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(Received for publication, August 15, 1995) The B-subunit pentamer of Escherichia coli heat-labile
enterotoxin (EtxB) is highly stable, maintaining its quaternary
structure in a range of conditions that would normally be expected to
cause protein denaturation. In this paper the structural stability of
EtxB has been studied as a function of pH by electrophoretic,
immunochemical, and spectroscopic techniques. Disassembly of the cyclic
pentameric structure of human EtxB occurs only below pH 2. As
determined by changes in intrinsic fluorescence this process follows
first-order kinetics, with the rate constant for disassembly being
proportional to the square of the H
Volume 270,
Number 50,
Issue of December 15, 1995 pp. 29953-29958
©1995 by The American Society for Biochemistry and Molecular Biology, Inc.
MOLECULAR BASIS OF pH STABILITY
ion concentration,
and with an activation energy of 155 kJ mol
. A
C-terminal deletion mutant, hEtxB214, similarly shows first-order
kinetics for disassembly but with a higher pH threshold, resulting in
disassembly being seen at pH 3.4 and below. These findings are
consistent with the rate-limiting step for disassembly of human EtxB
being the simultaneous disruption of two interfaces by protonation of
two C-terminal carboxylates. By comparison, disassembly of the
B-subunit of cholera toxin (CtxB), a protein which shows 80% sequence
identity with EtxB, exhibits a much lower stability to acid conditions;
with disassembly of CtxB occurring below pH 3.9, with an activation
energy of 81 kJ mol
. Reasons for the observed
differences in acid stability are discussed, and the implications of
these findings to the development of oral vaccines using EtxB and CtxB
are considered.
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