Abstract
Cytochrome b5 (cyt b5), a component of endoplasmic reticulum membrane, plays a role in modulation of enzymatic activity of some cytochrome P450 (CYP) enzymes. The effect of apo-cytochrome b5 on this enzymatic system has not been investigated in details, because preparation of cyt b5 as a pure protein failed in many laboratories. In order to prepare the native apo-cytochrome b5 in a large scale we utilized a protein with higher affinity toward the heme; the apo-myoglobin from the equine skeletal muscle. In the first step, we extracted heme moiety from the native myoglobin by butanone extraction. Than the effect of pH on spontaneous heme release from both proteins was investigated: purified rabbit cyt b5 as well as equine skeletal muscle myoglobin. The prepared apo-myoglobin was incubated with the cyt b5 and heme transfer was monitored as a shift of absorption maximum from 413 to 409 nm in pH varying between 3–6 (10 mM KH2PO4, pH 3–6). Here, we obtained 43 mg of the equine skeletal muscle apo-myoglobin (43% yield). The optimal pH range for heme transfer from cyt b5 into apo-myoglobin was between 4.2 and 5. Native apo-cytochrome b5 was successfully prepared using procedure described here.
Highlights
Cytochrome b5, a component of endoplasmic reticulum membrane, is a heme protein with molecular weight of 16,800
The prepared apo-myoglobin was incubated with the cyt b5 and heme transfer was monitored as a shift of absorption maximum from 413 to 409 nm in pH varying between 3–6 (10 mM KH2PO4, pH 3–6)
We found that cyt b5 isolated from rabbit liver microsomes and reconstituted with CYP1A1 and NADPH:cytochrome P450 (CYP) reductase modulates the oxidation of carcinogenic azo dye Sudan I by this system (Stiborova et al, 2006)
Summary
Cytochrome b5 (cyt b5), a component of endoplasmic reticulum membrane, is a heme protein with molecular weight of 16,800. It is composed of two functional domains, a soluble heme-containing core, and a short hydrophobic C-terminal tail, which anchors the protein into the microsomal membrane (Schenkman and Jansson, 2003). We found that cyt b5 isolated from rabbit liver microsomes and reconstituted with CYP1A1 and NADPH:CYP reductase modulates the oxidation of carcinogenic azo dye Sudan I by this system (Stiborova et al, 2006). To study the mechanism of this modulation, the effect of native cyt b5, and that of the apo-cytochrome b5 (lacking the electron transferring cofactor – heme) on Sudan I oxidation is necessary to be evaluated
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