cDNA cloning and expression of the mRNA for cytochrome P-450kd which shows a fatty acid omega-hydroxylating activity

We have recently purified three distinct forms of fatty acid omega-hydroxylase cytochrome P-450 (P-450), designated P-450ka-1, P-450ka-2 and P-450kd, from rabbit kidney cortex microsomes, and isolated and sequenced cDNA clones corresponding to P-450ka-1 and P-450ka-2 [Yokotani, N., Bernhardt, R., Sogawa, K., Kusunose, E., Gotoh, M., Kusunose, M. & Fujii-Kuriyama, Y. (1989) J. Biol. Chem. 264, 21,665-21,669]. The present paper describes cloning, sequencing and expression of a cDNA for the third fatty acid, omega-hydroxylase, P-450kd, from a rabbit kidney cDNA library. The cDNA for P-450kd encodes a polypeptide of 511 amino acids with sequence similarity of 87% to P-450ka-1. Its deduced NH2-terminal sequence of amino acids 5-24 is in complete agreement with the NH2-terminal sequence of P-450kd. The identity of the cDNA was further confirmed by its expression in COS-7 cells. When 14C-labeled lauric acid was added to the culture medium of COS-7 cells transfected with the cDNA, significant amounts of radioactive dodecanedioic acid, together with omega- and (omega-1)-hydroxylauric acids, were produced. Microsomes prepared from the transfected cells also efficiently catalyzed the omega- and (omega-1)-hydroxylation of lauric acid without formation of dodecanedioic acid. RNA blot analysis demonstrated that the mRNA for P-450kd gave a single band at the approximately 2.6-kb position. The mRNA for P-450kd was expressed in the liver and kidney, but not in many other tissues examined. Treatment of rabbits with clofibrate resulted in a elevated level of mRNA for P-450kd in both liver and kidney. Furthermore, the mRNA was remarkably increased in the kidney by the administration of cyclosporin A.     

cDNA cloning and inducible expression during pregnancy of the mRNA for rabbit pulmonary prostaglandin omega-hydroxylase (cytochrome P-450p-2)

We have isolated cDNA clones of the mRNA for prostaglandin omega-hydroxylase (cytochrome P-450p-2) (Yamamoto, S., Kusunose, E., Ogita, K., Kaku, M., Ichihara, K., and Kusunose, M. (1984) J. Biochem. (Tokyo) 96, 593-603) in rabbit lung by using synthetic oligonucleotides as probes. The cDNA sequence contains an open reading frame of 1,470 nucleotides, the first 9 amino acids of which correspond to the residues 17-25 of cytochrome P-450p-2 determined from protein analysis. The predicted primary structure contains amino acid sequences of 23 tryptic fragments of cytochrome P-450p-2 and the deduced amino acid composition is in agreement with that determined from the purified protein. The complete polypeptide, including residues 1-16, contains 506 amino acids with a calculated molecular weight of 58,515. Cytochrome P-450p-2 shared 74% amino acid similarity with rat hepatic lauric acid omega-hydroxylase (cytochrome P-450LA omega) (Hardwick, J.P., Song, B.-J., Huberman, E., and Gonzalez, F. J. (1987) J. Biol. Chem. 262, 801-810), whereas it showed less than 25% similarity to other forms of cytochrome P-450, indicating that the two cytochrome P-450s constitute a unique cytochrome P-450 gene family. DNA blot analysis of the total genomic DNA of rabbits suggest the presence of several genes or gene-like DNA sequences which cross-hybridized with the cloned cDNA. RNA blot analysis showed that progesterone treatment increased the amount of mRNA hybridizable to the cDNA by about 100-fold in the lung of rabbits as compared with the basal level without the treatment. This high level of the mRNA was also observed in the lung of pregnant rabbits.     

A novel species of cytochrome P-450 (P-450ib) specific for the small intestine of rabbits. cDNA cloning and its expression in COS cells.

We have isolated a cDNA clone for a P-450, designated P-450ib (Ichihara, K., Kusunose, E., Kaku, M., Yamamoto, S., and Kusunose, M. (1985) Biochim. Biophys. Acta 831, 99-105), from a cDNA library of rabbit small intestine mucosa by using synthetic DNA fragment by the polymerase chain reaction, as a hybridization probe. The cDNA with a 1,829-base pair insert encodes a polypeptide of 501 amino acids. The deduced amino acid sequence contains all of the sequences of the NH2-terminal and 14 tryptic fragments from purified P-450ib. As the NH2-terminal methionine was not found in the sequence from the purified protein, the apoprotein of P-450ib is composed of 500 amino acids with a molecular weight of 57,193. P-450ib shows 35-41% sequence similarity with several members of 8 subfamilies in the P-450 II family, whereas it has a less than 30% sequence similarity with other P-450 families, suggesting that this P-450 is the first member of a novel subfamily within the P-450 II family. RNA blot analysis shows that mRNA hybridized to the cDNA is expressed in the small intestine, but not significantly in other tissues including liver, colon, kidney, lung, spleen, brain, stomach, and cecum, indicating that P-450ib is a P-450 specific to the small intestine. The protein expressed in COS-7 cells using the cDNA in an expression vector, pKCRH2, shows benzphetamine N-demethylase activity and gives a band identical with that of P-450ib in its mobility on sodium dodecyl sulfate-polyacrylamide gel electrophoresis.     

cDNA cloning of cytochrome P-450 related to P-450p-2 from the cDNA library of human placenta. Gene structure and expression

We have isolated and analyzed cDNA (designated P-450HP cDNA) clones from a human placenta cDNA library, using the cDNA for rabbit pulmonary cytochrome P-450p-2, a prostaglandin omega-hydroxylase, as a hybridization probe. The cDNA obtained encoded a polypeptide comprising 511 amino acids with a calculated molecular mass of 58987 Da, and the amino acid sequence similarity with P-450p-2 and rat liver laurate omega-hydroxylase (P-450LA omega) was only about 50%. RNA blot analysis showed that the mRNA hybridizable with the human P-450HP cDNA was inducibly expressed 3-5-fold in rabbit small intestine and lung by gestation, but the expression remained constant in rabbit liver and kidney. This mode of expression was quite different from that of P-450p-2 and P-450LA omega. Interestingly, the mRNA hybridized with the cDNA of P-450HP was found to be expressed in all the human tumor tissues so far examined, in sharp contrast with the facts that almost all the other species of P-450s are known to disappear in the tumor tissues. Taken together, the deduced hemoprotein termed P-450HP dose not seem to be the human counterpart of rabbit P-450p-2 or rat P-450LA omega, and is presumably a new member of the P-450 family including P-450p-2 and P-450LA omega. Furthermore, the corresponding genomic DNA was also cloned and analyzed. The gene of P-450HP spanned 18.8 kb and was separated into 11 exons by 10 introns whose locations were completely different from those of P-450 genes so far determined.     

Purification and characterization of hepatic microsomal prostaglandin omega-hydroxylase cytochrome P-450 from pregnant rabbits

Prostaglandin omega-hydroxylase, designated as cytochrome P-450 LPG omega (P-450 LPG omega), has been purified, to a specific content of 15 nmol of cytochrome P-450/mg of protein, from liver microsomes of pregnant rabbits. The purified P-450 LPG omega was found to be homogeneous on sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and to have an apparent molecular weight of 52,000. The enzyme showed a maximum at 450 nm in the carbon monoxide (CO)-difference spectrum for its reduced form. This cytochrome P-450 efficiently catalyzed the omega-hydroxylation of prostaglandin E1 (PGE1), prostaglandin E2 (PGE2), prostaglandin D2 (PGD2), prostaglandin F2 alpha (PGF 2 alpha), prostaglandin A1 (PGA1), and prostaglandin A2 (PGA2), as well as the omega- and (omega-1)-hydroxylation of myristate and palmitate, in a reconstituted system containing cytochrome P-450, NADPH-cytochrome P-450 reductase, phospholipid, and cytochrome b5. Various monovalent and divalent cations further stimulated these reactions in the presence of cytochrome b5. In addition, the reactions were also markedly enhanced by various organic solvents, such as ethanol and acetone. This cytochrome P-450 showed no detectable activity toward several xenobiotics tested. P-450 LPG omega was very similar or identical to the pulmonary prostaglandin omega-hydroxylase (P-450p-2) (Yamamoto, S., Kusunose, E., Ogita, K., Kaku, M., Ichihara, K., & Kusunose, M. (1984) J. Biochem. 96, 593-603) in its molecular weight, absorption spectra, catalytic activity, peptide mapping pattern, and N-terminal amino acid sequence. However, P-450 LPG omega was more unstable than P-450p-2 on storage. In sharp contrast to P-450p-2, P-450 LPG omega was not induced by progesterone.     

Purification and characterization of two forms of fatty acid omega-hydroxylase cytochrome P-450 from rabbit kidney cortex microsomes

We have previously reported the isolation of two forms of cytochrome P-450 (P-450) with omega-hydroxylase activities toward prostaglandin A (PGA) and fatty acids, designated as P-450ka-1 and P-450ka-2, from kidney cortex microsomes of rabbits treated with di(2-ethylhexyl)phthalate [Kusunose, E. et al. (1989) J. Biochem. 106, 194-196]. In the present work, we have purified and characterized two additional forms of rabbit kidney fatty acid omega-hydroxylase, designated as P-450kc and P-450kd. The purified P-450kc and P-450kd had specific contents of 13 and 16 nmol of P-450/mg of protein, with apparent molecular weights of 52,000 and 55,000 on sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), respectively. Both the forms showed absorption maxima at 450 nm in the carbon monoxide-difference spectra for their reduced forms. These P-450s efficiently catalyzed the omega- and (omega-1)-hydroxylation of fatty acids such as caprate, laurate, myristate, and palmitate, in a reconstituted system containing P-450, NADPH-P-450 reductase, and phosphatidylcholine. Cytochrome b5 stimulated the reactions to only a slight extent. They had no detectable activity toward PGA and several xenobiotics tested. The two P-450s showed different peptide map patterns after limited proteolysis with papain or Staphylococcus aureus V8 protease.(ABSTRACT TRUNCATED AT 250 WORDS)     

Isolation of a new form of cytochrome P-450 with prostaglandin A and fatty acid omega-hydroxylase activities from rabbit kidney cortex microsomes

Two different forms of cytochrome P-450, highly active in the omega-hydroxylation of prostaglandin A, and the omega- and (omega-1)-hydroxylation of fatty acids (P-450ka-1 and P-450ka-2), have been purified from kidney cortex microsomes of rabbits treated with di(2-ethylhexyl)-phthalate. On the basis of the peptide map patterns and NH2-terminal amino acid sequence, P-450ka-1 was determined to be a new form of omega-hydroxylase cytochrome P-450, whereas P-450ka-2 is identical to P-450ka reported earlier. The first 20 NH2-terminal amino acid sequence (ALNPTRLPGSLSGLLQVAGL) and (ALSPTRLPGSFSGFLQAAGL) of P-450ka-1 and P-450ka-2 showed 90 and 80% homology with that of the lung prostaglandin omega-hydroxylase, respectively, suggesting that these three cytochromes P-450 are members of the same omega-hydroxylase cytochrome P-450 gene family.     

Isolation and sequence analysis of three cloned cDNAs for rabbit liver proteins that are related to rabbit cytochrome P-450 (form 2), the major phenobarbital-inducible form

We have isolated from rabbit liver three cDNA clones of 1400-1800 base pairs that hybridize selectively to RNA from animals treated with phenobarbital. The nucleotide sequences of the cDNAs have been determined. In the protein coding region the nucleotide sequences of two of the cDNAs are 88% homologous, and the third cDNA is about 72-74% homologous to the other two. All three are 55-60% homologous to rat liver cytochrome P-450b cDNA. The amino acid sequences derived from the cDNA sequences are about 50% homologous to those of rat liver cytochrome P-450b and rabbit liver cytochrome P-450 (form 2). The degree of homology differs substantially in different regions of the protein. The hydrophobicity profiles of these five mammalian cytochromes P-450 are very similar and contain up to eight regions of hydrophobicity that are long enough to span a membrane. These results indicate that these three cDNAs code for rabbit liver cytochromes P-450 which are different from any rabbit liver cytochrome P-450 for which amino acid sequence information is published. These cDNAs are part of a family of genes that are related to rabbit liver cytochrome P-450 (form 2) and rat liver cytochrome P-450b which are the major phenobarbital-inducible forms. The divergence of amino acid sequence between the rat and rabbit forms and the divergence of nucleotide sequences of silent sites in the two most closely related rabbit forms suggest that cytochromes P-450 have a relatively high rate of amino acid divergence compared to many other vertebrate proteins.     

Microheterogeneity in the major phenobarbital-inducible forms of rabbit liver microsomal cytochrome P-450 as revealed by nucleotide sequencing of cloned cDNAs

We have isolated one full-length cDNA clone, termed pHP1, and a number of clones of shorter insert lengths, tentatively called b14, b46, etc., all encoding phenobarbital- (PB-) inducible forms of rabbit liver microsomal cytochrome P-450, and determined their nucleotide sequences. The polypeptides encoded by these cDNAs can be classified into five types, represented by HP1, b14, b46, b52, and b54, the deduced amino acid sequences of which are more than 95% similar to one another. Amino acid differences among them total 24 positions, which are distributed over the entire sequence, in contrast to the microheterogeneity observed in two PB-inducible rat liver microsomal cytochromes P-450 (P-450b and P-450e). The primary structure deduced for the HP1 protein is 97% similar to that determined for rabbit P-450 LM2 (form 2), which has been purified by Coon and co-workers [van der Hoeven, T. A., Haugen, D. A., & Coon, M. J. (1974) Biochem. Biophys. Res. Commun. 60, 569-675; Haugen, D. A., & Coon, M. J. (1976) J. Biol. Chem. 251, 7929-7939] as the major PB-inducible form of rabbit liver microsomal cytochrome P-450. The amino acid sequence of P-450(1), which we have purified as the major PB-inducible rabbit liver cytochrome P-450, was partially determined with the sequence reported for P-450 LM2 as a reference. The two sequences are closely similar to each other, but at least two amino acid differences can be detected between them.(ABSTRACT TRUNCATED AT 250 WORDS)     

Comparison of primary structures deduced from cDNA nucleotide sequences for various forms of liver microsomal cytochrome P-450 from phenobarbital-treated rabbits

cDNA clones, termed pHP2, b32-3, b43, and b43-1, encoding cytochromes P-450 that are expressed in the liver of phenobarbital- (PB-) treated rabbits were isolated, and their nucleotide sequences were determined. pHP2 cDNA contains an open reading frame for a 490-residue protein and is a full-length counterpart of pP-450PBc2 [Leighton, J. K., Debrunner-Vossbrinck, B. A., & Kemper, B. (1984) Biochemistry 23, 204-210]. The b32-3 insert has a sequence for a protein whose primary structure is 91% similar to that of progesterone 21-hydroxylase P-450 1, though this cDNA lacks the sequence encoding the amino-terminal 110 residues. The overlapping clones b43 and b43-1 together encode an ethanol-inducible form of cytochrome P-450, though the amino-terminal five or more residues are missing in the composite b43/b43-1 sequence. Northern blot analysis showed that the b43/b43-1 protein is more strongly inducible by polycyclic aromatic hydrocarbons and isosafrole than by PB, in contrast to the case of the HP2 and b32-3 proteins. A comparison of the primary structures of eight forms of cytochrome P-450, including the HP2, b32-3, and b43/b43-1 proteins, that are expressed in the liver of PB-treated rabbits showed that 149 out of 487-492 amino acid residues are conserved in these cytochromes P-450. The eight forms can be assigned to three rabbit cytochrome P-450 gene subfamilies, P450IIB, P450IIC, and P450IIE. It was also shown that the members of the rabbit P450IIC subfamily can be further classified into three subgroups on the basis of their sequence similarity.     

Cloning and sequence determination of a complementary DNA related to human liver microsomal cytochrome P-450 S-mephenytoin 4-hydroxylase

A cDNA sequence related to the human cytochrome P-450 responsible for S-mephenytoin 4-hydroxylation (P-450MP) has been isolated from a human liver bacteriophage lambda gt11 library with antibodies specific for P-450MP. The total length of the cDNA is 2.5 kilobases (kb), of which there is a 1.6-kb EcoRI fragment coding for all but five amino acids corresponding to the N-terminus of the protein and including a small noncoding region at the 3' end. This 1.6-kb fragment has been sequenced and used as a probe to analyze human genomic DNA and liver RNA. The sequence shows extensive sequence similarity with that of rabbit liver cytochrome P-450 progesterone 21-hydroxylase [Tukey, R. H., Okino, S., Barnes, H., Griffin, K. J., & Johnson, E. F. (1985) J. Biol. Chem. 260, 13347-13354], and this cDNA, like the rabbit clone, appears to be part of a multigene family. At least two liver mRNA species, 2.2 kb and 3.5 kb, hybridize to the cDNA sequence. The cloning of this gene should aid in analyzing the molecular basis for the genetic polymorphism of S-mephenytoin 4-hydroxylation reported in humans.     

Nucleotide sequence of a human liver cytochrome P-450 related to the rat male specific form

P-450 human-2 is a human cytochrome P-450 that is immunochemically related to a constitutive male-specific cytochrome P-450 (P-450-male) and the phenobarbital-inducible P-450b/e in rat liver. By screening a human liver cDNA library in bacteriophage lambda gt11, we isolated a clone with an insert length of 1,847 bases (pHY13). The clone was sequenced and shown to code for a protein of 487 amino acids. The N-terminal 11-amino-acid sequence was in agreement with the protein sequence of P-450 human-2. The nucleotide sequence of pHY13 showed less than 50% similarity with those of human cytochrome P-450s, pHP-450(1), HLp, P-450NF, P1-450 4, and P3(450), but the nucleotide sequence of pHY13 is 80% similar to the reported sequence of rat cytochrome P-450, P-450(M-1). In addition, the coding sequence of pHY13 showed close similarity to that of MP-8, which was recently reported as the sequence corresponding to human cytochrome P-450MP, although no apparent similarity was observed in their 3' non-coding sequences except for the first 75 bases and the expected length of the complete sequences. These results, together with the immunochemical data, indicate that P-450 human-2 is closely related, but not identical, to P-450MP, and may belong to the category of developmentally regulated constitutive cytochrome P-450s.     

Hamster cytochrome P-450 IA gene family, P-450IA1 and P-450IA2 in lung and liver: cDNA cloning and sequence analysis.

Two cDNA clones, 2C19 and 4C1, were isolated from a lung cDNA library of 3-methylcholanthrene (MC)-treated hamster by using rat P-450c cDNA as a probe. The cDNA determined from 2C19 and 4C1 was 2,916 bp long and contained an entire coding region for 524 amino acids with a molecular weight of 59,408. The deduced amino acid sequence showed a 85% identity with that of rat P-450c indicating 2C19 and 4C1 encode the hamster P-450IA1 protein. Another cDNA clone, designated H28, was isolated from a MC-induced hamster liver cDNA library by using the hamster lung 2C19 or 4C1 cDNA clone as a probe. H28 was 1,876 bp long and encoded a polypeptide of 513 amino acids with a molecular weight of 58,079. The N-terminal 20 residues deduced from nucleotide sequence of H28 were identical to those determined by sequence analysis of purified hamster hepatic P-450MCI. The high similarity of the nucleotide and deduced amino acid sequences between H28 and P-450IA2 of other species indicated that H28 encoded a P-450 protein which belongs to the P-450IA2 family. Northern blot analysis revealed that the mRNAs for hamster P-450IA1 and IA2 were about 2.9 and 1.9 kb long, respectively. Hamster P-450IA1 mRNA was induced to the same level in lungs as in livers by MC treatment, whereas hamster P-450IA2 mRNA was induced and expressed only in hamster liver.     

Cloning and expression of three rabbit kidney cDNAs encoding lauric acid omega-hydroxylases

cDNAs encoding three cytochrome P-450 enzymes were cloned from a rabbit kidney cDNA library. These three cDNAs exhibit greater than 90% nucleotide sequence identity across the coding region. This degree of sequence identity is also seen with P450IVA4, an enzyme that catalyzes the omega-hydroxylation of prostaglandins and that is elevated during pregnancy and induced by progesterone in rabbit lung. The 3' untranslated regions of the three cDNAs display very little sequence identity, suggesting that they are the products of distinct genes. The predicted amino acid sequences derived from each cDNA and for P450IVA4 exhibit about 85% identity. Each cDNA was inserted into an expression vector for transient transfection of COS-1 cells. The transfected cells each expressed a protein recognized by antibodies to P450IVA4. Microsomes isolated from the cells transfected with each cDNA efficiently catalyzed the omega-hydroxylation of lauric acid with rates that greatly exceed that catalyzed by microsomes isolated from the host cell line. One of the cDNAs encodes an enzyme that omega-hydroxylates prostaglandin A1; however, the specific activity was 2 orders of magnitude lower than that for lauric acid. Our results indicate that the substrate selectivity of the kidney P-450s encoded by these cDNAs is distinct from that of the lung P450IVA4 and that multiple enzymes comprise P-450 class IVA in the rabbit.     

Gene conversion and differential regulation in the rat P-450 IIA gene subfamily. Purification, catalytic activity, cDNA and deduced amino acid sequence, and regulation of an adult male-specific hepatic testosterone 15 alpha-hydroxylase

Previous studies on regulation of the rat hepatic P-450 IIA1 cDNA have provided evidence for a second gene closely related to but regulated in a manner quite distinct from P-450 IIA1. Experiments were carried out to isolate the cDNA for this second P-450 gene, designated IIA2, in order to study more directly its regulation and relationship to IIA1. A full length cDNA to IIA2 was isolated from an adult male rat liver lambda gt11 library and sequenced completely. The IIA2 cDNA shared 93% nucleotide and 88% deduced amino acid similarities with the previously characterized IIA1 cDNA (Nagata, K., Matsunaga, T., Gillette, J., Gelboin, H. V., and Gonzalez, F. J. (1987) J. Biol. Chem. 262, 2787-2793). The protein, deduced from the cDNA, contained 492 amino acids and a calculated Mr of 56,352. Comparison of the IIA1 and IIA2 cDNAs revealed areas of low nucleotide similarity interspersed with areas of absolute identity, suggesting that gene conversions have played a role in the evolution of the IIA subfamily. Expression of IIA1 and IIA2 mRNAs in rat liver during development was studied with use of specific oligonucleotide probes. IIA1 mRNA was increased within 1 week after birth in both male and female rats; however, its postpubertal expression was decreased in males yet remained elevated in females. In contrast, IIA2 mRNA was markedly induced in male rat liver at puberty but was not detectable in females at any age examined. Furthermore, only IIA1 mRNA was induced by treatment of rats with 3-methylcholanthrene. Although IIA1 and IIA2 mRNAs were actively expressed in hepatic tissue, no evidence for their expression was found in lung, kidney, or intestine, suggesting that the IIA genes have tissue-specific promoters. Reconstituted enzyme assays on the purified protein products P-450 IIA1 and P-450 IIA2 showed that, although both enzymes share considerable sequence similarity, their positional specificities toward the prototype substrate testosterone are strikingly different.     

cDNA cloning and functional expression in yeast Saccharomyces cerevisiae of beta-naphthoflavone-induced rabbit liver P-450 LM4 and LM6

A cDNA library was constructed from liver mRNA of a beta-naphthoflavone-induced rabbit. Two clones pLM4-1 and pLM6-1 containing 2.2-kbp inserts that hybridized at low stringincy with a mouse P1 P-450 probe were selected. The clone pLM4-1 was fully sequenced and found to contain a full-length cDNA coding for cytochrome P-450 LM4. Partial sequence and restriction mapping made it possible to identify pLM6-1 as coding for the major part of cytochrome P-450 LM6. Cloned LM4-1 cDNA was reformed by deletion of the 5' and 3' non-coding regions before insertion into yeast expression vectors PYe DP1/10. A similar operation was performed on pLM6-1 cDNA after replacement of the missing N-terminus-coding sequences by homologous sequences form the pLM4-1 clone resulting in a chimeric cytochrome P-450 coding sequence. Expression of cloned rabbit cytochrome P-450 into transformed yeast was optimized by studying the effect of the nature of the DNA sequence just preceding the initiation codon on the level of cytochrome P-450 production. Yeast synthesized cytochromes P-450 were characterized by immunoblotting, spectra and catalytic activity determinations. Cloned cytochrome P-450 LM4 was found by all criteria to be identical to the authentic rabbit one. The chimeric cytochrome P-450 that contains the 143 N-terminal amino acids of cytochrome P-450 LM4 and the remaining 375 amino acids of cytochrome P-450 LM6 was found to exhibit most of the authentic cytochrome P-450 LM6 catalytic properties. Enzymatic and evolutionary implications of these results are discussed.     

Reciprocal regulation of sex-dependent expression of testosterone 15 alpha-hydroxylase (P-450(15 alpha)) in liver and kidney of male mice by androgen. Evidence for a single gene

Testosterone 15 alpha-hydroxylase activities and its mRNA levels are higher in kidneys than in livers from male 129/J mice. Castration of 129/J male mice resulted in repression of P-450(15 alpha) in kidney, but increased it in liver. Two types of cDNA (p15 alpha-29 (Type I) and -15 (Type II)) encoding P-450(15 alpha) were previously cloned from 129/J female livers (Burkhart, B.A., Harada, N., and Negishi, M. (1985) J. Biol. Chem. 260, 15357-15361). With the use of p15 alpha-29 as a probe, Type I and II P-450(15 alpha) cDNAs were isolated from libraries of 129/J kidney poly(A)+ RNA. The nucleotide sequences of the cDNAs showed that Type I and II cDNAs from liver and kidney were identical and shared 98.3% similarity. The deduced amino acid sequence from a full-length Type I cDNA indicated that Type I P-450(15 alpha) consists of 494 amino acids with a molecular weight of 56,594. Nine amino acid substitutions were found in the Type II clone in 432 amino acids overlapping Type I. Type I cDNA clones accounted for approximately 90% P-450(15 alpha) clones isolated from a male kidney library, whereas approximately 90% of cDNA clones in a female kidney library were Type II. Liver cDNA libraries from males and females contained similar ratios of Type I and II. Effects of castration on Type I and II mRNAs were determined by Southern hybridization of a 32P-labeled ClaI-ClaI fragment from p15 alpha-29 to cDNAs synthesized from kidney and liver poly(A)+ RNAs prepared from sham-operated, castrated 129/J mice. The double-stranded cDNAs were digested with ClaI and PstI prior to gel electrophoresis to create the diagnostic restriction fragments specific for Type I or II. Castration resulted in decreased levels of Type I mRNA in male kidney. In male liver, only Type I mRNA rose significantly in response to castration. Testosterone administration returned the Type I mRNA to normal levels in castrated mice. It therefore appears that the high levels of P-450(15 alpha) in male kidney were due to androgen-dependent induction of Type I mRNA. Both Types I and II were repressed in male liver, which results in decreased levels of P-450(15 alpha). Androgen was responsible for the repression and expression of Type I in liver and kidney, but not Type II.