Opposite effects of redox status on membrane potential, cytosolic calcium, and tone in pulmonary arteries and ductus arteriosus

doi:10.1152/ajplung.00372.2002

Opposite effects of redox status on membrane potential, cytosolic calcium, and tone in pulmonary arteries and ductus arteriosus

Andrea Olschewski,¹ Zhigang Hong,² Douglas A. Peterson,² Daniel P. Nelson,² Valerie A. Porter,³ and E. Kenneth Weir²^,4

¹Justus Liebig University, 35385 Giessen, Germany; ²Minneapolis Veterans Affairs Medical Center; and ³Department of Pediatrics, Division of Pulmonary and Critical Care, and ⁴Department of Medicine, University of Minnesota, Minneapolis, Minnesota 55417

Submitted 1 November 2002 ; accepted in final form 24 June 2003

At birth, associated with the rise in oxygen tension, the pulmonaryarteries (PA) dilate and the ductus arteriosus (DA) constricts.Both PA and DA constrict with vasoconstrictors and dilate withvasodilators. They respond in a contrary manner only to changesin oxygen tension. We hypothesized that the effects of changesin oxygen are mediated by changes in redox status. Consequently,we tested whether a reducing agent, DTT, and an oxidizing agent,dithionitrobenzoic acid (DTNB), would have opposite effectson a major oxygen signaling pathway in the PA and DA smoothmuscle cells (SMCs), the sequence of change in potassium current(I_K), membrane potential (E_m), cytosolic calcium, and vesseltone. Under normoxic conditions, DTT constricted adult and fetalresistance PA rings, whereas in DA rings DTT acted as a potentvasodilator. In normoxia, voltage-clamp measurements showedinhibition of I_K by DTT in PASMCs and, in contrast, activationin DASMCs. Consequently, DTT depolarized fetal and adult PASMCsand hyperpolarized DASMCs. [Ca²⁺]_i was increased by DTT in fetaland adult PASMCs and decreased in DASMCs. Under hypoxic conditions,DTNB constricted DA rings and caused vasodilatation in fetalPA rings. DTNB inhibited I_K and depolarized the cell membranein DASMCs. In contrast, activation of I_K and hyperpolarizationwas seen in PASMCs. Thus the same redox signal can elicit oppositeeffects on I_K, E_m, cytosolic calcium, and vascular tone in resistancePA and the DA. These observations support the concept that redoxchanges could signal the opposite effects of oxygen in the PAand DA.

hypoxia; potassium channels; resting membrane potential; pulmonary vasoconstriction

Address for reprint requests and other correspondence: E. K. Weir, VA Medical Center (111 C), 1 Veterans Dr., Minneapolis, MN 55417 (E-mail: weirx002{at}umn.edu).

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