Journal of Pharmacological Sciences (Oct 2023)

Pimaric acid reduces vasoconstriction via BKCa channel activation and VDCC inhibition in rat pulmonary arterial smooth muscles

  • Masashi Ishida,
  • Aya Yamamura,
  • Moe Fujiwara,
  • Taiki Amano,
  • Mina Ota,
  • Yukari Hikawa,
  • Rubii Kondo,
  • Yoshiaki Suzuki,
  • Yuji Imaizumi,
  • Hisao Yamamura

Journal volume & issue
Vol. 153, no. 2
pp. 84 – 88

Abstract

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Pulmonary vessels play a pivotal role in oxygen circulation. We previously demonstrated that pimaric acid (PiMA) activated large-conductance Ca2+-activated K+ (BKCa) channels and inhibited voltage-dependent Ca2+ channels (VDCCs). In the present study, PiMA attenuated vasoconstriction induced by high K+ or endothelin-1 in rat pulmonary arterial smooth muscles (PASMs). PiMA also reduced high K+-induced cytosolic [Ca2+] increase in PASM cells. PiMA increased BKCa currents and decreased VDCC currents. BKCa channels and VDCCs were formed by the α/β1 and α1C/α1D/β2/β3 subunits, respectively. These results indicate that PiMA induces vasorelaxation through the dual effects of BKCa channel activation and VDCC inhibition in PASMs.

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