Increased expression of biglycan mRNA in pressure-overloaded rat heart.

Biglycan mRNA expression in rat myocardium after abdominal aortic banding with renal ischemia was examined. The Northern blot analysis demonstrated that expression of biglycan mRNA in the pressure-overloaded hearts on days 2, 7, 14 and 28 was 2.88 +/- 0.89, 2.32 +/- 0.49, 2.17 +/- 0.57 and 1.81 +/- 0.46-fold higher, respectively, than that in the sham-operated hearts. In situ hybridization showed an increased density of biglycan mRNA signal-positive cells in the pressure-overloaded hearts. The cells with positive signals were spindle-shaped mesenchymal cells in the myocardial interstitium. A marked increase in biglycan mRNA signal expression was also observed in endothelial cells and smooth muscle cells of the thickened myocardial capillary wall. These results demonstrated an increase in biglycan mRNA in the pressure-overloaded heart in mesenchymal cells in the myocardial interstitium, and in endothelial and smooth muscle cells of the capillaries, indicating that biglycan contributes to the ventricular and vascular remodeling in response to pressure overload.

OPC-8212, a quinoline derivative, counteracts the reduction in type III collagen mRNA due to lipopolysaccharides in cultured rat cardiac fibroblasts.

Fibrillar collagen plays an essential role in ventricular remodeling, which is a major prognostic factor in various heart diseases. Inflammatory cytokines, including tumor necrosis factor alpha (TNFalpha), have been reported to play a role in various heart diseases and OPC-8212, a quinolinone derivative, has been demonstrated to reduce TNFalpha production. No studies have examined the effects of OPC-8212 on collagen metabolism in connection with inflammatory cytokine and growth factors. Using lipopolysaccharides as a tool to enhance TNFalpha, we examined the effects of OPC-8212 on the expression of type III collagen mRNA [alpha1(III)] in cultured neonatal rat cardiac fibroblasts. We also measured the concentration of TNFalpha and transforming growth factor beta (TGFbeta) in the cultured medium. Northern blot analysis revealed that LPS reduced the expression of alpha1(III) mRNA, and OPC-8212 counteracted this reduction (on average 25% above the reduced level by LPS stimulation). LPS enhanced the TNFalpha concentration in the medium, and OPC-8212 inhibited this enhancement. LPS increased the TGF-beta1 concentration in the cultured medium, while OPC-8212 did not affect this increase. In summary, OPC-8212 counteracted the reduction in type III collagen mRNA expression by LPS accompanied by suppression of the increase in TNFalpha.