Effect of Capsaicin and Its Novel Derivative on the Isolated Guinea Pig Bronchi

캡사이신과 그 합성유도체의 기니픽 기관지 평활근에 대한 작용

  • 정이숙 (한국화학연구소 스크리닝 안전성연구부) ;
  • 이부연 (한국화학연구소 스크리닝 안전성연구부) ;
  • 공재양 (한국화학연구소 스크리닝 안전성연구부) ;
  • 박노상 (한국화학연구소 스크리닝 안전성연구부) ;
  • 조태순 (성균관대학교 약학대학) ;
  • 신화섭 (한국화학연구소 스크리닝 안전성연구부)
  • Published : 1994.09.01

Abstract

In the present study we investigated the peripheral function of capsaicin and KR-25018, a newly synthesized capsaicin derivative, which was demonstrated to have a potent analgesic activity through different mechanism from morphine and nonsteroidal antiinflammatory drugs. Capsaicin (10-8~10-5 M) and KR-25018 (10-8~10-5 M) produced concentration-dependent contractions of the isolated guinea pig bronchi. There were no significant differences in the maximum response and the EC50 values (EC50: 0.137$\pm$0.025 $\mu$M and 0.097$\pm$0.031 $\mu$M for capsaicin and KR-25018, respectively, P>0.05). Phosphoramidon (10 $\mu$M) and indomethacin (10 $\mu$M) had no significant effect on contractile response to the submaximal concentration range of capsaicin and KR-25018 (3$\times$10-9~3$\times$10-7 M). The response to KR-25018, like that to capsaicin, was significantly inhibited by ruthenium red with reduction in the maximum response, which is indicative of non-competitive antagonism. A further common feature of the responses to capsaicin and KR-25018 in the guinea pig bronchi was their sensitivity to capsazepine. Capsazepine caused a rightward parallel shift in concentration-response curves obtained by capsaicin and KR-25018. the pA2 values of capsazepine were 5.90 and 5.99 against capsaicin and KR-25018 response, respectively. In conclusion, KR-25018 and capsaicin exert their contractile effects in the isolated guinea pig bronchial muscle by common mechanisms, probably via the activation of a specific receptor.

Keywords