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1.
The role of gap junctions in proliferation, differentiation and apoptosis has been recently highlighted. Nevertheless, the molecular mechanisms that control these physiological events by acting on gap junction channels are still unknown. We have recently demonstrated that heteromeric gap junction plaques composed by Cx43 and Cx33 are unstable at the cell boundary and are rapidly internalized by endocytosis. In the present study, we analyze the phosphorylation status of Cx43 in homomeric (Cx43/Cx43) and heteromeric (Cx33/Cx43) complexes and their association with the tyrosine kinase c-Src. Our data show that c-Src interaction and P2 phosphorylation of Cx43, which are essential for homomeric Cx43 complex endocytosis, were altered in the heteromeric Cx33/Cx43 complex: lack of association between Cx33 and activated c-Src and disappearance of the P2 phosphorylated Cx43 isoform. The present findings demonstrate that the interaction of Cx33 with Cx43 within a same heteromeric complex may conduce to channel instability through alteration of the phosphorylation status of Cx43 independently of the control of the c-Src kinase. The data described here emphasize a new mechanism of Cx43 internalization Src kinase-independent. 相似文献
2.
R. C. Burghardt R. Barhoumi T. C. Sewall J. A. Bowen 《The Journal of membrane biology》1995,148(3):243-253
The rapid effects of cAMP on gap junction-mediated intercellular communication were examined in several cell types which express different levels of the gap junction protein, connexin43 (Cx43), including immortalized rat hepatocyte and granulosa cells, bovine coronary venular endothelial cells, primary rat myometrial and equine uterine epithelial cells. Functional analysis of changes in junctional communication induced by 8-bromo-cAMP was monitored by a fluorescence recovery after photobleaching assay in subconfluent cultures in the presence or absence of 1.0 mm 1-octanol (an agent which uncouples cells by closing gap junction channels). Communicating cells treated with 1.0 mm 8-bromo-cAMP alone exhibited significant increases in the percent of fluorescence recovery which were detected within 1–3 min depending on cell type, and junctional communication remained significantly elevated for up to 24 hr. Addition of 1.0 mm 8-bromo-cAMP to cultured cells, which were uncoupled with 1.0 mm octanol for 1 min, exhibited partial restoration of gap junctional permeability beginning within 3–5 min. Identical treatments were performed on cultures that were subsequently processed for indirect immunofluorescence to monitor Cx43 distribution. The changes in junctional permeability of cells correlated with changes in the distribution of immunoreactive Cx43. Cells treated for 2 hr with 10 m monensin exhibited a reduced communication rate which was accompanied by increased vesicular cytoplasmic Cx43 staining and reduced punctate surface staining of junctional plaques. Addition of 1.0 mm 8-bromo-cAMP to these cultures had no effect on the rate of communication or the distribution of Cx43 compared to cultures treated with monensin alone. These data suggest that an effect of cyclic AMP on Cx43 gap junctions is to promote increases in gap junctional permeability by increasing trafficking and/or assembly of Cx43 to plasma membrane gap junctional plaques.We acknowledge the technical assistance of Richard Lewis and Meghan Abella. We thank Dr. Hugh Dookwah for contributions to the myometrial cell isolation protocol and Drs. Stephen H. Safe, Timothy D. Phillips, and Evelyn Tiffany-Castiglioni for helpful discussions. This work was funded by NIH (HD-26182, P42-ES04917, ES05871-01A1), the March of Dimes Birth Defects Foundation Basic Research grant #1-0796, and USDA 92-37203-7952. 相似文献
3.
Kellezi A Grosely R Kieken F Borgstahl GE Sorgen PL 《Protein expression and purification》2008,59(2):215-222
In recent years, reports have identified that many eukaryotic proteins contain disordered regions spanning greater than 30 consecutive residues in length. In particular, a number of these intrinsically disordered regions occur in the cytoplasmic segments of plasma membrane proteins. These intrinsically disordered regions play important roles in cell signaling events, as they are sites for protein–protein interactions and phosphorylation. Unfortunately, in many crystallographic studies of membrane proteins, these domains are removed because they hinder the crystallization process. Therefore, a purification procedure was developed to enable the biophysical and structural characterization of these intrinsically disordered regions while still associated with the lipid environment. The carboxyl terminal domain from the gap junction protein connexin43 attached to the 4th transmembrane domain (TM4-Cx43CT) was used as a model system (residues G178-I382). The purification was optimized for structural analysis by nuclear magnetic resonance (NMR) because this method is well suited for small membrane proteins and proteins that lack a well-structured three-dimensional fold. The TM4-Cx43CT was purified to homogeneity with a yield of 6 mg/L from C41(DE3) bacterial cells, reconstituted in the anionic detergent 1-palmitoyl-2-hydroxy-sn-glycero-3-[phospho-RAC-(1-glycerol)], and analyzed by circular dichroism and NMR to demonstrate that the TM4-Cx43CT was properly folded into a functional conformation by its ability to form α-helical structure and associate with a known binding partner, the c-Src SH3 domain, respectively. 相似文献
4.
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。 相似文献
5.
《FEBS letters》2014,588(8):1339-1348
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. 相似文献
6.
《FEBS letters》2014,588(8):1249-1258
The gap junction family of proteins is widely expressed in mammalian cells and form intercellular channels between adjacent cells, as well as hemichannels, for transport of molecules between the cell and the surrounding environment. In addition, gap junction proteins have recently been implicated as important for the regulation of cell adhesion and migration in a variety of cell types. The gap junction protein connexin43 (Cx43) regulates B lymphocyte adhesion, BCR- and LFA-1-mediated activation of the GTPase Rap1, and cytoskeletal rearrangements resulting in changes to cell shape and membrane spreading. We demonstrate here that the actin cytoskeleton is important for the distribution of Cx43 in the B cell plasma membrane and for other cell processes involving the cytoskeleton. Using shRNA knockdown of Cx43 in B lymphoma cells we show that Cx43 is also necessary for chemokine-mediated Rap 1 activation, motility, CXCL12-directed migration, and movement across an endothelial cell monolayer. These results demonstrate that in addition to its role in B cell spreading, Cx43 is an important regulator of B-cell motility and migration, processes essential for normal B-cell development and immune responses. 相似文献
7.
Afaq Hussain Subhajit Das Sarma Swathy Babu Debnath Pal Jayasri Das Sarma 《Biochimica et Biophysica Acta (BBA)/Molecular Cell Research》2018,1865(10):1423-1436
Chronic exposure to Arsenic pollution in ground water is one of the largest environmental health disasters in the world. The toxicity of trivalent Arsenicals primarily happens due to its interaction with sulfhydryl groups in proteins. Arsenic binding to the protein can change the conformation of the protein and alter its interactions with other proteins leading to tissue damage. Therefore, much importance has been given to the studies of Arsenic bound proteins, for the purpose of understanding the origins of toxicity and to explore therapeutics. Here we study the dynamic effect of Arsenic on Connexin 43 (Cx43), a protein that forms the gap junctions, whose alteration deeply perturbs the cell-to-cell communication vital for maintaining tissue homeostasis. In silico molecular modelling and in vitro studies comparing Arsenic treated and untreated conditions show distinct results. Gap junction communication is severely disrupted by Arsenic due to reduced availability of unaltered Cx43 in the membrane bound form. In silico and Inductively Coupled Plasma Mass Spectrometry studies revealed the interaction of Arsenic to the Cx43 preferably occurs through surface exposed cysteines, thereby capping the thiol groups that form disulfide bonds in the tertiary structure. This leads to disruption of Cx43 oligomerization, and altered Cx43 is incompetent for transportation to the membrane surface, often forming aggregates primarily localizing in the endoplasmic reticulum. Loss of functional Cx43 on the cell surface have a deleterious effect on cellular homeostasis leading to selective vulnerability to cell death and tissue damage. 相似文献
8.
Expression of connexin 43 mRNA in microisolated murine osteoclasts and regulation of bone resorption in vitro by gap junction inhibitors 总被引:4,自引:0,他引:4
Several studies have demonstrated that connexin 43 (Cx43) mediates signals important for osteoblast function and osteogenesis. The role of gap junctional communication in bone resorption is less clear. We have investigated the expression of Cx43 mRNA in osteoclasts and bone resorption cultures and furthermore, the functional importance of gap junctional communication in bone resorption. RT-PCR analysis demonstrated Cx43 mRNA expression in mouse bone marrow cultures and in osteoclasts microisolated from the marrow cultures. Cx43 mRNA was also expressed in bone resorption cultures with osteoclasts and osteoblasts/stromal cells incubated for 48h on devitalized bone slices. An up-regulation of Cx43 mRNA was detected in parathyroid (PTH)-stimulated (0.1 nM) bone resorption. Two inhibitors of gap junction communication, 18alpha-glycyrrhetinic acid (30 microM) and oleamide (100 microM), significantly inhibited PTH- and 1,25-(OH)(2)D(3)-stimulated osteoclastic pit formation. In conclusion, our data indicate a functional role for gap junction communication in bone resorption. 相似文献
9.
Mutations in the zebrafish connexin43 (cx43) gene cause the short fin phenotype, indicating that direct cell-cell communication contributes to bone length. Three independently generated cx43 alleles exhibit short segments of variable sizes, suggesting that gap junctional intercellular communication may regulate bone growth. Dye coupling assays showed that all alleles are capable of forming gap junction channels. However, ionic coupling assays revealed allele-specific differences in coupling efficiency and gating. For instance, oocyte pairs expressing the weakest allele exhibited much higher levels of coupling than either of the strong alleles. Therefore, measurable differences in Cx43 function may be correlated with the severity of defects in bone length. 相似文献
10.
In an attempt to compare the regulation of chick connexin43 channels to those of mammalian connexin43, we found that the nucleotide sequence reported for chick connexin43 differs from that of the chick connexin gene by two codons that had been entered as histidine49 (H49) and valine50 (V50) (accession no. M29003), but are in fact glutamine49 (Q49) and serine50 (S50). Neuro2A cells were transfected with corrected wild-type (Q49/S50) chick connexin43 (accession no. AF233738), the double-replacement Q49H/S50V connexin43, or the single replacement of Q49H or S50V. All clones had gap junctions in membrane based on immunocytochemistry and immunoblots of the triton-resistant membrane fraction. Wild-type transfectants had three conductance states with a predominant channel conductance of 85 ±5 pS. Cells producing the Q49H-Cx43 or the double-replacement Q49H/S50V-Cx43 protein had no detectable connexin43 channels. In contrast, cells expressing S50V-Cx43 gap junctions had channels with reduced conductances (75 ±8 pS) compared to wild-type controls. Low or high pH of the bathing solution had no effect on the Q49H-Cx43 channels. We conclude that glutamine49 is important for channel function, and replacement of this residue with histidine most likely distorts secondary structure of the first extracellular loop, possibly by changing the orientation of conserved cysteines, and this inhibits channel function. The S50V substitution may also cause similar but less severe structural changes. 相似文献
11.
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. 相似文献
12.
Cx23, a connexin with only four extracellular-loop cysteines, forms functional gap junction channels and hemichannels 总被引:1,自引:0,他引:1
Gap junction channels may be comprised of either connexin or pannexin proteins (innexins and pannexins). Membrane topologies of both families are similar, but sequence similarity is lacking. Recently, connexin-like sequences have been identified in mammalian and zebrafish genomes that have only four conserved cysteines in the extracellular domains (Cx23), a feature of the pannexins. Phylogenetic analyses of the non-canonical "C4" connexins reveal that these sequences are indeed connexins. Functional assays reveal that the Cx23 gap junctions are capable of sharing neurobiotin, and further, that Cx23 connexins form hemichannels in vitro. 相似文献
13.
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. 相似文献
14.
The mechanism by which 18beta-glycyrrhetinic acid regulates gap junction intercellular communication (GJIC) remains poorly understood. In this study, treatment of cultured rat neonatal cardiomyocytes with 18beta-glycyrrhetinic acid resulted in dose-dependent inhibition of GJIC as assessed by fluorescent dye transfer analysis. 18beta-Glycyrrhetinic acid induced time-dependent serine/threonine dephosphorylation and redistribution of connexin43 (Cx43) in cardiomyocytes and the induced Cx43 dephosphorylation was prevented by the protein phosphatase inhibitor, calyculin A. However, functional analyses showed that the inhibitory effect of 18beta-glycyrrhetinic acid on dye spreading among cardiomyocytes was not blocked by calyculin A, but was blocked by the Src-selective tyrosine kinase inhibitor, PP2. 18beta-Glycyrrhetinic acid also induced an increase in the levels of phosphorylated Src, and this effect was prevented by PP2. Immunoprecipitation using anti-Cx43 and anti-p-Src antibodies showed that 18beta-glycyrrhetinic acid increased the association between p-Src and Cx43 and induced tyrosine phosphorylation of Cx43. We conclude that the inhibitory effect of 18beta-glycyrrhetinic acid on GJIC in cardiomyocytes involves Src-mediated tyrosine phosphorylation of Cx43. 相似文献
15.
Previously we have shown that during in vivo muscle regeneration differentiating rat primary myoblasts transiently upregulate connexin43 (Cx43) gap junctions and leave cell cycle synchronously. Here, we studied the temporal regulation of Cx expression in relation to functional dye coupling in allogenic primary myoblast cultures using western blotting, immuno-confocal microscopy and dye transfer assays. As in vivo, Cx43 was the only Cx isotype out of Cx26, 32, 37, 40, 43 and 45 found in cultured rat myoblasts by immunostaining. Cultured myoblasts showed similar temporal regulation of Cx43 expression and phenotypic maturation to those regenerating in vivo. Cx43 protein was progressively upregulated in prefusion myoblasts, first by the cytoplasmic assembly in sparse myoblast meshworks and then in cell membrane particles in aligned cells. Dye injection using either Lucifer Yellow alone, Cascade Blue with a non-junction permeant FITC-dextran revealed an extensive gap junction coupling between the sparse interacting myoblasts and a reduced communication between the aligned, but still prefused cells. The aligned myoblasts, uniformly upregulate p21waf1/cip1 and p27kip1 cell cycle control proteins. Taken together, in prefusion myoblasts less membrane-bound Cx43 was found to mediate substantially more efficient dye coupling in the growing cell fraction than those in the aligned post-mitotic myoblasts. These and our in vivo results in early muscle differentiation are consistent with the role of Cx43 gap junctions in synchronizing cell cycle control of myoblasts to make them competent for a coordinated syncytial fusion. 相似文献
16.
Gap junctions are formed by a family of transmembrane proteins, connexins. Connexin43 is a widely studied member of the family, being ubiquitously expressed in a variety of tissues and a target of a large number of disease mutations. The intracellular loop of connexin43 has been shown to include a calmodulin binding domain, but detailed 3-dimensional data on the structure of the complex are not available. In this study, we used a synthetic peptide from this domain to reveal the conformation of the calmodulin-peptide complex by small angle X-ray scattering. Upon peptide binding, calmodulin lost its dumbbell shape, adopting a more globular conformation. We also studied the energetics of the interaction using calorimetry and computational methods. All our data indicate that calmodulin binds to the peptide from cx43 in the classical ‘collapsed’ conformation. 相似文献
17.
During the life cycle of a membrane protein its molecular structure may change and for aggregated proteins this process may be observed on the supramolecular level. Here we demonstrate that this is the case for gap junction channels which maintain cell-cell communication. Freshly synthesized connexins are integrated as hexamers (connexons) into the plasma membrane where they form plaques after pairing with connexons of an attached cell. We inhibited protein trafficking by applying the fungal metabolite brefeldin A (BFA), quantified cell-cell coupling by calcein transfer and fluorescence-activated flow cytometry, and examined the degradation and formation of gap junction plaques by indirect immunofluorescence and immunogold labeling. Under control conditions 50% of the detected plaques were ubiquitylated and less than 10% showed a two-dimensional crystalline packing. One hour after BFA reversal about 60% of the plaques were crystalline and ubiquitylation dropped to 14%. Label for ubiquitin was predominantly found on non-crystalline plaques. We, therefore, conclude that newly formed gap junction plaques are of crystalline morphology which changes to a pleomorphic structure when individual channels are modified during their aging process. This dynamic in plaque morphology correlates with channel inactivation and plaque ubiquitylation. 相似文献
18.
Rüttinger C Bergmann M Fink L Pesch S Seitz K Trautmann A Steger K Konrad L Brehm R 《Histochemistry and cell biology》2008,130(3):537-548
In human testis, gap junctions containing connexin(Cx)43 are located within the seminiferous epithelium between Sertoli cells and between Sertoli and germ cells. Cx43 is known to play a role in the differentiation and proliferation of these cell types. It can further be associated with human seminoma development. The dog has been proposed as a model for studies of the male reproductive system, because of the frequent occurrence of testicular neoplasms. Thus, we investigated Cx43-mRNA and -protein expression in testes of normal prepubertal dogs, adult dogs, and in canine testicular tumors. Sertoli cells in prepubertal cords express Cx43 mRNA, but do synthesize only less Cx43 protein. Within the seminiferous tubules, Cx43 mRNA was detected in Sertoli cells, spermatogonia, and spermatocytes. Cx43 protein was mainly present in the basal compartment. In canine testicular tumors Cx43 mRNA was detectable in both seminoma and neoplastic Sertoli cells, whereas Cx43 protein was only found in neoplastic Sertoli cells. Our data indicate that Cx43 is regulated differentially in testicular tumors and that alterations of Cx43 expression may be involved in the pathogenesis of canine testicular malignancies. This study represents the first morphological work on the spatiotemporal expression pattern of Cx43 in normal and neoplastic canine testis. 相似文献
19.
Scott R. Johnstone Angela K. Best Catherine S. Wright Brant E. Isakson Rachel J. Errington Patricia E. Martin 《Journal of cellular biochemistry》2010,110(3):772-782
Connexins (Cxs) and gap junction (GJ)‐mediated communication have been linked with the regulation of cell cycle traverse. However, it is not clear whether Cx expression or GJ channel function are the key mediators in this process or at what stage this regulation may occur. We therefore tested the hypothesis that enhanced Cx expression could alter the rate of cell cycle traverse independently of GJ channel function. Sodium butyrate (NaBu) or anti‐arrhythmic peptide (AAP10) were used to enhance Cx expression in HeLa cells stably expressing Cx43 (HeLa‐43) and primary cultures of human fibroblasts (HFF) that predominantly express Cx43. To reduce GJ‐mediated communication, 18‐α‐glycyrrhetinic acid (GA) was used. In HeLa‐43 and HFF cells, NaBu and AAP10 enhanced Cx43 expression and increased channel function, while GA reduced GJ‐mediated communication but did not significantly alter Cx43 expression levels. Timelapse microscopy and flow cytometry of HeLa‐WT (wild‐type, Cx deficient) and HeLa‐43 cells dissected cell cycle traverse and enabled measurements of intra‐mitotic time and determined levels of G1 arrest. Enhanced Cx43 expression increased mitotic durations corresponding with a G1 delay in cell cycle, which was linked to an increase in expression of the cell cycle inhibitor p21waf1/cip1 in both HeLa‐43 and HFF cells. Reductions in Cx43 channel function did not abrogate these responses, indicating that GJ channel function was not a critical factor in reducing cell proliferation in either cell type. We conclude that enhanced Cx43 expression and not GJ‐mediated communication, is involved in regulating cell cycle traverse. J. Cell. Biochem. 110: 772–782, 2010. © 2010 Wiley‐Liss, Inc. 相似文献
20.
Rosy Joshi-Mukherjee Wanda Coombs Christine Burrer Isabel Alvarez de Mora Mario Delmar Steven M. Taffet 《Cell communication & adhesion》2007,14(2):75-84
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. 相似文献