Immunohistochemistry using an antibody to unphosphorylated connexin 43 to identify human myometrial interstitial cells

Background

Myometrial smooth myocytes contract as a result of electrical signalling via a process called excitation-contraction coupling. This process is understood in great detail at the cellular level but the generation and coordination of electrical signals throughout the myometrium are incompletely understood. Recent evidence concerning the vital role of interstitial cells of Cajal in tissue-level signalling in gastrointestinal tract, and the presence of similar cells in urinary tract smooth muscle may be relevant for future research into myometrial contractility but there remains a lack of evidence regarding these cells in the myometrium.

Methods

Single stain immunohistochemical and double stain immunofluorescence techniques visualised antibodies directed against total connexin 43, unphosphorylated connexin 43, KIT, alpha-SMA and prolyl 4-hydroxylase in myometrial biopsies from 26 women representing all stages of reproductive life.

Results

Myometrial smooth myocytes from term uterine biopsies expressed connexin 43 in a punctate pattern typical of gap junctions. However, on the boundaries of the smooth muscle bundles, cells were present with a more uniform staining pattern. These cells continued to possess the same staining characteristics in non-pregnant biopsies whereas the smooth myocytes no longer expressed connexin 43. Immunohistochemistry using an antibody directed against connexin 43 unphosphorylated at serine 368 showed that it is this isoform that is expressed continually by these cells. Double-stain immunofluorescence for unphosphorylated connexin 43 and KIT, an established marker for interstitial cells, revealed a complete match indicating these cells are myometrial interstitial cells (MICs). MICs had elongated cell processes and were located mainly on the surface of the smooth muscle bundles and within the fibromuscular septum. No particular arrangement of cells as plexuses was observed. Antibody to prolyl 4-hydroxylase identified fibroblasts as separate from MICs.

Conclusion

MICs are identified consistently on the boundaries of smooth muscle bundles in both the pregnant and non-pregnant uterus and are distinct from fibroblasts. The uniform distribution of connexin 43 on the cell membrane of MICs, rather than localisation in gap junction plaques, may represent the presence of connexin hemichannels. This antibody specificity may aid future study of this potentially important cell type.     

Effect of progesterone and oestradiol on expression of connexin43 in cultured human myometrium cells

In human myometrium, the formation of gap junctions at various stages of labour and in correlation with the concentration of progesterone and oestradiol in maternal blood was described previously by electron microscopy and laser confocal microscopy of immunohistochemically stained myometrial sections. The present investigation focused on the effect of continuous exposure of isolated myometrial tissue to progesterone and oestradiol on the number of gap junction plaques in human myometrium cells in vitro. The presence of gap junctions was evaluated by immunocytochemistry with antibodies against gap junction protein, connexin43 (Cx43). Human myometrial cells were isolated from biopsies obtained from term pregnant women who had an elective caesarean operation in the 37th or 40th week of pregnancy. The dispersed myometrial cells that were obtained by limited enzymatic digestion of the myometrial samples were maintained in monolayer culture for 1, 3 and 6 days in the presence of medium that contained foetal bovine serum and the steroids at different concentration. In primary culture, as well as after several passages, the characteristics of these cells were morphologically and biochemically similar to those of smooth muscle cells and myometrial tissue. The obtained results showed that the cells in culture responded synchronously to the increased concentrations of oestradiol/progesterone mixtures. The number of gap junctions increased significantly on days 1, 3 and 6 in culture and showed positive correlation (p < 0.05) with the cell number when the concentration of oestradiol was raised to 1 microgram/mL in the progesterone ratio (1.0 microgram/0.5 microgram/mL). No significant correlation, however, in connexin43 gap junction number versus cell number was observed between the six experimental groups treated with progesterone only.     

Immunohistochemical analysis of connexins 26, 32 and 43 in rat uterus during late pregnancy: lack of connexin 26 in the myometrium

The spatial and temporal patterns of expression of connexin 26, connexin 32 and connexin 43 were investigated in rat uterus at days 17, 19 and 22 of pregnancy and during delivery (23 days) by immunocytochemistry, Gap junctions, which are essential for the development of labour, are known to undergo rapid increase in the rat myometrium at the end of pregnancy. The expression of connexin 43, the major myometrial gap junction protein, was low throughout pregnancy but increased immediately before the onset of labour (day 22). It was found predominantly in the myometrium, although limited staining was also apparent in the stroma. Immunolabelling revealed the presence of connexins 26 and 32 in uterine luminal epithelial cells on days 17 and 19 of pregnancy, with a marked increase in connexin 26 expression at days 19, 22 and 23; however, marked expression of connexin 32 was apparent only at day 23. No immunoreactivity for either connexin 26 or 32 was found in myometrial cells at any stage of pregnancy. We conclude, contrary to other recent reports, that connexin 26 is not a gap junction protein of the rat myometrial smooth muscle cell. © 1998 Chapman & Hall     

Immunocytochemical demonstration of the gap junction proteins connexin 43 and connexin 45 in the musculature of the rat small intestine

The immunohistochemical localization of connexin (Cx) 43 and Cx 45 in the musculature of the rat small intestine was studied at the ultrastructural level, with special reference to the interstitial cells of Cajal in the deep muscular plexus region (ICC-DMP). Cx 43 was localized at gap junctions formed between every group of cells, i.e., smooth muscle cell~smooth muscle cell, smooth muscle cell--ICC-DMP and ICC-DMP--ICC-DMP. In contrast, Cx 45 immunoreactivity was only detected at gap junctions between ICC-DMP--ICC-DMP. Since different types of Cx molecules have different properties for electrical and chemical coupling of cells, it is suggested that the homotypic network of ICC-DMP connected with Cx 45 gap junctions may function as an independent compartment segregated from the whole cellular network including the smooth muscle cells connected with Cx 43 gap junctions. It is further speculated that the ICC-DMP of the rat small intestine communicate with each other and with smooth muscle cells via the passage of messenger molecules through Cx 43, but they may use an additional mechanism, as yet unknown, for communications restricted to other ICC-DMP.     

Morphology of the porcine myometrium during parturition

The ultrastructure of the porcine myometrium collected at well-defined stages during parturition was investigated by transmission electron microscopy. The morphology of the parturient myometrium resembled in general that in pregnant and non-pregnant pigs. The diameter of the smooth muscle cells was, however, about twice that of non-pregnant myometrium. Thick myofilaments were numerous. The number of caveolae seemed to be higher in parturient compared with non-pregnant and pregnant cells. Gap junctions occurred richly and were large, while the intrinsic innervation was very scanty. To conclude, the endocrinological changes in the pig taking place just prior to parturition, are translated into morphological changes by stimulating the formation of uterine gap junctions. This provides low-resistance pathways between the muscle cells and activates the myometrium for the delivery process.     

Complex effects of imatinib on spontaneous and oxytocin-induced contractions in human non-pregnant myometrium

Human myometrium includes two important cell populations involved in its contractility: smooth muscle fibers and interstitial cells. The pacemaking mechanism is not yet identified, but it is possible that myometrial smooth muscle cells contract in response to a signal generated by c-kit positive interstitial cells. The aim of this study was to investigate the effects of imatinib as a c-kit receptor antagonist on the spontaneous or oxytocin (OT) induced contractions of human non-pregnant myometrium in vitro. Myometrial strips were obtained from non-pregnant women (reproductive age) undergoing hysterectomy for benign indications. The strips were suspended in organ baths for recording of isometric tension. Imatinib effects were assessed on spontaneous contraction and after preexposure to OT.Direct exposure of myometrial strips to imatinib inhibits both amplitude and frequency of contractions (80-320 μM) in a dose dependent manner. Amplitude reverted back to 90% of the baseline amplitude by consequent addition of imatinib (until 480 μM). Total inhibition of myometrial contraction was obtained after addition of OT 60 nM. If myometrium was pre-exposed to OT (320 nM), imatinib 80-160 μm increased amplitude, while decreasing frequency. These data provide evidence that telocytes may be involved as modulators of the spontaneous contractions of the non-pregnant human uterus, via a tyrosine-kinase independent signaling pathway.     

Spatiotemporal expression of three gap junction gene products involved in fetomaternal communication during rat pregnancy.

The expression of three different members of the gap junction multigene family, alpha 1 (Cx43), beta 1 (Cx32), and beta 2 (Cx26), was analysed in the rat implantation chamber (a structural unit containing fetal, extraembryonic and maternal components within the pregnant uterus) during mid- and late stages of gestation as well as in the delivering, post-partum and non-pregnant uterus. A differential, spatiotemporal and cell-type-specific regulation of gap junctional coexpression was observed for beta 1 and beta 2 in all epithelia examined (visceral, luminal and glandular), as well as for alpha 1 and beta 2 in decidual cells and keratinocytes of the fetal epidermis. alpha 1 antigen was detected in the mesometrial stroma, mesometrial myometrium, connective tissue, mesothelia of the amnion and visceral yolk sac and in the allantoic mesodermal layer throughout gestation. In addition, expression of alpha 1 in the placental basal zone and trophoblast giant cells coincided with the differentiation of these cells. beta 2 expression was observed prominently in the chorionic villi of the placental labyrinth. The presence of beta 1 and beta 2 in the visceral epithelium (visceral yolk sac = the primary route for embryonic nourishment prior to the formation of the chorioallantoic placenta) and beta 2 in the chorionic villi (placental barrier = the major fetomaternal exchange route) suggests that gap junctions have an important role in fetomaternal communication.     

Expression of connexin 37, 40 and 43 in rat mesenteric arterioles and resistance arteries

Connexins are the protein constituents of gap junctions which mediate intercellular communication in most tissues. In arterioles gap junctions appear to be important for conduction of vasomotor responses along the vessel. Studies of the expression pattern of connexin isoforms in the microcirculation are sparse. We investigated the expression of the three major vascular connexins in mesenteric arterioles (diameter <50 micro m) from male Sprague-Dawley rats, since conducted vasomotor responses have been described in these vessels. The findings were compared with those obtained from upstream small resistance arteries. Indirect immunofluorescence techniques were used on whole mounts of mesenteric arterioles and on frozen sections of resistance arteries (diameter approximately 300 micro m). Mesenteric arterioles expressed Cx40 and Cx43 in the endothelial layer, and Cx37 was found in most but not all vessels. Connexins were not demonstrated in the media. In resistance arteries endothelial cells expressed Cx37, Cx40 and Cx43. Ultrastructural studies of mesenteric arterioles confirmed that gap junction plaques between endothelial cells are present, whereas myoendothelial, or smooth muscle cell gap junctions could not be demonstrated. The findings suggest that smooth muscle cells in mesenteric arterioles may not be well coupled and favour that conducted vasomotor responses in these vessels are propagated through the endothelial cell layer.     

Gap junctions in myometrial cell cultures: evidence for modulation by cyclic adenosine 3':5'-monophosphate.

Primary cultures of myometrial cells from juvenile rats, continuous cultures maintained by serial passage, and a pSV3neotransfected myometrial cell line were established and utilized for the study of development and modulation of gap junctional intercellular communication (GJIC) in vitro. The smooth muscle origin and homogeneity of the cultures were verified by immunofluorescence staining of alpha-smooth muscle actin and cellular desmin. Although gap junctions were not detected in thin sections of juvenile and adult myometrial tissues by transmission electron microscopy, they were detected in cultured myometrial cells derived from juvenile and adult animals. The presence of GJIC in cultured cells was confirmed using a fluorescence recovery after photo-bleaching assay. Administration of exogenous estradiol-17 beta (10(-7) M) resulted in an increase in GJIC in primary and passage 9 myometrial cultures, whereas pSV3neo-transfected myometrial cells were not significantly different from untreated controls. The lack of estrogen responsiveness in pSV3neo-transfected cultures correlated with lower levels of estrogen receptors than in primary cultures. Addition of 1 mM 8-bromo-cAMP resulted in rapid (within 2 min) increases in dye transfer in both control and estradiol-17 beta-primed primary cultures. Uncoupling of cells by treatment with 1 mM 1-octanol, followed by addition of 1 mM 8-bromo-cAMP, resulted in increased GJIC in control and estradiol-17 beta-primed cultures, although up-regulation of GJIC in estradiol-17 beta-primed cultures was much greater than in control cultures. Comparative experiments carried out on a spontaneously immortalized rat granulosa cell line (SIGC), which expresses the same connexin43 species as myometrial cells, exhibited similar responses to exogenous 8-bromo-cAMP following uncoupling of gap junctions with octanol. While the results of these investigations may not be extrapolated to myometrium in vivo, they suggest that myometrial cell culture may offer additional opportunities to explore the temporal expression and modulation of GJIC in myometrium.     

Induction of platelet-derived growth factor receptor expression in smooth muscle cells and fibroblasts upon tissue culturing

The expression of platelet-derived growth factor (PDGF) receptors in porcine uterus and human skin in situ, was compared with that of cultured primary cells isolated from the same tissues. PDGF receptor expression was examined by monoclonal antibodies specific for the B type PDGF receptor and by RNA/RNA in situ hybridization with a probe constructed from a cDNA clone encoding the B type PDGF receptor. In porcine uterus tissue both mRNA and the protein product for the PDGF receptor were detected in the endometrium; the myometrium, in contrast, contained much lower amounts. Moreover, freshly isolated myometrial cells were devoid of PDGF receptors. However, after 1 d in culture receptors appeared, and after 2 wk of culturing essentially all of the myometrial cells stained positively with the anti-PDGF receptor antibodies and contained PDGF receptor mRNA. Similarly, B type PDGF receptors were not detected in normal human skin, but fibroblast-like cells from explant cultures of human skin possessed PDGF receptors. When determined by immunoblotting, porcine uterus myometrial membranes contained approximately 20% of the PDGF receptor antigen compared with the amount found in endometrial membranes. In addition, PDGF stimulated the phosphorylation of a 175-kD component, most likely representing autophosphorylation of the B type PDGF receptor in endometrial membranes, whereas only a marginal phosphorylation was seen in myometrial membranes. Taken together, these results demonstrate that PDGF receptor expression varies in normal tissues and that fibroblasts and smooth muscle cells do not uniformly express the receptor in situ. Furthermore, fibroblasts and smooth muscle cells that are released from tissues are induced to express PDGF receptors in response to cell culturing. The data suggest that, in addition to the availability of the ligand, PDGF-mediated cell growth in vivo is dependent on factors regulating expression of the receptor.     

Gap junction modulation in rat uterus. III. Structure-activity relationships of estrogen receptor-binding ligands on myometrial and serosal cells

A number of steroidal and nonsteroidal estrogen receptor-binding ligands were tested for their ability to affect the formation and internalization of gap junctions in hypophysectomized rat uterine myometrial and serosal cells. Potent estrogen, including diethylstilbestrol, estradiol benzoate (EB), estradiol-17 beta, and the weak estrogens, estriol and estrone, stimulate formation of macular and annular gap junctions in myometrium in a dose-dependent fashion when administered in daily injections over 5 days. Induction of annular gap junctions in the uterine serosal epithelium follows a similar dose-dependent pattern of estrogen stimulation but requires lower levels of hormone to initiate the response. In myometrium, differential stimulation of circular and longitudinal myometrial cell layers was observed, with 3 to 5 times more gap junctions detected in the circular than in the longitudinal layer. Progesterone, estriol, or estrone suppress the myometrial gap junction response to EB when administered concurrently with EB. However, the EB-stimulated appearance of myometrial cell gap junctions was blocked when the progesterone-to-estrogen ratio exceeded 100:1. The estrogen receptor-binding androgens, 5 alpha-androstane-3 beta,17 beta-diol (Adiol) and delta 5-androstene-3 beta,17 beta-diol failed to induce myometrial gap junctions at doses up to 5 mg/day for 5 days, whereas Adiol did induce annular gap junctions in the serosal cells at the highest dosage tested. Of the triphenylethylene derivatives and related compounds evaluated, including mixed isomers of tamoxifen and CI 628, the cis (zuclomiphene, ZUC) and trans (enclomiphene) isomers of clomiphene citrate, and a fixed-ring antiestrogen, nafoxidine, only ZUC was able to induce gap junctions in myometrial and serosal cells. These studies indicate that induction of gap junctions in rat uterine myometrial cells is an estrogen-dependent response that requires higher levels of estrogen than other estrogen-dependent target cell responses in the rodent uterus.     

Connexin40 and connexin43 in mouse aortic endothelium: evidence for coordinated regulation

In the vessel wall, endothelial cells are metabolically and electrically coupled to each other and to the adjacent smooth muscle cells by gap junctions composed of connexins. Gap junctions may be formed from combinations of several different connexin proteins, and deletion of one connexin can lead to modification of the expression of another. To reveal a possible interaction between connexin40 (Cx40) and connexin43 (Cx43) in endothelium, we studied their distribution in vessels from C57Bl/6 and Cx40 knockout mice (Cx40-/-) using immunoblots and immunocytochemistry on aortic cross sections and en face whole mounts. En face preparations from C57Bl/6 mice revealed two distinct pools of Cx43, one pericellular and the other intracellular. Cx40 was largely restricted to the periphery of the cells, and in Cx40-/- mice it was, as expected, undetectable. In the Cx40-/- mice, total Cx43 protein was also modestly reduced (immunoblots), but there was a major redistribution of the protein within the cell. The pericellular component of Cx43 was rendered virtually undetectable, and the intracellular compartments were normal or even slightly elevated. Smooth muscle Cx43 was also reduced in the Cx40-/- animals. These findings indicate that the cellular distribution of Cx43 is dependent on the presence of Cx40, and in view of the profound effects on the pericellular pool of the Cx43, the findings suggest that interactions between Cx40 and Cx43 regulate communication between endothelial cells and perhaps between smooth muscle and endothelial cells as well.     

Parathyroid hormone-related protein treatment of pregnant rats delays the increase in connexin 43 and oxytocin receptor expression in the myometrium

Myometrial quiescence during pregnancy is maintained by progesterone, which suppresses the expression of labor-associated genes such as connexin 43 (Cx43) and the oxytocin receptor (OTR). Parathyroid hormone-related protein (PTHrP) is a smooth muscle relaxant that inhibits myometrial contractions and therefore may act in synergy with progesterone to maintain myometrial quiescence during late pregnancy. We investigated the possibility that PTHrP, like progesterone, could act to suppress the expression of labor-associated genes. Pregnant rats were treated starting on Day 19 with daily i.p. injections of 100 microg/kg PTHrP (human synthetic fragment 1-34). On Day 22 of gestation, there was a significant reduction in the expression of Cx43 (mRNA and protein) and OTR (mRNA) in the myometrium of PTHrP-treated animals, whereas on Day 23 (labor) the expression of both Cx43 and OTR was unchanged by PTHrP treatment. Treatment of pregnant rats with PTHrP did not affect the time of delivery, concentrations of progesterone in maternal plasma, or levels of c-fos, fra-2, or parathyroid hormone/PTHrP receptor mRNA on any gestational day. Because PTHrP treatment delayed the dramatic increase in the expression of Cx43 and OTR, it may be an important factor in the maintenance of the quiescent state of the myometrium at a time when the concentrations of progesterone in maternal circulation decrease. PTHrP treatment did not prevent the increase in Cx43 and OTR gene expression on Day 23 or the timing of labor, suggesting that the effects of PTHrP signaling are overridden with the onset of labor.     

Blockade of connexin 43 expression by stable transfection of antisense cDNA in cultured vascular smooth muscle cells

Gap junctional communication is involved in embryogenesis, cell growth control, and coordinated contraction of cardiac myocytes. It has been hypothesized that gap junctions coordinate responses of vascular cells to constrictor or dilator stimulation. Three connexin (Cx) proteins, 37, 40, and 43, are found in the vasculature. Cx43 gap junctions are widely distributed along the vascular tree, although a precise physiologic role in vascular function is unknown because of a lack of specific functional inhibitors and of suitable animal models. To investigate the role of Cx43 in intercellular communication among vascular smooth muscle (VSM) cells, we selectively modified the expression of the Cx43 gene using antisense cDNA stable transfections in culture. Results show that in cells stably transfected with antisense Cx43 cDNA, gene expression of Cx43 could be reduced to 20% of that observed in vector-transfected cells. In spite of the mRNA and protein reduction, the antisense Cx43 cDNA-transfected cells did not show a significant reduction in dye transfer or a difference in cell growth rate as compared with control. These results suggest either that the residual amount of Cx43 protein is sufficient for dye transfer and growth control or that the dye transfer in these cells can be mediated by Cx40 or other connexin proteins. Therefore, more potent approaches, such as dominant negative and gene knockout, are required to fully block gap junctional communication in VSM cells.     

Cultured myometrial cells establish communicating gap junctions

Myometrial cells were isolated and cultured from term rat uterus. The myometrial origin of the cultures was verified by antibody staining of cellular desmin and alpha-smooth muscle actin. The presence of functional gap junctions was indicated by transfer of radiolabeled nucleotide and microinjected Lucifer yellow dye. The cultured cells expressed mRNA recognized by a connexin43 gap junction cDNA probe. To our knowledge, this is the first report that isolated myometrial cells form gap junctions in culture.     

The fibre dimensions of uterine smooth muscle of the rabbit following treatment by female sex steroids

The effects of female sex hormones on the dimensions of myometrial smooth muscle fibres were studied by using ovariectomized rabbits. After one month of treatment, the fiber dimensions of the outer myometrial layer were measured, using cryostat sections. Calculated smooth muscle fiber volume was found to be in the sequence: control < medroxyprogesterone < estradiol < estradiol + medroxyprogesterone < estradiol alone. The measurements show that medroxyprogesterone-treated uteri contain the narrowest and the longest smooth muscle fibres, while estradiol treatment have the largest cells. This study complements previous observations in showing that medroxyprogesterone alone, or in combination with other modulators, contributes to sustain pregnancy by increasing internal resistance of estradiol-primed myometrial smooth muscle fiber fascicles. Our discussion, based on recent literature, shows that this resistance is ultimately controlled by changes in the myometrium innervation, in the repression of some controlling myofibrillar components, in the expression of specific membrane receptors and ionic channels, and in favoring the switching of molecular connexins in gap junctions, making P paramount in maintaining pregnancy. Moreover, other recent observations have also shown that probably an hcG-like hormone actually control P receptors expression in myometrial smooth muscles.     

Relationship of connexin43 expression to phenotypic modulation in cultured human aortic smooth muscle cells

Transition of arterial smooth muscle cells from the contractile to the synthetic phenotype in vivo is associated with up-regulation of the gap-junctional protein, connexin43 (Cx43). However, the role of increased Cx43 expression in relation to the characteristic features of the synthetic phenotype – altered growth, differentiation or synthetic activity – has not previously been defined. In the present study, growth was induced in cultured human aortic smooth muscle cells by treatment with thrombin and with PDGF-bb; growth arrest was induced by serum deprivation and contact inhibition. Alterations in Cx43 expression and gap-junctional communication were analyzed in relation to expression of markers for contractile differentiation and extracellular matrix synthesis. Treatment with thrombin, but not PDGF-bb, led to up-regulation of Cx43 gap junctions, increased synthetic activity yet also enhanced contractile differentiation. Inhibition of growth by deprivation of serum growth factors in sub-confluent cultures had no effect on Cx43 expression or contractile differentiation. Growth arrest by contact inhibition led to progressive reduction in Cx43 expression, in parallel with progressive increase in expression of differentiation markers but no alteration in synthetic activity. Of a range of stimuli examined, only thrombin had the combined effect of increasing Cx43 gap-junction communication, growth and synthesis, yet it also enhanced contractile differentiation. Down-regulation of Cx43 and improved contractile differentiation occurred only when growth arrest was induced through the contact–inhibition pathway, though, in this instance, synthesis remained undiminished. We conclude that Cx43 levels, though having common correlates, are not exclusively linked to the cell phenotype or the state of growth.     

Evidence for the involvement of myoendothelial gap junctions in EDHF-mediated relaxation in the rat middle cerebral artery

The mechanisms underlying endothelium-dependent hyperpolarizing factor (EDHF) in the middle cerebral artery (MCA) remain largely unresolved. In particular, very little is known regarding the way in which the signal is transmitted from endothelium to smooth muscle. The present study tested the hypothesis that direct communication via myoendothelial gap junctions contributes to the EDHF response in the male rat MCA. EDHF-mediated dilations were elicited in rat MCAs by luminal application of ATP or UTP in the presence of Nomega-nitro-L-arginine methyl ester and indomethacin. Maximum dilation to luminal ATP (10(-4) M) was reduced significantly after incubation with a gap peptide cocktail (9 +/- 4%, n = 6) compared with a scrambled gap peptide cocktail (99 +/- 1%, n = 6, P < 0.05). A gap peptide cocktail had no effect on amplitude of endothelial cell hyperpolarization in response to 3 x 10(-5) M UTP (22 +/- 3 vs. 22 +/- 1 mV, n = 4), whereas smooth muscle cell hyperpolarization was significantly attenuated (17 +/- 1 vs. 6 +/- 1 mV, n = 4, P = 0.004). Connexin (Cx) 37 was localized to smooth muscle and Cx43 to endothelium, whereas Cx40 was found in endothelium and smooth muscle. Electron microscopy revealed the existence of frequent myoendothelial junctions. The total number of myoendothelial junctions per 5 microm of MCA sectioned was 2.5 +/- 0.5. Our results suggest that myoendothelial communication contributes to smooth muscle cell hyperpolarization and EDHF dilation in male rat MCA.     

Distribution of connexin37, connexin40 and connexin43 in the aorta and coronary artery of several mammals

Intercellular communication between cells of the vessel wall is established by a combination of diffusion and convection of humoral and endothelial factors in the extracellular fluid or by direct intercellular contacts present in the form of gap junctions composed of proteins called connexins. At least connexin (Cx)37, Cx40 and Cx43 are expressed in the vessel wall, but disparate findings with regard to the cell specific localisation of connexins in the vasculature indicate that the distribution of connexins may be species and vessel specific. Moreover, differences in expression exist between cells in culture and tissue sections. We performed an inventory immunohistochemical study on the localisation of Cx37, Cx40 and Cx43 on tissue sections of the bovine, micropig and rat aorta and coronary system, which represent morphologically and functionally different types of vessels in the arterial system. We could observe Cx40 labelling most commonly, although with various intensities, between endothelial and smooth muscle cells of the species studied, with the exception of rat aortic smooth muscle cells. The distribution of Cx43 is more differentiated and mostly confined to smooth muscle cells, although it can be detected scarcely between endothelial cells. Cx37, when detectable, is predominantly expressed between endothelial cells in a heterogeneous pattern. We conclude that Cx40 is the constitutive vascular gap junction protein in situ and guarantees cell coupling between cells in the vessel wall. The differentiated distribution of both Cx37 and Cx43 suggests they are involved in more dynamic processes. Accepted: 12 October 1999