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(Received for publication, April 12, 1995; and in revised form, July 1,
1995) Acyl carrier protein (ACP) is the carrier of fatty acids during
their synthesis and utilization. ACPs (or ACP-like protein domains)
have been found throughout biology and share significant amino acid
sequence similarities. All ACPs undergo a post-translational
modification in which 4`-phosphopantetheine is transferred from CoA to
a specific serine of apo-ACP. This modification is essential for
activity because fatty acids are bound in thioester linkage to the
sulfhydryl of the prosthetic group. Overproduction of Escherichia
coli ACP from multicopy plasmids strongly inhibits growth of E. coli. We report that upon overexpression of ACP in E.
coli post-translational modification is inefficient and the apo
protein accumulates and blocks cell growth by inhibition of lipid
metabolism. Moreover, a mutant form of ACP that is unable to undergo
post-translational modification is a potent inhibitor of growth.
Finally, we observed that an increase in the efficiency of modification
of overexpressed ACP results in decreased toxicity. The accumulated
apo-ACP acts as a potent in vitro inhibitor of the sn-glycerol-3-phosphate acyltransferase resulting in an
inability to transfer the completed fatty acid to sn-glycerol
3-phosphate. The degree of inhibition depended upon the species of
donor acyl chain. Utilization of cis-vaccenoyl-ACP by the sn-glycerol-3-phosphate acyltransferase was inhibited to a
much greater extent by apo-ACP than was utilization of palmitoyl-ACP.
1-Acyl glycerol-3-phosphate acyltransferase was also inhibited in
vitro by apo-ACP, although not at physiologically relevant
concentrations. These in vitro data are supported by in
vivo labeling data, which showed a large decrease in cis-vaccenate incorporation into phospholipid during
overproduction of ACP, but no decrease in the rate of synthesis of long
chain acyl-ACPs. These data indicate that acylation of sn-glycerol 3-phosphate is the major site of inhibition by
apo-ACP.
Volume 270,
Number 38,
Issue of September 22, pp. 22229-22235, 1995
©1995 by The American Society for Biochemistry and Molecular Biology, Inc.
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