of intracellular membrane trafficking and reorganization. In this study, we identified Rab18 as a new inhibitory player of the secretory pathway in neuroendocrine cells. In adrenal chromaffin PC12 cells and pituitary AtT20 cells, Rab18 is located at the cytosol but associates with a subpopulation of secretory granules after stimulation of the regulated secretory pathway, strongly suggesting that induction of secretion provokes Rab18 activation and recruitment to these organelles. In support of this, a dominant-inactive Rab18 mutant was found to distribute diffusely in the cytosol, whereas a dominant-active Rab18 mutant was predominantly associated to secretory granules. Furthermore, interaction of Rab18 with secretory granules was associated to an inhibition in the secretory activity of PC12 and AtT20 cells in response to stimulatory challenges. Association of Rab18 with secretory granules was also observed by immunoelectron microscopy in normal, non-tumoral endocrine cells (pituitary melanotropes), wherein Rab18 protein content is inversely correlated to the level of secretory activity of cells. Taken together, these findings suggest that, in neuroendocrine cells, Rab18 acts as a negative regulator of secretory activity, likely by impairing secretory granule transport.  相似文献   

14.
Lack of fragile X mental retardation protein (FMRP) causes fragile X syndrome, a common form of inherited mental retardation. FMRP is an RNA binding protein thought to be involved in translation efficiency and/or trafficking of certain mRNAs. Recently, a subset of mRNAs to which FMRP binds with high affinity has been identified. These FMRP-associated mRNAs contain an intramolecular G-quartet structure. In neurons, dendritic mRNAs are involved in local synthesis of proteins in response to synaptic activity, and this represents a mechanism for synaptic plasticity. To determine the role of FMRP in dendritic mRNA transport, we have generated a stably FMR1-enhanced green fluorescent protein (EGFP)-transfected PC12 cell line with an inducible expression system (Tet-On) for regulated expression of the FMRP-GFP fusion protein. After doxycycline induction, FMRP-GFP was localized in granules in the neurites of PC12 cells. By using time-lapse microscopy, the trafficking of FMRP-GFP granules into the neurites of living PC12 cells was demonstrated. Motile FMRP-GFP granules displayed two types of movements: oscillatory (bidirectional) and unidirectional anterograde. The average velocity of the granules was 0.19 micro m/s with a maximum speed of 0.71 micro m/s. In addition, we showed that the movement of FMRP-GFP labeled granules into the neurites was microtubule dependent. Colocalization studies further showed that the FMRP-GFP labeled granules also contained RNA, ribosomal subunits, kinesin heavy chain, and FXR1P molecules. This report is the first example of trafficking of RNA-containing granules with FMRP as a core constituent in living PC12 cells.  相似文献   

15.
The events in the biogenesis of secretory granules after the budding of a dense-cored vesicle from the trans-Golgi network (TGN) were investigated in the neuroendocrine cell line PC12, using sulfate-labeled secretogranin II as a marker. The TGN-derived dense-cored vesicles, which we refer to as immature secretory granules, were found to be obligatory organellar intermediates in the biogenesis of the mature secretory granules which accumulate in the cell. Immature secretory granules were converted to mature secretory granules with a half-time of approximately 45 min. This conversion entailed an increase in their size, implying that the maturation of secretory granules includes a fusion event involving immature secretory granules. Pulse-chase labelling of PC12 cells followed by stimulation with high K+, which causes the release of secretogranin II, showed that not only mature, but also immature secretory granules were capable of undergoing regulated exocytosis. The kinetics of secretion of secretogranin II, as well as those of a constitutively secreted heparan sulfate proteoglycan, were reduced by treatment of PC12 cells with nocodazole, suggesting that both secretory granules and constitutive secretory vesicles are transported to the plasma membrane along microtubules. Our results imply that certain membrane proteins, e.g., those involved in the fusion of post-TGN vesicles with the plasma membrane, are sorted upon exit from the TGN, whereas other membrane proteins, e.g., those involved in the interaction of post-TGN vesicles with the cytoskeleton, may not be sorted.  相似文献   

16.
Putative docking of secretory vesicles comprising recognition of and attachment to future fusion sites in the plasma membrane has been investigated in chromaffin cells of the bovine adrenal medulla and in rat phaeochromocytoma (PC 12) cells. Upon permeabilization with digitonin, secretion can be stimulated in both cell types by indreasing the free Ca2+-concentration to M levels. Secretory activity can be elicited up to 1 hr after starting permeabilization and despite the loss of soluble cytoplasmic components indicating a stable attachment of granules to the plasma membrane awaiting the trigger for fusion. Docked granules can be observed in the electron microscope in permeabilized PC 12 cells which contain a large proportion of their granules aligned underneath the plasma membrane. The population of putatively docked granules in chromaffin cells cannot be as readily discerned due to the dispersal of granules throughout the cytoplasm. Further experiments comparing PC 12 and chromaffin cells suggest that active docking but not transport of granules can still be performed by permeabilized cells in the presence of Ca2+: a short (2 min) pulse of Ca2+ in PC 12 cells leads to the secretion of almost all releasable hormone over a 15 min observation period whereas, in chromaffin cells, with only a small proportion of granules docked, withdrawal of Ca2+ leads to an immediate halt in secretion. Transport of chromaffin granules from the Golgi to the plasma membrane docking sites seems to depend on a mechanism sensitive to permeabilization. This is shown by the difference in the amount of hormone released from the two permeabilized cell types, reflecting the contrast in the proportion of granules docked to the plasma membrane in PC 12 or chromaffin cells. Neither docking nor the docked state are influenced by cytochalasine B or colchicine. The permeabilized cell system is a valuable technique for thein vitro study of interaction between secretory vesicles and their target membrane.  相似文献   

17.
Rho GTPases are key regulators of the actin cytoskeleton in membrane trafficking events. We previously reported that Cdc42 facilitates exocytosis in neuroendocrine cells by stimulating actin assembly at docking sites for secretory granules. These findings raise the question of the mechanism activating Cdc42 in exocytosis. The neuronal guanine nucleotide exchange factor, intersectin-1L, which specifically activates Cdc42 and is at an interface between membrane trafficking and actin dynamics, appears as an ideal candidate to fulfill this function. Using PC12 and chromaffin cells, we now show the presence of intersectin-1 at exocytotic sites. Moreover, through an RNA interference strategy coupled with expression of various constructs encoding the guanine nucleotide exchange domain, we demonstrate that intersectin-1L is an essential component of the exocytotic machinery. Silencing of intersectin-1 prevents secretagogue-induced activation of Cdc42 revealing intersectin-1L as the factor integrating Cdc42 activation to the exocytotic pathway. Our results extend the current role of intersectin-1L in endocytosis to a function in exocytosis and support the idea that intersectin-1L is an adaptor that coordinates exo-endocytotic membrane trafficking in secretory cells.  相似文献   

18.
Li D  Xiong J  Qu A  Xu T 《Biophysical journal》2004,87(3):1991-2001
Deconvolution wide-field fluorescence microscopy and single-particle tracking were used to study the three-dimensional mobility of single secretory granules in live PC12 cells. Acridine orange-labeled granules were found to travel primarily in random and caged diffusion, whereas only a small fraction of granules traveled in directed fashion. High K(+) stimulation increased significantly the percentage of granules traveling in directed fashion. By dividing granules into the near-membrane group (within 1 microm from the plasma membrane) and cytosolic group, we have revealed significant differences between these two groups of granules in their mobility. The mobility of these two groups of granules is also differentially affected by disruption of F-actin, suggesting different mechanisms are involved in the motion of the two groups of granules. Our results demonstrate that combined deconvolution and single-particle tracking may find its application in three-dimensional tracking of long-term motion of granules and elucidating the underlying mechanisms.  相似文献   

19.
Using immunocytochemistry coupled to fluorescence and electron microscopy, we investigated the expression and ultrastructural localization of tyrosine hydroxylase (TH, EC 1.14.16.2), the rate-limiting enzyme in the biosynthesis of catecholamines, in human peripheral blood mononuclear cells (PBMCs), with PC12 cells as positive controls. In unstimulated PBMCs, TH-specific immunoreactivity was localized to the plasma membrane. However, after stimulation with the polyclonal mitogen phytohaemagglutinin (PHA), TH immunoreactivity was almost completely localized to electron-dense cytoplasmic granules, which resembled those found in PC12. TH-positive granules, however, were larger (300-500 nm) than in PC12 cells (100-200 nm). Flow cytometry analysis of TH expression showed about 46-50% positive cells in unstimulated PBMCs and in PHA-stimulated PBMCs in the G0/G1 phase of the cell cycle, but more than 80% positive cells in PHA-stimulated PBMCs in the S+G2/M phase. In agreement with previous observations, PHA stimulation also induced de novo expression of TH mRNA as well as increased intracellular catecholamine content, suggesting the occurrence of TH upregulation at the level of both gene expression and enzyme activity. The ultrastructural localization of TH in human PBMCs seems therefore regulated by cell stimulation and related to the functional activity of the enzyme.  相似文献   

20.
In neuroendocrine cells, actin reorganization is a prerequisite for regulated exocytosis. Small GTPases, Rho proteins, represent potential candidates coupling actin dynamics to membrane trafficking events. We previously reported that Cdc42 plays an active role in regulated exocytosis in chromaffin cells. The aim of the present work was to dissect the molecular effector pathway integrating Cdc42 to the actin architecture required for the secretory reaction in neuroendocrine cells. Using PC12 cells as a secretory model, we show that Cdc42 is activated at the plasma membrane during exocytosis. Expression of the constitutively active Cdc42(L61) mutant increases the secretory response, recruits neural Wiskott-Aldrich syndrome protein (N-WASP), and enhances actin polymerization in the subplasmalemmal region. Moreover, expression of N-WASP stimulates secretion by a mechanism dependent on its ability to induce actin polymerization at the cell periphery. Finally, we observed that actin-related protein-2/3 (Arp2/3) is associated with secretory granules and that it accompanies granules to the docking sites at the plasma membrane upon cell activation. Our results demonstrate for the first time that secretagogue-evoked stimulation induces the sequential ordering of Cdc42, N-WASP, and Arp2/3 at the interface between granules and the plasma membrane, thereby providing an actin structure that makes the exocytotic machinery more efficient.  相似文献   

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