hUCB cells migrate to infarcted, not to normal myocardium, where they engraft, participate in neoangiogenesis, and beneficially influence remodelling processes. Cord blood cells may hence be useful for cell therapy of ischemic heart disease.
The novel inhibitor of the reverse mode of the Na+/Ca2+exchanger (NCE) KB-R7943 (KB) was tested in isolated rat cardiomyocytes exposed to 80 min of simulated ischemia [substrate-free anoxia, extracellular pH (pHo) of 6.4] and 15 min of reoxygenation (pHo 7.4). At pHo 6.4, 20 μmol/l KB was required for complete inhibition of the reverse mode of NCE. Treatment with 20 μmol/l KB only during anoxia did not influence the onset of rigor contracture and intracellular pH (pHi) (monitored with 2′,7′-bis(2-carboxyethyl)-5(6)-carboxyfluorescein) but significantly reduced the cytosolic accumulation of Ca2+ (monitored with fura 2) and Na+ (monitored with sodium-binding benzofuran isophthalate). During reoxygenation, cardiomyocytes developed hypercontracture. This was significantly reduced by anoxic KB treatment. To investigate this protection against reoxygenation-induced injury in the whole heart, we exposed Langendorff-perfused rat hearts to 110 min of anoxia (pHo 6.4) and 50 min of reoxygenation (pHo 7.4). Application of 20 μmol/l KB during anoxia significantly reduced the reoxygenation-induced enzyme release. We conclude that KB offers significant protection of cardiomyocytes against Ca2+ and Na+ overload during anoxia and hypercontracture or enzyme release on reoxygenation.
In ischemia the cytosol of cardiomyocytes acidifies; this is reversed upon reperfusion. One of the major pH(i)-regulating transport systems involved is the Na+/H+ exchanger. Inhibitors of the Na+/H+ exchanger have been found to more effectively protect ischemic-reperfused myocardium when administered before and during ischemia than during reperfusion alone. It has been hypothesized that the protection provided by pre-ischemic administration is due to a reduction in Na+ and secondary Ca2+ influx. Under reperfusion conditions Na+/H/ exchange inhibition also seems protective since it prolongs intracellular acidosis which can prevent hypercontracture. In detail, however, the mechanisms by which Na+/H+ exchange inhibition provides protection in ischemic-reperfused myocardium are still not fully identified.
and Ca overload, but had no effect on ATP content. Anoxia at pH 6.5 had no additional effect on Ca overload, but significantly reduced and glucose deprivation play only a minor role. The ER is the main source for this Ca rise. Ca overload is not readily reversible.i i
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