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(Received for publication, June 10,
1994; and in revised form, January 4, 1995) Protein isoprenylation is a post-translational modification
essential for the biological activity of G-proteins. Inhibition of
protein isoprenylation by lovastatin (LOV) induces apoptosis in HL-60
cells, a process of active cell death characterized by the
internucleosomal degradation of genomic DNA. In this article we show
that LOV-induced apoptosis is associated with intracellular
acidification and that activation of the
Na
Volume 270,
Number 11,
Issue of March 17, 1995 pp. 6235-6242
©1995 by The American Society for Biochemistry and Molecular Biology, Inc.
/H antiporter induces a raise in
pH
which is sufficient to prevent or arrest DNA
digestion. First, LOV induced a decrease in pH which was dose-dependent and correlated with the extent of
DNA degradation. Flow cytometry analysis revealed that this
acidification was due to the appearance of a subpopulation of cells
whose pH was 0.9 pH units below control values.
Cell sorting experiments demonstrated that DNA degradation had occurred
only in those cells which had suffered intracellular acidification.
LOV-induced apoptosis could be suppressed by mevalonate
supplementation, inhibition of protein synthesis, and protein kinase C
activation by phorbol myristate acetate. In all three cases,
intracellular acidification was abolished. Inhibition of the
Na/H antiporter by
5-N-ethyl-N-isopropyl amiloride induced DNA
degradation in HL-60 cells per se and suppressed the
protective effect of phorbol myristate acetate. LOVinduced
intracellular acidification was not due to a complete inhibition of the
Na/H antiporter. In fact, LOV-treated
cells were able to respond to phorbol myristate acetate stimulation of
the Na/H antiporter with a marked
increase in pH. This effect was accompanied by a
rapid arrest of DNA digestion. These observations illustrate the strong
pH dependence of LOV-induced DNA degradation, thus providing a
connection between the activation of the
Na/H antiporter and the suppression
of apoptosis.
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