Daisuke Hishikawa

Up-regulation of adipogenin, an adipocyte plasma transmembrane protein, during adipogenesis

Until now, the various proteins highly expressed in adipose tissues have been identified and characterized by traditional gene cloning techniques. However, methods of computer analysis have been developed to compare the levels of expression among various tissues, and genes whose expression levels differ significantly between tissues have been found. Among these genes, we report on the possible function of a new adipose-specific gene, showed higher expression in adipose tissue through ‘Search Expression’ on Genome Institute of Norvartis Research Foundation (GNF) SymAtlas v0.8.0. This database has generated and analyzed gene expression of each gene in diverse samples of normal tissues, organs, and cell lines. This newly discovered gene product was named adipogenin because of its role in stimulating adipocyte differentiation and development. Adipogenin mRNA was highly expressed in four different fat depots, and exclusively expressed in adipocytes isolated from adipose tissues. The level of adipogenin mRNA was up-regulated in the subcutaneous and visceral adipose tissues of mice fed a high-fat diet compared to those on the control diet. The expression of adipogenin mRNA is dramatically elevated during adipocyte differentiation of 3T3-L1 cells. Troglitazone, which up-regulated peroxisome proliferators-activated receptor γ2 (PPAR-γ2) expression, increased adipogenin mRNA expression, although this gene was down-regulated by retinoic acid. Confocal image analyses of green-fluorescent protein-adipogenin (pEGFP-adipogenin) transiently expressed in 3T3-L1 adipocytes showed that adipogenin was strictly localized to membranes and was absent from the cytosol. Moreover, small interfering RNA (siRNA) mediated a reduction of adipogenin mRNA in 3T3-L1 cells and blocked the process of adipocyte differentiation. These results indicate that adipogenin, an adipocyte-specific membrane protein, may be involved with adipogenesis, as one of the regulators of adipose tissue development.

Up-Regulation of the Claudin-6 Gene in Adipogenesis

To investigate the role of claudin-6 in adipogenesis, claudin-6 mRNA was examined in adipose tissues and adipocyte differentiation. Claudin-6 mRNA was found to be differentially expressed in four different adipose tissues, and up-regulated in each fat depot of mice fed a high-fat diet as compared to a normal-fat diet. Levels of claudin-6 transcripts were increased during differentiation of 3T3-L1 cells in vitro. Moreover, small interfering RNA (siRNA)-mediated reduction of claudin-6 mRNA inhibited differentiation of 3T3-L1 cells. These results suggest that claudin-6 is another important regulator in adipogenesis and fat deposition.

Differential Expression of the Nonmuscle-type Cofilin Gene between Subcutaneous and Visceral Adipose Tissue

Visceral adipocytes differ in various biochemical properties from adipocytes of subcutaneous origin. However, information on differences in gene expression between visceral and subcutaneous fat depots is limited. Expression of the genes for the nonmuscle and muscle isoforms of the actin-binding protein cofilin was examined in subcutaneous and visceral fat depots of mice, pigs, and cattle by semiquantative reverse transcription and polymerase chain reaction analysis. The abundance of nonmuscle-type cofilin mRNA was markedly higher in visceral adipose tissue than in subcutaneous adipose tissue of mouse and pig. This difference was more pronounced in mice fed a high-fat diet than in those fed a standard diet. In cattle, however, the amount of nonmuscle-type cofilin mRNA was greater in subcutaneous fat than in visceral fat. Muscle-type cofilin mRNA was not detected in either adipose tissue of any of the three species. These results suggest that the nonmuscle isoform of cofilin, and therefore the cytoskeleton, may play a role in lipid accumulation in visceral adipose tissue.