Increased Exchange Current but Normal Ca2+ Transport via Na+-Ca2+ Exchange During Cardiac Hypertrophy After Myocardial Infarction

doi:10.1161/01.RES.0000031384.55006.DB

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Circulation Research. 2002;91:323-330
Published online before print August 1, 2002, doi: 10.1161/01.RES.0000031384.55006.DB

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(Circulation Research. 2002;91:323.)
© 2002 American Heart Association, Inc.

Cellular Biology

Increased Exchange Current but Normal Ca²⁺ Transport via Na⁺-Ca²⁺ Exchange During Cardiac Hypertrophy After Myocardial Infarction

Ana Maria Gómez, Beat Schwaller, Hartmut Porzig, Guy Vassort, Ernst Niggli, Marcel Egger

From the Departments of Physiology (E.N., M.E.) and Pharmacology (H.P.), University of Bern, Bern, Switzerland; INSERM U390 (A.M.G., G.V.), CHU A. de Villeneuve, Montpellier, France; and the University of Fribourg (B.S.), Department of Histology and General Embryology, Switzerland.

Correspondence to M. Egger, Dept of Physiology, University of Bern, Buehlplatz 5, CH-3012 Bern, Switzerland. E-mail egger{at}pyl.unibe.ch

Hypertrophied and failing cardiac myocytes generally show alterationsin intracellular Ca²⁺ handling associated with changes in thecontractile function and arrhythmogenicity. The cardiac Na⁺-Ca²⁺exchange (NCX) is an important mechanism for Ca²⁺ extrusionand cell relaxation. Its possible involvement in changes ofexcitation-contraction coupling (EC-coupling) with disease remainsuncertain. We analyzed the NCX function in rat ventricular myocytes5 to 6 months after experimental myocardial infarction (PMI)produced by left coronary artery ligation and from sham-operated(SO) hearts. Caged Ca²⁺ was dialyzed into the cytoplasm viaa patch-clamp pipette and Ca²⁺ was released by flash photolysisto activate NCX and measure the associated currents (I_NaCa),whereas [Ca²⁺]_i changes were simultaneously recorded with aconfocal microscope. I_NaCa density normalized to the [Ca²⁺]_ijumps was 2.6-fold higher in myocytes from PMI rats. The levelof total NCX protein expression in PMI myocytes was also increased.Interestingly, although the I_NaCa density in PMI cells was larger,PMI and SO myocytes presented virtually identical Ca²⁺ transportvia the NCX. This discrepancy was explained by a reduced surface/volumeratio (34.8%) observed in PMI cells. We conclude that the increasein NCX density may be a mechanism to maintain the required Ca²⁺extrusion from a larger cell to allow adequate relaxation.

Key Words: sodium-calcium exchange • cardiac myocyte • hypertrophy • intracellular calcium • calcium transport

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