Masahito Oyamada

Regulation of connexin expression by transcription factors and epigenetic mechanisms.

Gap junctions are specialized cell-cell junctions that directly link the cytoplasm of neighboring cells. They mediate the direct transfer of metabolites and ions from one cell to another. Discoveries of human genetic disorders due to mutations in gap junction protein (connexin [Cx]) genes and experimental data on connexin knockout mice provide direct evidence that gap junctional intercellular communication is essential for tissue functions and organ development, and that its dysfunction causes diseases. Connexin-related signaling also involves extracellular signaling (hemichannels) and non-channel intracellular signaling. Thus far, 21 human genes and 20 mouse genes for connexins have been identified. Each connexin shows tissue- or cell-type-specific expression, and most organs and many cell types express more than one connexin. Connexin expression can be regulated at many of the steps in the pathway from DNA to RNA to protein. In recent years, it has become clear that epigenetic processes are also essentially involved in connexin gene expression. In this review, we summarize recent knowledge on regulation of connexin expression by transcription factors and epigenetic mechanisms including histone modifications, DNA methylation, and microRNA. This article is part of a Special Issue entitled: The communicating junctions, roles and dysfunctions.

Differential changes in expression of gap junction proteins connexin 26 and 32 during hepatocarcinogenesis in rats

We examined expressions of the gap junction proteins, connexin 26 (C×26) and 32 (C×32), in preneoplastic and neoplastic lesions during rat hepatocarcinogenesis. A marked reduction in the numher of C×32‐positive gap junctions was observed in 17% of the glutathione S‐transferase placental form‐positive foci, whereas 44% of the foci showed increased expression of C×26. Most hyperplastic nodules exhibited decreased expression of C×32, whereas 16% of the nodules showed increased expression of C×26. In hepatocellular carcinomas, expressions of both C×32 and C×26 were significantly reduced. These results suggest that the expressions of C×32 and 26 are differentially regulated during hepatocarcinogenesis, and that the decrease in C×32 expression occurs earlier, whereas reduction in C×26 expression occurs later in association with promotion and progression of carcinogenesis.

Accumulation of Abnormally High Ploid Nuclei in the Liver of LEC Rats Developing Spontaneous Hepatitis

Enlarged hepatocytes with huge nuclei were found in LEC rats with hereditary hepatitis. Flow cytometric analysis of the DNA content of nuclei from jaundiced LEC rats revealed the presence of very high polyploids, such as 32n and 64n. At the age of 12 weeks, before the onset of hepatitis, 8n polyploid nuclei were more frequent in LEC rats than in LEA rats, a sibling line of LEC rats. Binucleated hepatocytes were also more frequent in LEC rats than in LEA rats at week 4. Bi‐, tri‐ and tetra‐nucleated cells whose nuclei were sometimes different in size were observed when jaundice became manifest. The number of proliferating liver cells, determined by pulse labeling with 5‐bromo‐ 2′‐deoxyuridine (BrdU), was higher in LEC rats than in LEA rats at 2, 4, 8, 12 and 14 weeks, with a maximum at week 4. A remarkable increase of BrdU uptake was observed at week 16, when jaundice developed. The possible involvement of abnormal cytokinesis and kariokinesis in the manifestation of hepatitis was suggested.

Aberrant expression, function and localization of connexins in human esophageal carcinoma cell lines with different degrees of tumorigenicity

We have analyzed the level of mRNA expression and protein localization of the gap-junction protein connexins (Cx) 26, 32, and 43, as well as gap-junctional intercellular communication (GJIC) in seven human esophageal careinoma cell lines (TE series). These cell lines exhibited various degrees of tumorigenicity in nude mice; two (TE-1 and TE-8) formed progressively growing tumors, four (TE-2. TE-3, TE-9, and TE-13) developed non-progressing tumors and one (TE-10) showed no tumorigenicity. We found that normal human esophageal tissue expressed both Cx26 and Cx43 and that most of the cell lines expressed lower amounts of Cx26 and Cx43 mRNAs than normal human esophageal tissues or none at all. The co-expression of Cx26 and Cx43 mRNAs and proteins was observed only in two cell lines (TE-3 and TE-9) that showed a high level of GJIC and non-progressive tumor development. However, the non-tumorigenic cell line TE-10 did not express either connexin. A possible regulator of GJIC, E-cadherin, was expressed in all cell lines. These results suggest that aberrant expression and function of connexins are common among human esophageal carcinoma cell lines, but there is no quantitative relationship between connexin expression and tumorigenic properties of these cell lines.

Effects of colchicine on the hepatocellular transport of indocyanine green in the rat

SummaryThe effects of colchicine on plasma elimination and biliary excretion of indocyanine green (ICG) and sulfobromophthalein (BSP) in rats were examined. Elimination of two different doses of ICG (6 mg and 20 mg/kg body weight) from plasma was significantly delayed when rats were treated with colchicine (3 mg/kg body weight) 3 h prior to the administration of the dye. On the other hand, disappearance of BSP (100 mg/kg) from plasma was not influenced by colchicine. The fact that the difference in the ICG elimination from plasma between colchicine-treated and salinetreated rats was minimal in the early period (i.e., 2 min after administration of the dye), but evident after its half-life (i.e., 10 min, when 6 mg/kg body weight of ICG was given), suggested that colchicine mainly affected the hepatocellular transport of ICG rather than the uptake of the dye by hepatocytes. Colchicine also significantly reduced the excretion of ICG (6 mg and 20 mg/kg) into bile but did not alter that of BSP (100 mg and 200 mg/ kg). On the other hand, the same amount of lumicolchicine (3 mg/kg) did not have any effect on the biliary excretion of ICG. These results suggested that ICG is transported through hepatocytes into bile with the aid of the cytoplasmic microtubular system, whereas BSP is handled by hepatocytes in a different way.

Connexin expression and gap-junctional intercellular communication in ES cells and iPS cells

Pluripotent stem cells, i.e., embryonic stem (ES) and induced pluripotent stem (iPS) cells, can indefinitely proliferate without commitment and differentiate into all cell lineages. ES cells are derived from the inner cell mass of the preimplantation blastocyst, whereas iPS cells are generated from somatic cells by overexpression of a few transcription factors. Many studies have demonstrated that mouse and human iPS cells are highly similar but not identical to their respective ES cell counterparts. The potential to generate basically any differentiated cell types from these cells offers the possibility to establish new models of mammalian development and to create new sources of cells for regenerative medicine. ES cells and iPS cells also provide useful models to study connexin expression and gap-junctional intercellular communication (GJIC) during cell differentiation and reprogramming. In 1996, we reported connexin expression and GJIC in mouse ES cells. Because a substantial number of papers on these subjects have been published since our report, this Mini Review summarizes currently available data on connexin expression and GJIC in ES cells and iPS cells during undifferentiated state, differentiation, and reprogramming.

Elevation of serum alpha-fetoprotein and proliferation of oval cells in the livers of LEC rats.

Alpha‐fetoprotein (AFP) in the sera of 35 LEC (Long‐Evans with a cinnamon‐like coat color) rats between 7 and 25 weeks of age was evaluated by enzyme‐linked immunosorbent assay (ELISA). Elevation of serum AFP and proliferation of oval cells in the liver were observed in most LEC rats, which suffered from acute hepatitis. On the other hand, the serum AFP level was within the normal range before the onset of hepatitis. Immunohistochemical staining for AFP revealed that some of the proliferating oval cells produced AFP, Morphotnetric analysis of AFP‐positive cells and ELISA for serum AFP demonstrated that there was a statistically significant correlation between the number of AFP‐positive cells in the liver and the concentration of AFP in the serum. Histological examination revealed the transition and differentiation of the oval cells to small hepatocytes. These results suggested that the phenomena which occurred in LEC rats suffering from acute hepatitis were similar to those that occurred during the early stage of azo dye hepatocarcinogenesis, although the extent of the oval cell proliferation and the elevation of serum AFP in LEC rats were not as great as those in rats treated with azo dye. This is the first report on a rat strain with proliferation of AFP‐producing oval cells during its natural history.

Sequential changes in intercellular junctions between hepatocytes during the course of acute liver injury and restoration after thioacetamide treatment

Sequential changes of gap junctions (GJs), tight junctions (TJs) and desmosomes (DSs) between hepatocytes during restorative proliferation were studied in rats after a single intraperitoneal administration of 200 mg/kg thioacetamide (TAA). Antibody against connexin 32 was used to demonstrate GJs; simultaneously the changes in TJs and DSs were studied using antibodies against 7H6 protein and desmoplakins. Propidium iodide and bromodeoxyuridine were used to recognize necrotic and proliferative cells. GJs were evenly distributed in early necrotic hepatocytes at 16 h after TAA treatment, then disappeared from necrotic and surrounding cells at 24 h. At 48 h, GJs had disappeared completely from hepatocytes in whole liver lobules, while many hepatocytes were heavily labelled with BrdU. At 72 h, GJs reappeared, firstly in perinecrotic areas. At 96 h after treatment, when the injured areas had disappeared and restorative proliferation ceased, GJs were distributed evenly throughout the lobules. Immunohistochemical observation of GJs in centrilobular, perinecrotic and periportal areas after TAA-induced hepatic necrosis was confirmed by counting the number of connexin-32-positive spots in the respective areas. TJs and DSs disappeared from necrotic cells at 24 h, but then increased between 24 and 48 h in perinecrotic areas, though the increased intensity of these junctions was more evident at 48 h. At 72 h, localization of TJs and DSs returned to normal. These results suggest that during the course of acute hepatic injury, GJs (cell-cell communication) behave differently from other intercellular junctions.

Involvement of Connexin43 Localization and Gap Junctional Intercellular Communication in the Establishment of a Synchronized Contraction of Cultured Neonatal Rat Cardiac Myocytes

Abstract We have established a method for the long-term maintenance of functional cardiac myocytes that are cultured confluently. In our culture system, spontaneous but irregular contraction was observed even for cells 18 hours after seeding. The contractile rate of the myocytes increased with the passage of time, and a synchronized contraction was gradually formed. At day 7 of culture, the confluent myocytes exhibited synchronous contractile activity with a relatively constant rate (145.6±16.6 beats/min). With an immunohistochemical study, the localization of connexin43 on cell membranes in contact became clearer with culture time. The permeability of gap junctions investigated by the microinjection-dye transfer method indicated that the cell-cell communication increased with time, that is, cultured cardiac myocytes exhibiting synchronous contractile activity had excellent gap junctional intercellular communication. These results suggest that the establishment of a synchronized contraction in cultured neonatal rat cardiac myocytes has a close relation to gap junctional intercellular communication.

Induction of a Novel Ca2+-Dependent Serine Protease in Rat Liver Treated with Various Promoters of Liver Carcinogenesis

The induction of a novel Ca2+-dependent protease in rat liver treated with various liver promoters, as well as its increase in preneoplastic lesions during liver carcinogenesis, was demonstrated. Six groups of male Fischer 344 rats (150 g body weight) were fed separately diets containing one of the following promoters: 0.05% phenobarbital (PB), 0.05% dichlorodiphenyltrichloroethane (DDT), 0.25% ethyl-α-chlorophenoxyisobutyrate (CPIB), 0.5% butylated hydroxytoluene (BHT), 10 ppm 17-α-ethynylestradiol (EE), and 0.05% of the non-promoter diphenylhydantoin (DH). After feeding the indicated diets for 1 week, rats were killed and protease activity in the microsomal fraction of liver tissue was determined using N-benzoyl-L-tyrosine ethyl ester as substrate. The activity of protease increased 3- to 5-fold after treatment with the promoters and compared with normal liver; the non-promoter (DH) induced a slight increase in activity. Hyperplastic nodules were induced according to the method of Solt and Farber. The activity of protease was significantly high in these preneoplastic lesions compared with the surrounding liver tissue. Biochemical characterization of this protease revealed the following properties: 1) high Ca2+ dependency, 2) different molecular weight and optimum pH from previously reported proteases, and 3) preferential distribution in the SER fraction. These results suggest that a novel type of protease is induced specifically in the liver by promoters of liver carcinogenesis. The possible importance of this protease in the carcinogenic process is discussed.