Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:O95477 (membrane-bound)
29,236 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Porcine ciliary epithelial microsomes synthesized 12[S]-hydroxy-5, 8, 10, 14-eicosatetraenoic acid (12[S]-HETE) from arachidonic acid by a membrane-bound lipoxygenase and 12[R]-isomer by the cytochrome P450-dependent monooxygenase system. The activity to form 12(R)-isomer was markedly enhanced by 3-methylcholanthrene and clofibrate. Both basal and induced levels of 12(R)-HETE synthesizing activity were considerably higher in nonpigmented epithelial cells than in pigmented cells of the ciliary processes. The induced activity was suppressed by polyclonal antibodies raised against purified cytochrome P450 IA1 and NADPH-P450 reductase but not by substrates for clofibrate-inducible omega/omega-1 hydroxylases (P450 IVA-mediated). These results suggest that 12(R)-HETE synthesis by porcine ciliary microsomes may be mediated by a cytochrome P450 of the IA family.
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PMID:12(R)-hydroxyeicosatetraenoic acid synthesis by 3-methylcholanthrene- and clofibrate-inducible cytochrome P450 in porcine ciliary epithelium. 152 Mar 35

Human NADPH-P450 oxidoreductase (OR) is an intrinsically membrane-bound flavoprotein that serves to transfer electrons from NADPH to cytochrome P450. OR is also involved in the metabolic activation of chemotherapeutic alkylating agents. The human OR cDNA was engineered into baculovirus and the recombinant virus was used to infect Spodoptera frugiperda (Sf9) cells. Approximately 3.3% of total protein of infected cells was human OR. The enzyme was purified by ion exchange and affinity chromatography to a specific activity of 20 units/mg protein. Baculovirus-expressed OR displayed an absolute spectrum typical of the protein purified from tissue sources. The purified enzyme was able to support P450 activity in a reconstituted lipid vesicle system where maximal P450 activity was achieved at an OR/P450 ratio of 2. When recombinant OR and P450 DNA-containing baculoviruses were used to coinfect Sf9 cells, the OR/P450 ratio needed to achieve half maximal P450 catalytic activity was less than 0.5. These studies demonstrate the utility of baculovirus to analyze the functional and structural relationship of OR and P450.
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PMID:Baculovirus-mediated expression and functional characterization of human NADPH-P450 oxidoreductase. 153 59

The membrane topology of the mammalian P450 cytochromes has been studied intensively by computational approaches, proteolysis, chemical modification, genetic engineering, and immunochemistry. Initial results for the cytochromes of the endoplasmic reticulum appeared to indicate a polytopic, four to eight transmembrane anchor model with an active site buried in the membrane. However, recent findings show that the microsomal P450s are bound to the endoplasmic reticulum by only one or two transmembrane peptides located at the NH2-terminal end, and that the active site is part of a large cytoplasmic domain that may have one or two additional peripheral membrane contacts. The membrane-bound state is viewed as rather rigid, and the plane of the heme lies between perpendicular and parallel to the plane of the endoplasmic reticulum. The mitochondrial P450 cytochromes lack a hydrophobic NH2 terminus in the mature form, and thus differ from the microsomal isozymes in this significant way. However, although the exact topology of cytochrome P450 in the inner mitochondrial membrane remains to be elucidated, certain features are clearly comparable to those of microsomal P450. Therefore, the membrane topology of the P450 gene superfamily may follow a similar pattern.
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PMID:Membrane topology of the mammalian P450 cytochromes. 153 56

The present study offers evidence indicating that acrylamide a polar molecule inhibits substrate-binding to P450C-21 in a competitive manner and quenches tryptophanyl fluorescence in bovine adrenocortical microsomes, similar to that in the purified lipid-free enzyme. Resolution of tryptophanyl fluorescence of the microsomes revealed an acrylamide quenching constant (K2 = 9.9M, is the association constant for the quencher-fluorophore complex) which was similar to the reciprocal of its inhibition constant (1/Kj = Ka = 8.3 +- 0.9M) for substrate-binding. The substrate inhibited the fluorescence quenching by acrylamide which was in accordance with partial competition. In addition the substrate dissociation, acrylamide inhibition and fluorescence quenching constants and tryptophanyl fluorescence maximum (340-342nm) were essentially the same in the microsomes and the purified enzyme. These results suggest that, similar to that in the purified enzyme, a tryptophan in a polar environment in the membrane-bound P450, may serve as a reporter group for the substrate binding site and the site in the membrane-bound enzyme, is accessible to the substrate in aqueous phase.
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PMID:On the solvent accessibility of substrate binding site of cytochrome P450C-21 in bovine adrenocortical microsomes. 187 77

The problems of alterations in the tertiary structure at the cytochrome P450 active site after isolation from the microsomal membrane and comparative analysis of the structures of the active sites of membrane-bound P450 and soluble P450cam have been studied in terms of using bifunctional compounds (I-IV). These amphiphilic compounds contain a pyridine radical, an aliphatic chain of variable length (n), and diphosphonic acid at the end of the molecule. There exists an optimal length (n) at which the interaction between I-IV and P450 is rather efficient. Comparison of the data on such interactions with microsomal P450, as well as P450 isolated from the membrane in oligomeric and monomeric states, and P450cam allows the estimation of the distance between the Fe3+ ion in the active site and the charged residues (Lys/Arg) on the enzyme surface (approximately 17 A for all P450s).
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PMID:Substrate access channel geometry of soluble and membrane-bound cytochromes P450 as studied by interactions with type II substrate analogues. 189 15

Rat P450 IIA1 is a membrane-bound hemoprotein that catalyzes the 7 alpha- and 6 alpha-hydroxylation of testosterone. A recombinant baculovirus, containing the cDNA encoding IIA1, was constructed and used to infect Spodoptera frugiperda cells. Infected cells contained up to 10% IIA1 protein as quantified by Western blot analysis; however, only a small percentage of this protein contained heme and was catalytically active. Addition of hemin to the culture medium during the course of viral infection resulted in a marked sixfold increase in both testosterone hydroxylase activity and heme-containing IIA1 protein. When the exogenously added protoheme was substituted with modified heme molecules containing hydrogen or ethyl groups at the 2 and 4 positions of the protoporphyrin IX, enzymes with only marginal changes in catalytic properties were produced. These data indicate that baculovirus can be used as a system to produce high levels of mammalian cytochrome P450s containing custom modified heme moieties.
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PMID:Novel exogenous heme-dependent expression of mammalian cytochrome P450 using baculovirus. 267 89

The secondary structure of 52 aligned cytochrome P450 sequences, all of which are membrane bound, is predicted and collectively compared with the crystal structure of the soluble cytochrome P450cam. Ten of 13 helical regions, 6 of 7 beta-pair regions, and beta-structure corresponding to a known beta-bulge near the active site of P450cam are predicted to exist in the membrane-bound P450s. Three turns associated with beta-structure in the soluble enzyme are also predicted for the membrane-bound forms. A strong structural similarity is evident between membrane P450s and the soluble P450cam. Consequently, a multitransmembrane structure involving much of P450 seems highly unlikely. A structure with two N-terminal transmembrane segments is compatible with these observations.
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PMID:Secondary structure prediction of 52 membrane-bound cytochromes P450 shows a strong structural similarity to P450cam. 271 36

Calciosomes are small cytoplasmic vacuoles identified in various nonmuscle cell types by their content of protein(s) similar to calsequestrin (CS), the Ca2+ storage protein of the muscle sarcoplasmic reticulum (SR). These entities have been interpreted as the "primitive" counterpart of the SR, and suggested to be the organelle target of inositol-1,4,5-triphosphate action (Volpe, P., K. H. Krause, S. Hashimoto, F. Zorzato, T. Pozzan, J. Meldolesi, and D. P. Lew. Proc. Natl. Acad. Sci. USA. 85:1091-1095). Immunoperoxidase and immunogold experiments carried out in both thick and ultrathin cryosections of rat hepatocytes and pancreatic acinar cells by using antimuscle CS antibodies revealed a specific labeling widely distributed in the entire cytoplasm, while nuclei were negative. Individual calciosomes appeared as small (105 nm) membrane-bound vacuoles intermingled with, and often apposed to ER cisternae and mitochondria. Other calciosomes were scattered in the Golgi area, in between zymogen granules and beneath the plasma membrane. The cumulative volume of the CS-positive organelles was measured to account for the 0.8 and 0.45% of the cytoplasm in liver and pancreas cells, respectively. The real total volume of the calciosome compartment is expected to be approximately twice as large. In hepatocytes, structures similar to CS-positive calciosomes were decorated by antibodies against the Ca2+ ATPase of muscle SR, while ER cisternae were not. By dual labeling, colocalization was revealed in 53.6% of the organelles, with 37.6% positive for the ATPase only. CS appeared preferentially confined to the content, and the Ca2+ ATPase to the contour of the organelle. The results suggested a partial segregation of the two antigens, reminiscent of their well-known segregation in muscle SR. Additional dual-label experiments demonstrated that hepatic calciosomes express neither two ER markers (cytochrome-P450 and NADH-cytochrome b5 reductase) nor the endolysosome marker, luminal acidity (revealed by 3-[2,4-dinitroanilino]-3'-amino-N-methyl dipropylamine). Calciosomes appear as unique cytological entities, ideally equipped to play a role in the rapid-scale control of the cytosolic-free Ca2+ in nonmuscle cells.
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PMID:Immunocytochemistry of calciosomes in liver and pancreas. 297 58

Aging perturbs the expression of many liver proteins, but the mechanisms remain unresolved. Expression of hepatic NADPH cytochrome P450 reductase, phenobarbital-induced CYP2B1&2, and the polymeric immunoglobulin receptor (pIgR) decline as a function of aging. We examined the effect of aging on the expression of the mRNA transcripts of these proteins, as well as those of alpha 2u-globulin and beta-actin in male F344 rats. Despite age-related losses in the expression of P450 reductase and plasma membrane-bound pIgR in the rat liver (approximately 30-50%), aging is is accompanied by 1) no change and 2) a modest decline (< 20%) in their respective mRNA steady state levels. On the other hand, the expression of phenobarbital-induced microsomal CYP2B1&2 and the steady state level of its mRNA exhibit parallel age-dependent shifts. The mRNA transcript for alpha 2u-globulin declines between maturity and old age, whereas the beta-actin mRNA level remains unchanged. These preliminary data are consistent with previous studies which suggest that aging may perturb hepatic CYP2B1&2 and alpha 2u-globulin at the transcriptional level, whereas changes in the expression of P450 reductase and pIgR may reflect posttranscriptional modifications.
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PMID:Aging effects on hepatic NADPH cytochrome P450 reductase, CYP2B1&2, and polymeric immunoglobulin receptor mRNAs in male Fischer 344 rats. 751 94

P450 hemeproteins comprise a large gene superfamily that catalyzes monooxygenase reactions in the presence of a redox partner. Because the mammalian members are, without exception, membrane-bound proteins, they have resisted structure-function analysis by means of X-ray crystallographic methods. Among P450-catalyzed reactions, the aromatase reaction that catalyzes the conversion of C19 steroids to estrogens is one of the most complex and least understood. Thus, to better understand the reaction mechanism, we have constructed a three-dimensional model of P450arom not only to examine the active site and those residues potentially involved in catalysis, but to study other important structural features such as substrate recognition and redox-partner binding, which require examination of the entire molecule (excepting the putative membrane-spanning region). This model of P450arom was built based on a "core structure" identified from the structures of the soluble, bacterial P450s (P450cam, P450terp, and P450BM-P) rather than by molecular replacement, after which the less conserved elements and loops were added in a rational fashion. Minimization and dynamic simulations were used to optimize the model and the reasonableness of the structure was evaluated. From this model we have postulated a membrane-associated hydrophobic region of aliphatic and aromatic residues involved in substrate recognition, a redox-partner binding region that may be unique compared to other P450s, as well as residues involved in active site orientation of substrates and an inhibitor of P450arom, namely vorozole. We also have proposed a scheme for the reaction mechanism in which a "threonine switch" determines whether oxygen insertion into the substrate molecule involves an oxygen radical or a peroxide intermediate.
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PMID:A three-dimensional model of aromatase cytochrome P450. 754 71


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