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Vol. 54, Issue 3, 591-598, September 1998
8-7 Isomerase
Proteins with [3H]Ifenprodil
Institut für Biochemische Pharmakologie, Universität
Innsbruck, Peter Mayr Str. 1, A-6020 Innsbruck, Austria (F.F.M.,
R.J.R., K.B., H.G.), and
Department of Biochemistry and Bioproducts
Research Center, Yonsei University, Seoul 120-749, Korea (S.Y.C.,
Y.-K.P.)
Sterol 
8-7 isomerases (SIs) catalyze the shift of the double bond
from C8-9 to C7-8 in the B-ring of sterols. Surprisingly, the isoenzymes in fungi (ERG2p) and vertebrates [emopamil binding protein (EBP)] are structurally completely
unrelated, whereas the 
1 receptor, a mammalian protein
of unknown function, bears significant similarity with the yeast ERG2p.
Here, we compare the drug binding properties of SIs and related
proteins with [3H]ifenprodil as a common high affinity
radioligand (Kd = 1.4-19
nM), demonstrating an intimate pharmacological
relationship among ERG2p, 1 receptor, and EBP. This
renders SIs a remarkable example for structurally diverse enzymes with
similar pharmacological profiles and the propensity to bind drugs from
different chemical groups with high affinity. We identified a variety
of experimental drugs with nanomolar affinity for the human EBP
(Ki = 0.5-14
nM) such as MDL28815, AY9944, triparanol, and U18666A. These compounds, as well as the fungicide tridemorph and the clinically used drugs tamoxifen, clomiphene, amiodarone, and opipramol, inhibit the in vitro activity of the recombinant human EBP
(IC50 = 0.015-54 µM). The high affinity
of the human EBP for 3H-tamoxifen
(Kd = 3 ± 2 nM) implies that the EBP carries the previously
described microsomal antiestrogen binding site. Interactions of the EBP
with structurally diverse lipophilic amines suggest that novel
compounds of related structure should be counterscreened for inhibition
of the enzyme to avoid interference with sterol 8-7
isomerization.
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