Uribe S, Devlin TM. Tri-Calciphor (16,16-dimethyl-15-dehydroprostaglandin B1 trimer)-mediated mitochondrial Ca2+ movements: modulation by phosphate.
BIOCHIMICA ET BIOPHYSICA ACTA 1994;
1225:144-8. [PMID:
7904184 DOI:
10.1016/0925-4439(94)90071-x]
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Abstract
The trimeric derivative of 16,16-dimethyl-15-dehydroprostaglandin B1 (termed tri-Calciphor), which protects tissues against ischemic damage, induced Ca2+ efflux and swelling in mitochondria in the absence of phosphate, Mg2+ and ATP. When glutamate/malate rather than succinate was the substrate, higher tri-Calciphor concentrations were required for the ionophoretic activity. Ca2+ efflux and mitochondrial swelling induced by tri-Calciphor were completely inhibited by ATP, phosphate and Mg2+ added together, and partially inhibited with phosphate plus either ATP or Mg2+. Between 0 and 7 microM added Ca2+ and in the presence of phosphate, ATP and Mg2+, tri-Calciphor stimulated the uptake of Ca2+ by mitochondria and increased the efficiency of buffering of extramitochondrial Ca2+. Thus, depending on the assay conditions, two different effects involving Ca2+ movements and mitochondria are observed with tri-Calciphor.
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