Evidence for the Presence of a Free C-Terminal Fragment of Cx43 in Cultured Cells

Migration of the gap junction protein connexin 43 (Cx43) in SDS-PAGE yields 2 to 4 distinct bands, detectable in the 40-47 kDa range. Here, we show that antibodies against the carboxy-terminal domain of Cx43 recognized an additional 20-kDa product. This protein was detected in some culture cell lysates. The presence of the 20-kDa band was not prevented by the use of protease inhibitors (Complete® and phenylmethylsulfonyl fluoride (PMSF), 1-5 mM). The band was absent from cells treated with Cx43-specific RNAi, and from those derived from Cx43-deficient mice, indicating that this Cx43-immunoreactive protein is a product of the Cx43 gene. Treatment of CHO cells with cyclosporin A caused a reduction in the amount of full-length Cx43 and a concomitant increase in the amount of the 20-kDa band. Overall, our data show that a fraction of the Cx43-immunoreactive protein pool within a given cell may correspond to a C-terminal fragment of the protein.     

骨组织细胞Cx43形成的间隙连接及半通道研究进展

连接子蛋43（connexin 43,Cx43）是骨组织中主要的间隙连接（gap junction）蛋白和半通道（hemichannel）蛋白,由Cx43形成的间隙连接及半通道实现了骨组织细胞间的直接通讯。连接子蛋白对骨组织的正常发育、骨重建过程的建立与平衡是非常重要的。目前研究指出,Cx43不仅参与了骨组织的力学响应过程,也参与了二磷酸盐、甲状旁腺激素等药物对骨重建的调节过程。该文以骨组织细胞内信号传递途径的关键分子Cx43为对象,就其目前的研究现状作一综述。     

Spatiotemporal Expression of Connexin 39 and -43 During Myoblast Differentiation in Cultured Cells and in the Mouse Embryo

Connexin39 (Cx39) and connexin43 (Cx43) are known to be expressed during development of skeletal muscles. Here we have compared the expression pattern of both connexins during differentiation of established C₂C₁₂ mouse myoblasts and in the mouse embryo. Cx43 is highly abundant in undifferentiated myoblasts, but no Cx39 protein was detected in these cells. Upon differentiation into myotubes, Cx39 expression increased. The consecutive expression of these connexins was also observed in the mouse embryo. Cx39 and Cx43 were found in different plaques in accordance with the notion that Cx43 is exclusively expressed in myoblasts and Cx39 in myotubes. Thus, differentiating C₂C₁₂ cells in culture can serve to study the involvement of gap junctions in myogenesis, since expression of corresponding Cx39 and Cx43 proteins appears to be very similar as in the mouse embryo.     

Dual Functions for Connexins: Cx43 Regulates Growth Independently of Gap Junction Formation

Connexins, the family of proteins that form vertebrate gap junctions, have key roles during development and in the adult. Previously, the physiological actions of connexins have been ascribed solely to formation of gap junction channels and thought to be mediated by the transfer of small molecules between neighboring cells. In conflict with this hypothesis here we demonstrate that Cx43 can affect cell growth independently of gap junction formation. This conclusion is based on four findings: (1) There is a lack of correlation between the action of Cx43 mutants Cx43-S255A, Cx43-S279A, and Cx43-S282A on growth and cell coupling in 3T3 A31 fibroblasts. (2) Blockade of gap junction formation, by either heptan-1-ol treatment or culturing cells at low density, had no effect on the ability of the Cx43 mutants to control growth. (3) Wildtype Cx43 inhibited growth of Neuro2a cells under conditions where gap junctions were unable to form. (4) The CT domain of Cx43, which lacks intrinsic gap junction activity, is as effective as the wildtype molecule in suppressing the growth of Neuro2a cells. These observations demonstrate that Cx43 has dual functions: first, its well-accepted role in forming a gap junction channel and, second, a direct action of the connexin protein on growth that is mediated via the cytoplasmic carboxyl domain.     

哺乳动物透明带糖蛋白及其生物活性

透明带在哺乳动物的受精过程中发挥着重要作用,透明带化学成分及其生物活性的研究对于了解精卵识别、顶体反应的诱导等过程的分子机理具有重要意义．近10年来的研究表明透明带主要由糖蛋白（ZPGPs）组成,是在细胞质内合成后转移至透明带的.大多数动物的ZPGPs为4～5种,不同种类动物的ZPGPs的氨基酸序列存在高度同源性.在受精过程中,ZPGPs具有精子受体和诱导顶体反应的双重作用,ZPGPs含有N－连接和O－连接寡聚糖,这些寡糖链是ZPGPs行使生物活性不可缺少的部分．     

Aggregated DsRed-Tagged Cx43 and Over-Expressed Cx43 are Targeted to Lysosomes in Human Breast Cancer Cells

To investigate if either wild-type or aggregated Cx43 is abnormally targeted to lysosomes in human breast tumor cells, we examined the fate of DsRed-tagged Cx43 and over-expressed Cx43 in communication-deficient HBL-100 and MDA-MB-231 cells. DsRed-tagged Cx43 was assembled into gap junctions in control normal rat kidney cells that express endogenous Cx43 but not in Cx43-negative HBL-100 cells. However, when HBL-100 cells were engineered to coexpress wild-type Cx43 a population of DsRed-tagged Cx43 was rescued and assembled into gap junctions. Co-expression of wild-type Cx26 failed to rescue the assembly of DsRed-tagged Cx43 into gap junctions. Immunolocalization studies revealed that DsRed-tagged Cx43 was aggregated and partially localized to lysosomes. Interestingly, when human MDA-MB-231 breast tumor cells over-expressed wild-type Cx43, Cx43 protein primarily localized to lysosomes. Together, these studies provide evidence for Cx43 being targeted to lysosomes as a result of misfolding and aggregation, while in other cases, the delivery of wild-type Cx43 to lysosomes appears to be due to defects innate to the breast tumor cell type.     

Syndromic and non-syndromic disease-linked Cx43 mutations

There are now at least 14 distinct diseases linked to germ line mutations in the 21 genes that encode the connexin (Cx) family of gap junction proteins. This review focuses on the links between germ-line mutations in the gene encoding Cx43 (GJA1) and the human disease termed oculodentodigital dysplasia (ODDD). This disease is clinically characterized by soft tissue fusion of the digits, abnormal craniofacial bone development, small eyes and loss of tooth enamel. However, the disease is considerably more complex and somewhat degenerative as patients often suffer from other syndromic effects that include incontinence, glaucoma, skin diseases and neuropathies that become more pronounced during aging. The challenge continues to be understanding how distinct Cx43 gene mutations cause such a diverse range of tissue phenotypes and pathophysiological changes while other Cx43-rich organs are relatively unaffected. This review will provide an overview of many of these studies and distill some themes and outstanding questions that need to be addressed in the coming years.     

犬卵透明带3 DNA疫苗在小鼠模型中的避孕效果评价

为了评价犬卵透明带3(CZP3)DNA疫苗的避孕效果,采用6只雌性小鼠Mus musculus肌肉注射50μg pcDNA3-CZP3质粒后30 V电压刺激6次的方法建立实验组,以6只同等注射pcDNA3质粒的雌性小鼠为阴性对照组;初免后每周采血并用ELISA方法检测小鼠的CZP3抗体水平及第6周抗体滴度;第6周与雄鼠合笼,计算产仔数;第24周收集卵巢制成HE染色切片进行观察;最后用小鼠血清进行小鼠及犬卵透明带的间接免疫荧光实验。结果显示,1)实验组小鼠从初免第2周就产生了抗CZP3的抗体,并且与阴性对照组之间的差异有统计学意义(P<0.05);第24周实验组的抗体水平与阴性对照组之间的差异有高度统计学意义(P<0.01)。2)第6周血清中的抗体1∶4 000倍稀释时,实验组与阴性对照组之间的差异有高度统计学意义(P<0.01)。3)小鼠生育率由阴性对照组的100%降低至实验组的50%,平均产仔数由阴性对照组的(6.667±0.422)只降至实验组的(2.500±1.455)只,且实验组的抗体水平与产仔数呈高度负相关。4)卵巢HE染色切片结果显示,CZP3 DNA疫苗...     

The proteasome regulates the interaction between Cx43 and ZO-1

Gap junction (GJ) intercellular communication (GJIC) is vital to ensure proper cell and tissue function. GJ are multimeric structures composed of proteins called connexins. Modifications on stability or subcellular distribution of connexins have a direct impact on the extent of GJIC. In this study we have investigated the role of the proteasome in regulation of connexin 43 (Cx43) internalization. Although the participation of both the proteasome and lysosome has long been suggested in Cx43 degradation, the molecular mechanisms whereby proteasome contributes to regulate Cx43 internalization and intercellular communication are still unclear. The results presented in this study envision a new mechanism whereby proteasome regulates GJIC by modulating interaction between Cx43 and ZO-1. Immunoprecipitation experiments, in the presence of proteasome inhibitors, together with immunofluorescence data indicate that the proteasome regulates interaction between Cx43 and ZO-1. Overexpression of the PDZ2 domain of ZO-1 and the expression of Cx-43 fused in frame with a V5/HIS tag, suggest that interaction between the two proteins occurs through the PDZ2 domain of ZO-1 and the C-terminus of Cx43. When interaction between Cx43 and ZO-1 is reduced, as in the presence of proteasome inhibitors, Cx43 accumulates, forming large GJ plaques at plasma membrane. Data presented in this article suggest a new pathway whereby alterations in proteasome activity may impact on GJIC as well as on non-junctional communication with extracellular environment, contributing to cell and tissue dysfunction.     

Staphylococcus aureus-derived peptidoglycan induces Cx43 expression and functional gap junction intercellular communication in microglia

Gap junctions serve as intercellular conduits that allow the exchange of small molecular weight molecules (up to 1 kDa) including ions, metabolic precursors and second messengers. Microglia are capable of recognizing peptidoglycan (PGN) derived from the outer cell wall of Staphylococcus aureus, a prevalent CNS pathogen, and respond with the robust elaboration of numerous pro-inflammatory mediators. Based on recent reports demonstrating the ability of tumor necrosis factor-alpha and interferon-gamma to induce gap junction coupling in macrophages and microglia, it is possible that pro-inflammatory mediators released from PGN-activated microglia are capable of inducing microglial gap junction communication. In this study, we examined the effects of S. aureus-derived PGN on Cx43, the major connexin in microglial gap junction channels, and functional gap junction communication using single-cell microinjections of Lucifer yellow (LY). Exposure of primary mouse microglia to PGN led to a significant increase in Cx43 mRNA and protein expression. LY microinjection studies revealed that PGN-treated microglia were functionally coupled via gap junctions, the specificity of which was confirmed by the reversal of activation-induced dye coupling by the gap junction blocker 18-alpha-glycyrrhetinic acid. In contrast to PGN-activated microglia, unstimulated cells consistently failed to exhibit LY dye coupling. These results indicate that PGN stimulation can induce the formation of a functional microglial syncytium, suggesting that these cells may be capable of influencing neuro-inflammatory responses in the context of CNS bacterial infections through gap junction intercellular communication.     

Cx43 在调节胃肠运动障碍机制中的研究进展

胃肠运动功能障碍是许多胃肠道疾病及其他疾病的重要临床表现,其发病率高达胃肠道疾病的70%以上。缝隙连接蛋白43(connexin 43,Cx43)是细胞间隙连接通讯中最重要的间隙连接蛋白,对胃肠道动力的形成和调节起着关键性作用。中西医治疗胃肠道疾病临床疗效显著,但其起效的分子机制尚未阐释清楚。本文从Cx43的细胞间隙连接通讯的角度,对Cx43在调节胃肠运动障碍机制中的研究进展作一综述,为进一步探究中西医调节胃肠运动障碍的机制研究奠定基础。     

A Potential Role for Cx43-Hemichannels in Staurosporin-Induced Apoptosis

To address the role of gap junction hemichannels in apoptosis, the cell death induced by staurosporine (ST) was evaluated in wild type HeLa cells (HeLa-WT) and transfectants expressing either full-length connexin43 (HeLa-Cx43) or a C-terminal truncation of Cx43 (HeLa-ΔCT). Cell death was measured with fluorescence-activated cell sorting (FACS), both DNA and nuclear fragmentation methods and assays for PARP and caspase 3. The ST-mediated cell death was accelerated in HeLa-Cx43 cells compared to HeLa-WT and HeLa-ΔCT. To determine why HeLa-Cx43 cells were more susceptible to ST, the phosphorylation state and the localization of Cx43 protein within cells were examined using specific Cx43 antibodies. The phosphorylated forms of Cx43 were sharply reduced in HeLa-Cx43 cells treated with ST. Moreover, in ST-treated HeLa-Cx43 cells, Cx43 was mainly observed at the cell surface. In contrast, the truncated form of Cx43 found in HeLa-ΔCT cells, which lacks many of the normal phosphorylation sites, was observed in the cytosol with ST treatment. To examine the hemichannels in the plasma membranes of ST-treated HeLa-Cx43 cells, several dye uptake methods using carboxyfluorescein and propidium iodide were employed. While the number of fluorescent cells did not change in HeLa-WT and HeLa-ΔCT cells with ST treatment, the number of fluorescent HeLa-Cx43 cells increased more than ten-fold. These results indicate that the increases in cell surface Cx43 seen with immunofluorescence and the elevated hemichannel activities detected with dye uptake could help explain the accelerated cell death observed in ST-treated HeLa-Cx43 cells.     

草原兔尾鼠卵透明带3在Pichia pastoris酵母中的分泌表达

本研究通过酵母Pichia pastoris系统表达草原兔尾鼠卵透明带3(IZP3)蛋白．获得控制害鼠生育研究的抗原物质。根据本实验室克隆获得的IZP3基因序列设计引物．并分别在5’引物和3’引物中引入了EcoR Ⅰ和Xba Ⅰ酶切位点。经PCR扩增,将IZP3克隆至穿梭质粒pSuper Y上,获得的重组穿梭质粒pSuper Y—IZP3经线性化后．采用电激法将重组穿梭质粒转入酵母SMD1168菌株中．Zeocin 筛选阳性克隆,经小瓶发酵后,取上清作SDS—PAGE和Weaterm—blot检测,结果表明IZP3在酵母中得到了成功表达,表达产物的分子量约为55kD．为IZP3免疫不育控制鼠害的研究提供了检测抗原。     

A Potential Role for Cx43-Hemichannels in Staurosporin-Induced Apoptosis

To address the role of gap junction hemichannels in apoptosis, the cell death induced by staurosporine (ST) was evaluated in wild type HeLa cells (HeLa-WT) and transfectants expressing either full-length connexin43 (HeLa-Cx43) or a C-terminal truncation of Cx43 (HeLa-ΔCT). Cell death was measured with fluorescence-activated cell sorting (FACS), both DNA and nuclear fragmentation methods and assays for PARP and caspase 3. The ST-mediated cell death was accelerated in HeLa-Cx43 cells compared to HeLa-WT and HeLa-ΔCT. To determine why HeLa-Cx43 cells were more susceptible to ST, the phosphorylation state and the localization of Cx43 protein within cells were examined using specific Cx43 antibodies. The phosphorylated forms of Cx43 were sharply reduced in HeLa-Cx43 cells treated with ST. Moreover, in ST-treated HeLa-Cx43 cells, Cx43 was mainly observed at the cell surface. In contrast, the truncated form of Cx43 found in HeLa-ΔCT cells, which lacks many of the normal phosphorylation sites, was observed in the cytosol with ST treatment. To examine the hemichannels in the plasma membranes of ST-treated HeLa-Cx43 cells, several dye uptake methods using carboxyfluorescein and propidium iodide were employed. While the number of fluorescent cells did not change in HeLa-WT and HeLa-ΔCT cells with ST treatment, the number of fluorescent HeLa-Cx43 cells increased more than ten-fold. These results indicate that the increases in cell surface Cx43 seen with immunofluorescence and the elevated hemichannel activities detected with dye uptake could help explain the accelerated cell death observed in ST-treated HeLa-Cx43 cells.     

Some Oculodentodigital Dysplasia-Associated Cx43 Mutations Cause Increased Hemichannel Activity in Addition to Deficient Gap Junction Channels

Oculodentodigital dysplasia (ODDD) is a dominantly inherited human disorder associated with different symptoms like craniofacial anomalies, syndactyly and heart dysfunction. ODDD is caused by mutations in the GJA1 gene encoding the gap junction protein connexin43 (Cx43). Here, we have characterized four Cx43 mutations (I31M, G138R, G143S and H194P) after stable expression in HeLa cells. In patients, the I31M and G138R mutations showed all phenotypic characteristics of ODDD, whereas G143S did not result in facial abnormalities and H194P mutated patients exhibited no syndactylies. In transfected HeLa cells, these mutations led to lack of the P2 phosphorylation state of the Cx43 protein, complete inhibition of gap junctional coupling measured by neurobiotin transfer and increased hemichannel activity. In addition, altered trafficking and delayed degradation were found in these mutants by immunofluorescence and pulse-chase analyses. In G138R and G143S mutants, the increased hemichannel activity correlated with an increased half-time of the Cx43 protein. However, the I31M mutated protein showed no extended half-time. Thus, the increased hemichannel activity may be directly caused by an altered conformation of the mutated channel forming protein. We hypothesize that increased hemichannel activity may aggravate the phenotypic abnormalities in ODDD patients who are deficient in Cx43 gap junction channels. Radoslaw Dobrowolski and Annette Sommershof contributed equally to this work.     

HeLa细胞中缝隙连接蛋白Cx26/Cx32的表达及其功能调控

目的 在HeLa宫颈癌细胞中研究不同浓度的多西环素对缝隙连接蛋白Cx26/Cx32表达及由其形成的缝隙连接通讯功能的影响.方法 采用Western印迹检测HeLa细胞中Cx26/Cx32的蛋白表达;荧光示踪实验用于检测HeLa细胞中由Cx26/Cx32形成的缝隙连接通讯功能.结果 Western印迹结果显示多西环素在0.01～1 μg/ml的范围内,随着剂量的增加,Cx26/Cx32蛋白表达水平增加;荧光示踪实验结果显示HeLa细胞之间的荧光传递随着多西环素增加也相应增强.结论 采用加入不同浓度多西环素的方法,可制备缝隙连接通讯功能强弱不同的细胞模型.     

Effect of thioridazine on gap junction intercellular communication in connexin 43-expressing cells

Propagation of electrical activity between myocytes in the heart requires gap junction channels, which contribute to coordinated conduction of the heartbeat. Some antipsychotic drugs, such as thioridazine and its active metabolite, mesoridazine, have known cardiac conduction side-effects, which have resulted in fatal or nearly fatal clinical consequences in patients. The physiological mechanisms responsible for these cardiac side-effects are unknown. We tested the effect of thioridazine and mesoridazine on gap junction-mediated intercellular communication between cells that express the major cardiac gap junction subtype connexin 43. Micromolar concentrations of thioridazine and mesoridazine inhibited gap junction-mediated intercellular communication between WB-F344 epithelial cells in a dose-dependent manner, as measured by fluorescent dye transfer. Kinetic analyses demonstrated that inhibition by 10 μmol/L thioridazine occurred within 5 min, achieved its maximal effect within 1 h, and was maintained for at least 24 h. Inhibition was reversible within 1 h upon removal of the drug. Western blot analysis of connexin 43 in a membrane-enriched fraction of WB-F344 cells treated with thioridazine revealed decreased amounts of unphosphorylated connexin 43, and appearance of a phosphorylated connexin 43 band that co-migrated with a “hyperphosphorylated” connexin 43 band present in TPA-inhibited cells. When tested for its effects on cardiomyocytes isolated from neonatal rats, thioridazine decreased fluorescent dye transfer between colonies of beating myocytes. Microinjection of individual cells with fluorescent dye also showed inhibition of dye transfer in thioridazine-treated cells compared to vehicle-treated cells. In addition, thioridazine, like TPA, inhibited rhythmic beating of myocytes within 15 min of application. In light of the fact that the thioridazine and mesoridazine concentrations used in these experiments are in the range of those used clinically in patients, our results suggest that inhibition of gap junction intercellular communication may be one factor contributing to the cardiac side-effects observed in some patients taking these medications.     

Connexin43 levels are increased in mouse neural crest cells exposed to homocysteine

BACKGROUND: Elevated homocysteine levels during embryonic development can result in neural tube and cardiovascular defects. The mechanisms that underlie the toxic effect of homocysteine are largely unknown. METHODS: We cultured mouse neural tube explants to study the effects of homocysteine on the migratory behavior of neural crest cells and on the levels of the gap junction protein Connexin43 (C x 43) and the actin- and C x 43-interacting protein ZO-1. RESULTS: Homocysteine exposure resulted in a significantly augmented maximal migration distance (MMD). The level of C x 43 immunolabeling was 2 times higher in the cytoplasm and cell protrusions of neural crest cells in homocysteine-treated cultures than in control cultures. Furthermore, colocalization of C x 43 and ZO-1 was increased in neural crest cell protrusions by this treatment. CONCLUSION: Increased C x 43 levels were previously shown to result in abnormal embryonic development. Our data raises the hypothesis that the embryotoxic effects of homocysteine may be mediated in part by its effects on C x 43 expression level and gap junction function in neural crest cells.