Thomas Jl scite author profile

Thomas Jl

2Publications

37Citation Statements Received

24Citation Statements Given

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Washington University in St. Louis

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Creation of a fully active, cytosolic form of human type I 3beta-hydroxysteroid dehydrogenase/isomerase by the deletion of a membrane-spanning domain

Jl¹,

Evans²,

Blanco³

et al. 1999

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Human 3 -hydroxysteroid dehydrogenase/steroid 5 -4 -isomerase (3 -HSD/isomerase) is a bifunctional, single enzyme protein that is membranebound in the endoplasmic reticulum (microsomes) and mitochondria of cells in the placenta (type I) and in the adrenals and gonads (type II). Two membrane-binding domains (residues 72-89 and 283-310) have been predicted by analyses of hydrophobicity in the type I and II isoenzymes (90% regional homology). These putative membrane domains were deleted in the cDNA by PCR-based mutagenesis, and the two mutant enzymes were expressed by baculovirus in insect Sf9 cells. Differential centrifugation of the Sf9 cell homogenate containing the 283-310 deletion mutant revealed that 94% of the 3 -HSD and isomerase activities were in the cell cytosol, 6% of the activities were in the microsomes, and no activity was in the mitochondria. This is the opposite of the subcellular distribution of the wild-type enzyme with 94% of the activities in the microsomes and mitochondria and only 6% activity in the cytosol. The organelle distribution of the 72-89 deletion mutant lies between these two extremes with 72% of the enzyme activity in the cytosol and 28% in the microsomes/ mitochondria. The integrity of the subcellular organelle preparations was confirmed by electron microscopy. Western immunoblots confirmed the presence of the 283-310 deletion mutant enzyme and the absence of the wild-type enzyme in the insect cell cytosol. The unpurified, cytosolic 383-310 deletion mutant exhibited 3 -HSD (22 nmol/min per mg) and isomerase (33 nmol/min per mg) specific activities that were comparable with those of the membrane-bound, wild-type enzyme. The isomerase reaction of the cytosolic 283-311 deletion mutant requires activation by NADH just like the isomerase of the microsomal or mitochondrial wild-type enzyme. In contrast, the 72-89 deletion mutant had low 3 -HSD and isomerase specific activities that were only 12% of the wild-type levels. This innovative study identifies the 283-310 region as the critical membrane domain of 3 -HSD/isomerase that can be deleted without compromising enzyme function. The shorter 72-89 region is also a membrane domain, but deletion of this NH 2 -terminal region markedly diminishes the enzyme activities. Purification of the active, cytosolic 283-310 deletion mutant will produce a valuable tool for crystallographic studies that may ultimately determine the tertiary/ quaternary structure of this key steroidogenic enzyme.

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Functional activity of 3β-hydroxysteroid dehydrogenase/isomerase

Naville

Evans

et al. 1998

Endocrine Research

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3Beta-hydroxysteroid dehydrogenase/steroid delta5-isomerase (3beta-HSD/isomerase) was expressed by baculovirus in Spodoptera fungiperda (Sf9) insect cells from cDNA sequences encoding the human wild-type I (placental) enzyme and the human type I mutant- Y253F. The wild-type and Y253F enzymes were each purified as a single, homogeneous protein from a suspension of the Sf9 cells. Ultraviolet (UV) spectral analyses showed that the wild-type enzyme induced changes in the UV spectrum of the competitive isomerase inhibitor, 19-nortestosterone, and the Y253F mutant did not. The wild-type isomerase required activation by coenzyme to produce the spectral shift. Activation of isomerase by NADH produced a greater change in the 19-nortestosterone spectrum than activation by NAD+. These observations provide direct evidence that Tyr253 functions as the general acid (proton donor) in the isomerase reaction mechanism. Furthermore, the coenzyme-activation profiles support our proposed two-step enzyme mechanism in which NADH produced by the 3beta-HSD activity induces the enzyme to assume the isomerase conformation.

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Thomas Jl

Creation of a fully active, cytosolic form of human type I 3beta-hydroxysteroid dehydrogenase/isomerase by the deletion of a membrane-spanning domain

Functional activity of 3β-hydroxysteroid dehydrogenase/isomerase

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