OBJECTIVE: We investigated the effects of angiotensin II (Ang II) on inward rectifier K+ (Kir) channels in small-diameter coronary arterial smooth muscle cells (SCASMCs) of control and isoproterenol (Iso)-induced hypertrophied rabbits. METHODS AND RESULTS: Kir current amplitude and Kir channel protein expression were definitely lower in the Iso-induced hypertrophied model than in the control. In a pressurized arterial experiment, 15 mmol/L K+-induced vasodilation was greater in the control arteries than in the arteries of Iso-induced hypertrophied model. Ang II reduced the Kir current in a concentration-dependent manner, and this inhibition was greater in SCASMCs from Iso-induced hypertrophied model than from control. Although, there was no difference in the expression of Ang II type 2 (AT2) receptor between SCASMCs of control and Iso-induced hypertrophied model, the expression of Ang II type 1 (AT1) receptor and phosphorylated PKC alpha were greater in SCASMCs of Iso-induced hypertrophied model than of control. CONCLUSION: Ang II inhibits Kir channels more prominently in SCASMCs of Iso-induced hypertrophied model owing to increases in the expression of AT1 receptor and the activation of PKC alpha. Our findings about the differential expression of Kir channels and different modulation of Kir channels by a vasoconstrictor (Ang II) in a hypertrophy model are important for better understanding the responsiveness of small-diameter arteries during hypertrophy.
OBJECTIVE: We investigated the effects of angiotensin II (Ang II) on inward rectifier K+ (Kir) channels in small-diameter coronary arterial smooth muscle cells (SCASMCs) of control and isoproterenol (Iso)-induced hypertrophied rabbits. METHODS AND RESULTS: Kir current amplitude and Kir channel protein expression were definitely lower in the Iso-induced hypertrophied model than in the control. In a pressurized arterial experiment, 15 mmol/L K+-induced vasodilation was greater in the control arteries than in the arteries of Iso-induced hypertrophied model. Ang II reduced the Kir current in a concentration-dependent manner, and this inhibition was greater in SCASMCs from Iso-induced hypertrophied model than from control. Although, there was no difference in the expression of Ang II type 2 (AT2) receptor between SCASMCs of control and Iso-induced hypertrophied model, the expression of Ang II type 1 (AT1) receptor and phosphorylated PKC alpha were greater in SCASMCs of Iso-induced hypertrophied model than of control. CONCLUSION: Ang II inhibits Kir channels more prominently in SCASMCs of Iso-induced hypertrophied model owing to increases in the expression of AT1 receptor and the activation of PKC alpha. Our findings about the differential expression of Kir channels and different modulation of Kir channels by a vasoconstrictor (Ang II) in a hypertrophy model are important for better understanding the responsiveness of small-diameter arteries during hypertrophy.
Authors: Han Sol Kim; Hongliang Li; Hye Won Kim; Sung Eun Shin; Mi Seon Seo; Jin Ryeol An; Kwon-Soo Ha; Eun-Taek Han; Seok-Ho Hong; Il-Whan Choi; Grace Choi; Dae-Sung Lee; Won Sun Park Journal: Korean J Physiol Pharmacol Date: 2017-06-26 Impact factor: 2.016
Authors: Sung Eun Shin; Hongliang Li; Han Sol Kim; Hye Won Kim; Mi Seon Seo; Kwon-Soo Ha; Eun-Taek Han; Seok-Ho Hong; Amy L Firth; Il-Whan Choi; Young Min Bae; Won Sun Park Journal: Korean J Physiol Pharmacol Date: 2017-02-21 Impact factor: 2.016
Authors: Hyoung Kyu Kim; Won Sun Park; Mohamad Warda; So Youn Park; Eun A Ko; Min Hee Kim; Seung Hun Jeong; Hye-Jin Heo; Tae-Hoon Choi; Young-Won Hwang; Sun-Il Lee; Kyung Soo Ko; Byoung Doo Rhee; Nari Kim; Jin Han Journal: PLoS One Date: 2012-08-20 Impact factor: 3.240