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Correspondence  |   May 1995
Reply: Voltage-sensitive Calcium Channels and Ischemia
Author Notes
  • Director, Cardiothoracic Anesthesia Unit, Department of Anesthesiology and Critical Care Medicine, Hadassah University Hospital, P. O. Box 12000 91120 Jerusalem, Israel.
Article Information
Correspondence
Correspondence   |   May 1995
Reply: Voltage-sensitive Calcium Channels and Ischemia
Anesthesiology 5 1995, Vol.82, 1309. doi:
Anesthesiology 5 1995, Vol.82, 1309. doi:
In Reply:—We appreciate the merit of the observation made by Blanck and Gardner regarding the ischemia-related injury to porcine cardiac sarcolemma.
The study of Blanck and Gardner supports our findings of increased binding capacity of the voltage-sensitive calcium channels (VSCC) to isradipine calcium channel blocker after ischemia. [1 ] However, they suggest a different explanation for this phenomenon, based on the parallel increase in 5′-nucleotidase, which might have originated from previously sequestered channels exposed by ischemia.
The preparation used by us is constituted of highly purified vesicles of sarcolemma membranes, [2 ] almost totally deprived of other cell constituents. As previously described in the literature, the histologic changes observed after 10 min of regional ischemia in canine heart are usually minimal, with less than 2% infarcted tissue. In such experimental protocol, the suggestion made by Blanck and Gardner of sequestered channels from a hidden pool is therefore, although possible, less likely than the mechanism offered in our article. We proposed the explanation of differential unmasking of latent channels in the sarcolemma.
The valuable article of Hoehner et al. [3 ] mentioned the theory of artifactual observation but gave it a low priority, because they found, very similar to our findings, “the same crude homogenate protein content in ischemic and nonischemic tissues.” The similar amount of sarcolemmal membranes in the ischemic and control tissues suggests, in our opinion, that the increase in binding capacity of the VSCC originates by a conformational change due to biochemical process in the sarcolemmal vesicles rather than by exposure of membranes from a hidden pool.
In summary, our findings of increased calcium channel blocker binding to sarcolemmal VSCC and the fact that halothane anesthesia might prevent the ischemic changes in the myocyte correlate with other studies emphasizing the protective role of halothane during myocardial ischemia. As we stated in the original article, the mechanism underlying the increase in binding capacity of VSCC is not completely clear and deserves further investigation.
Benjamin Drenger, M.D., Director, Cardiothoracic Anesthesia Unit, Department of Anesthesiology and Critical Care Medicine, Hadassah University Hospital, P. O. Box 12000 91120 Jerusalem, Israel.
(Accepted for publication February 23, 1995.)
REFERENCES
Drenger B, Ginosar Y, Chandra M, Reches A, Gozal Y: Halothane modifies ischemia-associated injury to the voltage sensitive calcium channels in canine heart sarcolemma. ANESTHESIOLOGY 81:224-228, 1994.
Drenger B, Quigg M, Blanck TJJ: Volatile anesthetics depress calcium channel blocker binding to bovine cardiac sarcolemma ANESTHESIOLOGY 74:155-165, 1991.
Hochner PJ, Blanck TJJ, Roy R, Rosenthal RE, Fiskum G: Alteration of voltage-dependent calcium channels in canine brain during global ischemia and reperfusion. J Cereb Blood Flow Metab 12:418-424, 1992.