BACKGROUND AND PURPOSE: Ionotropic purinoreceptors (P2X) in renal vascular smooth muscle cells (RVSMCs) are involved in mediating the sympathetic control and paracrine regulation of renal blood flow (RBF). Activation of P2X receptors elevates [Ca(2+)](i) in RVSMCs triggering their contraction, leading to renal vasoconstriction and decrease of RBF. The goal of the present work was to characterize the P2X receptor-mediated ionic current (I(P2X)) and to identify the types of P2X receptors expressed in myocytes isolated from interlobar and arcuate arteries of rat kidney. EXPERIMENTAL APPROACH: The expression of P2X receptors in isolated RVSMCs was analysed by reverse transcription (RT)-PCR. I(P2X) and membrane potential were recorded using the amphotericin B-perforated patch method. KEY RESULTS: RT-PCR analysis on single RVSMCs showed the presence of genes encoding P2X1 and P2X4 receptors. Under voltage clamp conditions, the selective P2X receptor agonist alphabeta-methylene ATP (alphabeta-meATP) evoked I(P2X) similar to that induced by ATP. Under current clamp conditions, both ATP and alphabeta-meATP evoked a spike-like membrane depolarization followed by a sustained depolarization, linking P2X receptors in RVSMCs to sympathetic control of renal vascular tone. A selective antagonist of P2X1 receptors, NF279, reduced I(P2X) amplitude by approximately 65% concentration-dependently manner within the nanomolar to sub-micromolar range. The residual current was resistant to micromolar concentrations of NF279, but was inhibited by sub-millimolar to millimolar concentrations of NF279. CONCLUSIONS AND IMPLICATIONS: Two types of functional P2X receptors, monomeric P2X1 and heteromeric P2X1/4 receptors, are expressed in RVSMCs. Our study has identified important targets for possible pharmacological intervention in the sympathetic control of renal circulation.
BACKGROUND AND PURPOSE: Ionotropic purinoreceptors (P2X) in renal vascular smooth muscle cells (RVSMCs) are involved in mediating the sympathetic control and paracrine regulation of renal blood flow (RBF). Activation of P2X receptors elevates [Ca(2+)](i) in RVSMCs triggering their contraction, leading to renal vasoconstriction and decrease of RBF. The goal of the present work was to characterize the P2X receptor-mediated ionic current (I(P2X)) and to identify the types of P2X receptors expressed in myocytes isolated from interlobar and arcuate arteries of rat kidney. EXPERIMENTAL APPROACH: The expression of P2X receptors in isolated RVSMCs was analysed by reverse transcription (RT)-PCR. I(P2X) and membrane potential were recorded using the amphotericin B-perforated patch method. KEY RESULTS: RT-PCR analysis on single RVSMCs showed the presence of genes encoding P2X1 and P2X4 receptors. Under voltage clamp conditions, the selective P2X receptor agonist alphabeta-methylene ATP (alphabeta-meATP) evoked I(P2X) similar to that induced by ATP. Under current clamp conditions, both ATP and alphabeta-meATP evoked a spike-like membrane depolarization followed by a sustained depolarization, linking P2X receptors in RVSMCs to sympathetic control of renal vascular tone. A selective antagonist of P2X1 receptors, NF279, reduced I(P2X) amplitude by approximately 65% concentration-dependently manner within the nanomolar to sub-micromolar range. The residual current was resistant to micromolar concentrations of NF279, but was inhibited by sub-millimolar to millimolar concentrations of NF279. CONCLUSIONS AND IMPLICATIONS: Two types of functional P2X receptors, monomeric P2X1 and heteromeric P2X1/4 receptors, are expressed in RVSMCs. Our study has identified important targets for possible pharmacological intervention in the sympathetic control of renal circulation.
Authors: Maksym I Harhun; Dmitri V Gordienko; Oleksandr V Povstyan; Ray F Moss; Thomas B Bolton Journal: Circ Res Date: 2004-08-26 Impact factor: 17.367
Authors: Timo Rieg; Maria Gerasimova; José L Boyer; Paul A Insel; Volker Vallon Journal: Am J Physiol Regul Integr Comp Physiol Date: 2011-05-25 Impact factor: 3.619
Authors: Claire M Nichols; Oleksandr V Povstyan; Anthony P Albert; Dmitry V Gordienko; Omar Khan; Georgios Vasilikostas; Teck K Khong; Andrew Wan; Marcus Reddy; Maksym I Harhun Journal: Purinergic Signal Date: 2014-05-22 Impact factor: 3.765
Authors: Zhengrong Guan; Sean T Singletary; Haword Cha; Justin P Van Beusecum; Anthony K Cook; Jennifer S Pollock; David M Pollock; Edward W Inscho Journal: Am J Physiol Renal Physiol Date: 2015-12-23
Authors: Zhengrong Guan; Matthew I Giddens; David A Osmond; Anthony K Cook; Janet L Hobbs; Shali Zhang; Tatsuo Yamamoto; Jennifer S Pollock; David M Pollock; Edward W Inscho Journal: Am J Physiol Renal Physiol Date: 2012-12-26