Effect of estradiol-17 beta and prostaglandins on rat myometrial gap junctions

The effects of estradiol-17 beta and indomethacin on myometrial gap junction development, plasma estradiol levels and uterine PGF2 alpha content were evaluated in immature and/or ovariectomized, mature rats. High doses of estradiol stimulated the development of gap junctions in the myometrium of animals from both groups. Concomitant injections of estradiol and indomethacin to ovariectomized rats potentiated the estradiol stimulation of gap junctions. Plasma estradiol levels were lower in ovariectomized rats treated with both estradiol and indomethacin than in animals treated with estradiol alone. Indomethacin also enhanced the uptake and retention of 3H-estradiol into uterine tissues. Uterine PGF2 alpha content of ovarectomized rats was stimulated with the initial injection of estradiol but thereafter, the PGF2 alpha content declined with repeated injections to values lower than that observed in controls. Prostaglandin F2 alpha content in tissues from rats treated with estradiol plus indomethacin were also higher than that observed in rats treated with indomethacin alone, however, the values obtained in both groups were significantly lower compared to those from control animals. These results are consistent with the hypothesis that steroid hormones and prostaglandins regulate myometrial gap junction formation. Regulation of myometrial gap junctions by prostaglandins is discussed with respect to a down regulation of the steroid-receptor mechanism and effects on cyclo-oxygenase or lipoxygenase products.     

Effect of estradiol-17ß and prostaglandins on rat myometrial gap junctions

The effects of estradiol-17ß and indomethacin on myometrial gap junction development, plasma estradiol levels and uterine PGF_2α content were evaluated in immature and/or ovariectomized, mature rats. High doses of estradiol stimulated the development of gap junctions in the myometrium of animals from both groups. Concomitant injections of estradiol and indomethacin to ovariectomized rats potentiated the estradiol stimulation of gap junctions. Plama estradiol levels were lower in ovariectomized rats treated with both estradiol and indomethacin than in animals treated with estradiol alone. Indomethacin also enhanced the uptake and retention of ³H-estradiol into uterine tissues. Uterine PGF_2α content of ovarectomized rats was stimulated with the initial injection of estradiol but thereafter, the PGF_2α content declined with repeated injections to values lower than that observed in controls. Prostaglandin F_2α content in tissues from rats treated with estradiol plus indomethacin were also higher than that observed in rats treated with indomethacin alone, however, the values obtained in both groups were significantly lower compared to those from control animals. These results are consistent with the hypothesis that steroid hormones and prostaglandins regulate myometrial gap junction formation. Regulation of myometrial gap junctions by prostaglandins is discussed with respect to down regulation of the steroid-receptor mechanism and effects on cyclo-oxygenase or lipoxygenase products.     

Effects of tamoxifen citrate and cycloheximide on estradiol induction of rat myometrial gap junctions

Longitudinal muscle of myometrial tissues from immature rats were examined by quantitative thin section electron microscopy for the presence of gap junctions after treatment with estradiol with and without tamoxifen, and cycloheximide for 1-6 days. Gap junctions were present between myometrial cells on days 4, 5, and 6 after treatment with estradiol (500 micrograms/day). Tamoxifen administered concomitantly with estradiol over the 6-day period completely prevented induction of the junctions. Gap junctions were not detected in the myometrium after treatment with tamoxifen alone. Administration of cycloheximide together with estradiol on day 0 of the 6-day period had no effect on gap junction frequency but resulted in a reduction in gap junction size in the myometrium after continued treatment with the hormone. Treatment with cycloheximide on day 1, however, significantly suppressed the effect of further estradiol treatment on the induction of gap junctions in the myometrium. Junctions were not visible in the tissues from animals treated with cycloheximide alone or in the control groups treated with sesame oil. These results indicate that estradiol influences the presence of gap junctions in the myometrium by regulating the synthesis of gap junction proteins through the steroid receptor mechanism.     

Sustained inhibition of rat myometrial gap junctions and contractions by lindane

Background  

Gap junctions increase in size and abundance coincident with parturition, forming an intercellular communication network that permits the uterus to develop the forceful, coordinated contractions necessary for delivery of the fetus. Lindane, a pesticide used in the human and veterinary treatment of scabies and lice as well as in agricultural applications, inhibits uterine contractions in vitro, inhibits myometrial gap junctions, and has been associated with prolonged gestation length in rats. The aim of the present study was to investigate whether brief exposures to lindane would elicit sustained inhibition of rat uterine contractile activity and myometrial gap junction intercellular communication.     

Antioxidants prevent gamma-hexachlorocyclohexane-induced inhibition of rat myometrial gap junctions and contractions

Lindane (gamma-hexachlorocyclohexane) is a commonly used pesticide that bioaccumulates in mammalian adipose tissue. Lindane inhibits gap junctional intercellular communication and oscillatory contractions of pregnant rat myometrium in vitro. The present study investigated the role of oxidative stress in lindane's inhibition of myometrial function in mid-gestation pregnant rat uteri. Lucifer yellow dye was microinjected into cultured myocytes to assess gap junctional intercellular communication. Lindane exposure (100 microM) resulted in a time-dependent, biphasic inhibition of dye transfer. This pattern of inhibition was also seen upon cell exposure to the pro-oxidant, tert-butyl hydroperoxide (100 microM). Lindane's initial and secondary-onset dye transfer inhibitions were reversed by cotreatment and pretreatment with the antioxidants, alpha-tocopherol (25-100 microM), diphenyl-1,4-phenylene diamine (10-30 microM), and superoxide dismutase (100-400 U/ml). D-mannitol (100-300 mM) also reversed lindane's initial dye transfer inhibition. Nitro blue tetrazolium reduction to formazan (measured spectrophotometrically) was elevated upon exposure of cultured cells to lindane or tert-butyl hydroperoxide, indicating the presence of reducing agents. Lipid peroxidation, assessed as thiobarbituric acid-reactive substances, was also elevated in lindane-exposed cell cultures. alpha-Tocopherol reversed this elevation. Finally, uterine contractility was assessed by measuring isometric contractions of uterine strips hung in standard muscle baths. Pretreatment with alpha-tocopherol prevented lindane's abolishment of uterine contractions in vitro. These data support the hypothesis that lindane inhibits uterine contractility and myometrial gap junctions by establishing an oxidative stress environment.     

Structural and functional studies of myometrial gap junctions

Gap junctions are believed to be sites of metabolic and electrical coupling between cells. These contacts are present between myometrial cells immediately prior to and during parturition. We report the results of studies to investigate the control and the function of myometrial gap junctions. Injection of estradiol (500 micrograms/day) with or without progesterone into immature and ovariectomized mature rats demonstrated that estradiol stimulated whereas progesterone suppressed gap junction formation. Indomethacin treatment was also shown to potentiate the action of estradiol. Also, pregnant rats treated with oestradiol developed numerous myometrial gap junctions and aborted their fetuses. These results suggest that the steroid hormones and prostaglandins may control myometrial gap junction development. Diffusion studies of 3H-2-deoxyglucose in longitudinal myometrial strips revealed a significant increase in the diffusion coefficient in delivering versus ante-partum rat tissues. This indicates that there is increased metabolic transfer during parturition when gap junctions are present. The results of these studies show that steroid hormones and prostaglandins may regulate myometrial gap junctions and that metabolic, as well as electrical coupling, of uterine smooth muscle cells increase at parturition concomitant with the development of gap junctions.     

Rapid formation of myometrial gap junctions during parturition in the unilaterally implanted rat uterus

Summary In uterine smooth muscles, gap junction plaques rapidly form during the final stages of gestation. To investigate the related mechanisms, regional differences in myometrial gap junction development in rat uterus were examined quantitatively during delivery, using thin-section and freeze-fracture techniques in combination with light- and electron microscopy.Examination of implanted and nonimplanted horns in the unilaterally ligated rat bicornuate uteri, revealed no differences in the occurrence of gap junction plaques, but after 2 to 4 pups had been delivered, the contracted segments contained more gap junction plaques than did noncontracted segments examined immediately before delivery. In all segments, gap junctions were found more frequently in the circular muscle layers than in the longitudinal muscle layers. Gap junctions ranged in size from 0.002 m² to 0.52 m², but two-thirds were less than 0.1 m². The frequency of small gap junction plaques (less than 0.1 m²) was higher in the noncontracted segment.These results suggest that gap junctions are dynamic structures, and that their formation is controlled not only by general hormonal factors, possibly involved in gap junction increases in the myometrium before delivery, but also by local factors, possibly related to the contraction, that may accelerate an increase in gap junction formation during delivery.     

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.     

Effects of copper on cytoplasmic and nuclear binding of 17 beta-estradiol in the rat uterus

Interference of Cu++ with the initial events in estrogen action was tested by determining Cu++ effects on estradiol-receptor interactions. When immature rat uteri were incubated in vitro with [3H] estradiol ([3H]E2), steroid was bound in cytoplasmic fractions and rapidly accumulated in the nuclear fraction in a manner which was dependent upon time and hormone concentration. Uteri which were preincubated with 2 X 10(-4) M CuCl2 for 40-60 min and then exposed to [3H]E2 were found to have a 30-50% decrease in the amount of steroid bound in the cytoplasmic and nuclear fractions. When copper-treated uteri were exposed to [3H]E2 for variable times, the quantity of steroid bound in the cytoplasmic fraction was markedly depressed and the rate of nuclear accumulation of [3H]E2 was significantly decreased. These results show that Cu++ can inhibit [3H]E2 binding to tissue cytoplasmic receptors in vitro and thereby interfere with hormone delivery to target cell nuclei.     

Modulation of potassium current characteristics in human myometrial smooth muscle by 17beta-estradiol and progesterone

The K(+) channel currents are important modulators of smooth muscle membrane potential and excitability. We assessed whether voltage-gated K(+) currents from human myometrium are regulated by placental steroid hormones during pregnancy and labor. Pregnant human myometrial cells were isolated from samples obtained at cesarean section. Primary cultured cells were treated with 100 nM 17beta-estradiol, 1 microM progesterone, or both hormones in combination for 24 h. Acute effects of the two hormones were also determined. The K(+) currents were recorded using the standard whole-cell, patch-clamp technique. Primary cultures possessed both delayed rectifier (I(KV)) and A-like (I(KA)) voltage-gated K(+) currents. The 24-h 17beta-estradiol treatment caused a hyperpolarizing shift in the steady-state inactivation of both I(KV) and I(KA). Progesterone treatment also shifted the inactivation of I(KA) and increased I(KV) amplitude by 60%-110%. Conversely, the combined treatment had no effect on these currents. Neither 17beta-estradiol (0.1-1 microM) nor progesterone (1-5 microM) had any effect on the K(+) current when applied acutely. These results show that 17beta-estradiol should inhibit myometrial K(+) channel activity, whereas progesterone is likely to have the opposite effect. These results are consistent with the respective procontractile and proquiescence roles for 17beta-estradiol and progesterone in human uterus during pregnancy.     

Hepatic gap junctions in the hepatocarcinogen-resistant DRH rat

Although the gap junction or connexin (Cx) is considered to be a tumor-suppressor, it is also required for tumor promotion. Therefore, we examined hepatic gap junctions in hepatocarcinogen-resistant (DRH) rats. Specifically, we investigated gap junction structure and Cx32 expression during normal conditions and in response to a hepatocarcinogen, 3'-methyl-4-dimethylaminoazobenzene (3'-MeDAB). On a basal diet without 3'-MeDAB, hepatic gap junctions and Cx32 protein expression were greater in DRH rats than in control Donryu rats, as evidenced by morphometry, immunohistochemistry and immunoblotting. On a diet containing 3'-MeDAB, gap junctions and expressed Cx32 were increased significantly in Donryu rats, but not in DRH rats. In this condition, Donryu rats lost weight but DRH rats increased relative liver weight. After 3'-MeDAB treatment, cathepsin D expression in hepatocytes was significantly increased only in Donryu rats, indicating that DRH rats were less susceptible to 3'-MeDAB. The abundance of mitogen-activated protein kinase, some constituent of which might be associated with the degree of Cx protein phosphorylation, was reduced to a greater extent in Donryu than in DRH rats after 3'-MeDAB treatment. The resistance of DRH rats to carcinogenesis may be due partially to their stabilized gap junctions, which could coordinate metabolic coupling to evade 3'-MeDAB toxicity.     

Interactions of 17beta-estradiol and L-norepinephrine on the rat uterus.

Norepinephrine increased the in vitro uptake of 3H-estradiol by the uterus of spayed rats. This effect was observed at 15 and 30 min but not at 90 min. Norepinephrine also increased the binding of 3H-estradiol by the nuclear (p less than 0.02) and the cytosol fractions (p less than 0.01) when incubated with uterine homogenates, suggesting that norepinephrine does not require the presence of the intact tissue to exert its effects. The in vivo uptake of 3H-estradiol and the determination of the number of binding sites were performed in the uterus of rats treated with estradiol and estradiol plus norepinephrine. Norepinephrine alone increased the uptake of 3H-estradiol and the number of binding sites. The highest increment in both parameters was observed in the uterus of rats treated with estradiol plus norepinephrine. The estradiol Ka of the rat uterus cytosol treated with estradiol alone or plus norepinephrine was higher than that observed in the group without estradiol, suggesting the presence of different proteins that bind estradiol. These results indicate that norepinephrine increases the entrance of estradiol into the rat uterus both in vitro and in vivo.     

17β-雌二醇对大鼠海马神经元延迟整流型钾离子通道活动的影响

用膜片箝技术的细胞贴附式和内面向外式,研究17β-雌二醇（E2）对大鼠海马神经元延迟整流型K 通道的影响。结果表明,1．0和10．0nmol／LE2可分别使42pSK 通道开放概率由（67．4t18．2）％下降到（41．22±12．5）％和由（56．3±15．8）％下降到（13,2±12．6）％,通道开放频率由（43．40±6．7）Hz下降到（27．68±9．1）Hz和由（38．19±10．1）Hz下降到（15．79±3．5）Hz,通道平均开放时间缩短,平均关闭时间延长,但通道电流幅度无显著改变,提示E2对海马神经元42pSK 通道的活动具有抑制作用,这种作用可能是激素直接作用于细胞膜的结果。     

2-Methoxyethanol inhibits gap junctional communication in rat myometrial myocytes

The glycol ethers 2-methoxyethanol (2-ME) and 2-ethoxyethanol (2-EE) prolong gestation in rodents. Because gap junctions in the myometrium likely facilitate parturition, the present study examined inhibition of gap junctional communication by 2-ME and 2-EE in myometrial smooth-muscle cell cultures. To measure gap junctional communication, the fluorescent dye Lucifer yellow was injected into cultured cells and the transfer of the dye to adjacent cells was scored with epifluorescence microscopy. The data are presented as the percentage of cells adjacent to the microinjected cell that exhibited dye following microinjection. A 30 min treatment with 32 or 63 mmol/L 2-ME decreased dye transfer to 71% and 63%, respectively (p0.05; control 90%). Similarly, 2-EE inhibited dye transfer, although myometrial cells were less sensitive to 2-EE compared to 2-ME. Dye transfer returned to control levels after 2 h in the continued presence of 2-ME. The primary metabolite of 2-ME, methoxyacetic acid (MAA), had no effect on dye transfer at concentrations equimolar to 2-ME. Because 2-ME and 2-EE inhibited gap junctional communication only at high concentrations and because the inhibition reversed in the continued presence of the compounds, it is suggested that glycol ethers delay parturition by a mechanism independent of a direct action on myometrial gap junctions.     

Cell and toxicant specific phosphorylation of conexin43: effects of lindane and TPA on rat myometrial and WB-F344 liver cell gap junctions

Previous studies showed that the pesticide lindane (gamma-hexachlorocyclohexane) inhibits gap junction intercellular communication in rat myometrial cells. The present study tested the hypothesis that lindane and the phorbol ester 12-O-tetradecanoylphorbol-13-acetate (TPA) inhibit gap junction communication in rat myometrial and liver WBr-F344 cells by the common mechanism of increasing phosphorylation of the gap junction protein connexin43. We evaluated changes of connexin43 phosphorylation using Western blot of standard SDS-PAGE gels and cell immunostaining, and we monitored gap junction communication using microinjection and transfer of Lucifer yellow dye. Exposure of rat myometrial cells to lindane or TPA nearly abolished dye transfer but did not alter the electrophoretic mobility of connexin43, and neither lindane nor TPA increased phosphorylation of connexin43 as assessed by immunoblot with anti-phospho-connexin43 (S368) antibody. However, TPA increased punctate immunofluorescence staining of phospho-connexin43 (S368) in myometrial cells whereas lindane had no such effect. In WBr-F344 cells, lindane and TPA inhibited dye transfer. Lindane increased immunostaining for phospho-connexin43 (S368) in WBr-F344 cells without altering the abundance, electrophoretic mobility or phosphorylation of connexin43 as detected in immunoblots. TPA intensified a slower migrating connexin43 band and increased phospho-connexin43 (S368) in immunoblots, and intensified phospho-connexin43 immunostaining at WBr-F344 cell interfaces and nuclear regions. These results show that phosphorylation of connexin43 at serine 368 occurred in cell and toxicant specific manners and was independent of changes in electrophoretic mobility in standard SDS-PAGE gels. Moreover, lindane inhibited gap junction communication in myometrial cells by a mechanism that was not be explained by changes in phosphorylation of connexin43.     

Internalized gap junctions in ciliary epithelium of rabbit and rat

Summary Transmission electron microscopy was used to examine internalized gap junctions (IGJ) in rabbit and rat ciliary epithelial cells. A prominent feature of all the specimens studied was the presence of different images of IGJ membrane that entrapped a portion of an adjoining cell. We documented and analyzed more than 500 gap junction (GJ) vacuoles and invaginations, the latter comprising less than 20% of all the structures examined. With ten exceptions found in non-pigmented cells, all the IGJ were unidirectionally internalized within the cytoplasm of pigmented epithelial cells. Morphological signs of autophagic degradation of GJ vacuoles were observed. An essential finding was that once a GJ membrane started to invaginate, a lucidation of a part of the protruding cytoplasm occurred; no planar GJ membranes exhibited such an alteration. The present findings suggest that IGJ derived from the epithelium of ciliary processes arise through an invagination-endocytosis mechanism and are degraded autophagically. This phenomenon may be relevant to aqueous humor production.     

Hormonal modulation of gap junctions in rat ovarian follicles

Summary Homocellular gap junctions between granulosa cells and between theca interna cells, and heterocellular gap junctions between granulosa cells and oocytes persist in rat ovarian follicles for as long as 90 days following hypophysectomy. Gonadotrophic and/or steroid hormones are therefore not required for the maintenance of gap junctions between these cells during early follicular growth. However, replacement therapy with estrogen and human chorionic gonadotrophin results in amplification of gap junctions in granulosa and theca interna cells respectively. Within 24 h following hormonal stimulation, growth of gap junctions is characterized by the appearance of formation plaques as observed in freeze-fracture replicas and by the association of microfilamentous material located subadjacent to gap junction membrane observable in thin-sectioned cells.     

Role of catenins in the development of gap junctions in rat cardiomyocytes

Gap junctions are intercellular communicating channels responsible for the synchronized activity of cardiomyocytes. Recent studies have shown that the membrane-associated guanylate kinase protein, zonula occludens-1 (ZO-1) can bind to catenins in epithelial cells and act as an adapter for the transport of the connexin isotype, Cx43 during gap junction formation. The significance of catenins in the development of gap junctions and whether complexes between catenins and ZO-1 are formed in cardiomyocytes are not clear. In this study, immunofluorescence and confocal microscopy showed sequential redistribution of alpha-catenin, beta-catenin, ZO-1, and Cx43 to the plasma membrane when rat cardiomyocytes were cultured in low Ca(2+) (<5 microM) medium, then shifted to 1.8 mM Ca(2+) medium (Ca(2+) switch). Diffuse cytoplasmic staining of alpha-catenin, beta-catenin, ZO-1, and Cx43 was seen in the cytoplasm when cardiomyocytes were cultured in low Ca(2+) medium. Staining of alpha-catenin, beta-catenin, and ZO-1 was detected at the plasma membrane of cell-cell contact sites 10 min after Ca(2+) switch, whereas Cx43 staining was first detected, colocalized with ZO-1 at the plasma membrane, 30 min after Ca(2+) switch. Distinct junctional and extensive cytoplasmic staining of alpha-catenin, beta-catenin, ZO-1, and Cx43 was seen 2 h after Ca(2+) switch. Immunoprecipitation of Triton X-100 cardiomyocyte extracts using anti-beta-catenin antibodies showed that beta-catenin was associated with alpha-catenin, ZO-1, and Cx43 at 2 h after Ca(2+) switch. Intracellular application of antisera against alpha-catenin, beta-catenin, or ZO-1 by electroporation of cardiomyocytes cultured in low Ca(2+) medium inhibited the redistribution of Cx43 to the plasma membrane following Ca(2+) switch. These results suggest the formation of a catenin-ZO-1-Cx43 complex in rat cardiomyocytes and that binding of catenins to ZO-1 is required for Cx43 transport to the plasma membrane during the assembly of gap junctions.