Angiogenesis is reportedly enhanced by prostaglandins (PGs). In the present study, we investigated whether or not cyclo‐oxygenase (COX)‐2 mediated angiogenesis in chronic and proliferate granuloma.
In rat sponge implants, angiogenesis was gradually developed over a 14‐day experimental period as granuloma formed. This angiogenesis was enhanced by topical injections of human recombinant basic fibroblast growth factor (bFGF).
In sponge granuloma, mRNA of COX‐1 was constitutively expressed, whereas that of COX‐2 was increased with neovascularization in parallel with that of vascular endothelial growth factor (VEGF).
Topical injections of bFGF increased the expression of COX‐2 mRNA. bFGF‐stimulated angiogenesis was inhibited by indomethacin or selective COX‐2 inhibitors, NS‐398, nimesulide, and JTE‐522.
The levels of PGE2 and 6‐keto‐PGF1α in the sponge granuloma were increased with bFGF 13 fold and 9 fold, respectively, and these levels were markedly reduced by NS‐398.
The expression of VEGF mRNA in the granuloma was also enhanced by bFGF, and was reduced by NS‐398.
Topical injections of PGE2 and beraprost sodium, a PGI2 analogue, increased the expression of VEGF mRNA, with angiogenesis enhancement.
The enhanced angiogenesis by bFGF was significantly inhibited by topical injections of VEGF anti‐sense oligonucleotide.
These results suggested that COX‐2 may enhance bFGF‐induced neovascularization in sponge granuloma by PG‐mediated expression of VEGF, and that a COX‐2 inhibitor would facilitate the management of conditions involving angiogenesis.
British Journal of Pharmacology (2000) 130, 641–649; doi:
Previously, we reported that levels of chymase activity and its mRNA in cardiac tissues were significantly increased along with progression of cardiac fibrosis in cardiomyopathic hamsters, but the involvement of chymase in the progression of fibrosis has been unclear. In cultured human fibroblasts, the concentration of transforming growth factor- in the supernatant of medium was significantly increased after injection of human chymase. Furthermore, human chymase dose dependently increased cell proliferation, and this chymase-dependent proliferation was completely suppressed by a chymase inhibitor, Suc-Val-Pro-Phe p (OPh) 2 (10 M) or an anti-transforming growth factor- antibody (100 g/ml). In this study, we used Bio14.6 and F1B hamsters as cardiomyopathic and control hamsters, respectively. Cardiomyopathic hamsters were orally administered a novel chymase inhibitor, 4-[1-{[bis-(4-methylphenyl)-methyl]-carbamoyl}-3-(2-ethoxy-benzyl)-4-oxo-azetidine-2-yloxy]-benzoic acid (BCEAB; 100 mg/kg per day), or placebo from 5-to 45-week-old. In the placebo-treated group, the cardiac chymase activity in cardiomyopathic hamsters 45 weeks old was significantly increased compared with that in control hamsters. BCEAB significantly reduced the cardiac chymase activity. The indexes (ϩdP/dt and -dP/dt) of cardiac function were significantly improved by treatment with BCEAB. The mRNA levels of collagen I and collagen III in the placebotreated hamsters were significantly reduced to 69.6 and 76.5% by treatment with BCEAB, respectively. The fibrotic area in cardiac tissues in the BCEAB-treated hamsters was significantly suppressed to 50.7% compared with that in the placebo-treated treated hamsters. Therefore, the activation of transforming growth factor- by chymase may play an important role in the progression of cardiac fibrosis and cardiac dysfunction in cardiomyopathy.
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