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Molecular Pharmacology, Vol 9, 219-228, Copyright © 1973 by the American Society for Pharmacology and Experimental Therapeutics
1 Department of Pharmacology , University of Minnesota, Minneapolis , Minnesota 55455
The nature of cytochrome P-420 present in "CO-binding particles" was studied. This problem was approached by investigating the transferability of heme from CO-binding particles,
containing only P-420, obtained through the treatment of microsomal fractions with steapsin, to human serum albumin. In addition, the reconstitution of cytochrome P-420 from
"heme-depleted" protein derived from CO-binding particles was investigated. Tritiumlabeled cytochrome P-450 was prepared by treatment of rats with [3,5-3H]
-aminolevulinic
acid. The heme of cytochrome P-450 was not transferred to albumin. However, up to 83%
of the heme present in CO-binding particles was transferred to albumin after 40 min of incubation. The resulting heme-albumin complex was identified as ferrihemalbumin (methemalbumin) by the criteria of millimolar extinction coefficient, CO difference spectrum, and
fractionation profile. CO-binding particles, from which heme had been removed by albumin,
could be reconstituted by treatment with methemalbumin. The resulting CO-binding particles showed millimolar extinction coefficients and CO difference spectra indistinguishable
from control CO-binding particles. These results suggest that the cytochrome P-420 present
in CO-binding particles could represent several complexes of heme and heme-binding sites
of a protein, preferentially that of denatured apoprotein of cytochrome P-450, rather than
one structural entity. Finally, in regard to the nature of heme-apoprotein interactions in
CO-binding particles, it appears that, in comparison to cytochrome P-450, the hemeapoprotein interaction in these particles is modified so that the heme moiety is exposed to
the surroundings. Thus, in CO-binding particles, proteins with high heme-binding affinity
can readily remove the heme from its apoprotein.
Note:
ACKNOWLEDGMENTS
The authors thank Viola Abbott and Jenine
Speier for their technical assistance.
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