Summary
The CYP1 (HAP1) gene of Saccharomyces cerevisiae is known to activate a number of target genes in response to the presence of heme. Several features of the protein, deduced from the sequence of the gene, suggest that CYP1 is a general sensor of the redox state of the cell. To investigate further the function of CYP1, we analysed its effects on the transcription of two genes, HEM13 and 14DM, which are preferentially expressed in anaerobiosis. HEM13 encodes coproporphyrinogen oxidase which catalyses the sixth enzymatic step in the heme biosynthetic pathway and 14DM encodes lanosterol-14-demethylase which is involved in sterol biosynthesis and is a member of the cytochrome P450 family. Isogenic CYP1 + and cyp1° deleted strains, either heme-sufficient or heme-deficient (HEM1 disrupted), were grown in aerobic or anaerobic conditions, and transcripts of HEM13 and 14DM were analysed on Northern blots. The results show that in anaerobic and in heme-deficient cells, CYP1 activates the transcription of HEM13 and inhibits that of 14DM. Opposite effects of CYP1 are observed in aerobic, heme-sufficient cells. We concluded that: (i) CYP1 is an efficient activator especially in heme-depleted cells; (ii) CYP1 exerts both positive and negative regulatory effects; (iii) the nature of the regulatory function of CYP1 depends on the target gene; and (iv) for a given gene, the presence or absence of heme or oxygen reverses the sense of CYP1-dependent regulation.
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References
Beato M (1989) Gene regulation by steroid hormones. Cell 56:335–344
Clavilier L, Aubert G, Somlo M, Slonimski PP (1976) Réseau d'interactions entre des gènes non liés: régulation synergique ou antagoniste de la synthèse de l'iso-1 cytochrome c, de l'iso-2 cytochrome c et du cytochrome b2. Biochimie 58:155–172
Creusot F, Verdière J, Gaisne M, Slonimski PP (1988) CYP1 (HAP1) regulator of oxygen-dependent gene expression in yeast. I. Overall organization of the protein sequence displays several novel structural domains. J Mol Biol 204:263–276
Guarente L, Mason T (1983) Heme regulates transcription of the CYC1 gene of S. cerevisiae via an upstream activation site Cell 32:1279–1286
Guarente L, Lalonde B, Giffon P, Alani E (1984) Distinctly regulated tandem upstream activation sites mediate catabolite repression of the CYC1 gene of S. cerevisiae. Cell 36:503–511
Herskowitz I (1989) A regulatory hierarchy for cell specialization in yeast. Nature 342:749–757
Hortner M, Ammerer G, Hartter E, Hamilton B, Rytka J, Bilinski T, Ruis H (1982) Regulation of synthesis of catalase and iso-1 cytochrome c in S. cerevisiae by glucose, oxygen and heme. Eur J Biochem 128:179–184
Ito H, Fukuda K, Murata A, Kimura A (1983) Transformation of intact yeast cells treated with alkali cations. J Bacteriol 153:153–168
Kälb V, Woods C, Turi T, Dey C, Sutter T, Loper J (1987) Primary structure of the P450 lanosterol demethylase gene from S. cerevisiae. DNA 6:529–537
Kammerer B, Guyonvarch A, Huber JC (1984) Yeast regulatory gene PPR1 I. Nucleotide sequence, restriction map and codon usage. J Mol Biol 180:239–250
King DJ, Wiseman A (1987) Yeast cytochrome P448 enzymes and the activation of mutagens, including carcinogens. In: Wiseman A (ed) Enzyme induction mutagen activation and carcinogen testing in yeast. Ellis Horwood, Chichester, UK, pp 115–167
Kotal P, Kotyk A, Jirsa M, Kordac V (1988) Effect of chloroquine on membrane permeability in yeast-release of cellular coproporphyrin. Int J Biochem 20:539–542
Laz T, Pietras D, Sherman F (1984) Differential regulation of the duplicated isocytochrome c genes in yeast. Proc Natl Acad Sci USA 81:4475–4479
Levine M, Manley J (1989) Transcriptional regression of eukaryotic promoters. Cell 59:405–408
Loison G, Losson R, Lacroute F (1980) Constitutive mutants for orotidine 5-phosphate decarboxylase and dihydroorotic acid dehydrogenase in S. cerevisiae. Curr Genet 2:39–44
Lowry C, Zitomer R (1984) Oxygen regulation of anaerobic and aerobic genes mediated by a common factor in yeast. Proc Natl Acad Sci USA 81:6129–6133
Marres C, Van Loon P, Oudshoorn P, Van Steeg H, Grivell L, Slater E (1985) Nucleotide sequence analysis of the nuclear gene coding for manganese superoxide dismutase of yeast mitochondria, a gene previously assumed to code for the Rieske iron-sulphur protein. Eur J Biochem 147:153–161
Meussdoerffer F, Flechter A (1986) Effect of mitochondrial cytochromes and heme content on cytochrome P450 in S. cerevisiae. J Gen Microbiol 132:2187–2193
Ohaniance L, Chaix P (1966) Effet inhibiteur du Zn sur la biosynthèse induite par l'oxygène des enzymes respiratoires de la levure. Biochim Biophys Acta 128:228–238
Pfeifer K, Arcangioli B, Guarente L (1987a) Yeast HAP1 activator competes with the factor RC2 for binding to the upstream activation site UAS1 of the CYC1 gene. Cell 49:9–18
Pfeifer K, Presant T, Guarente L (1987b) Yeast HAP1 activator binds to two upstream activation sites of different sequence. Cell 49:19–27
Pfeifer K, Kwang-Soo K, Kogan S, Guarente L (1989) Functional dissection and sequence of yeast HAP1 activator. Cell 56:291–301
Rangarajan P, Padmanaban G (1989) Regulation of cytochrome P450 b/e gene expression by a heme- and phenobarbitone-modulated transcription factor. Proc Natl Acad Sci USA 86:3963–3967
Ross E, Schatz G (1976) Cytochrome c1 of baker's yeast. II. Synthesis of cytoplasmic ribosomes and influences of oxygen and heme on accumulation of the apoprotein. J Biol Chem 251:1997–2004
Trueblood C, Poyton R (1988) Identification of REO1, a gene involved in negative regulation of COX5b and ANB1 in aerobically grown S. cerevisiae. Genetics 120:671–680
Verdière J, Petrochilo E (1979) CYP3-15: An up-promoter mutation at the iso-2 cytochrome c structural gene locus and its interaction with other independent regulatory mutations of cytochrome c synthesis in S. cerevisiae. Mol Gen Genet 175:209–216
Verdière J, Creusot F, Guérineau M (1985) Regulation of the expression of the iso2-cytochrome c gene in S. cerevisiae: cloning of the positive regulatory gene CYP1 and identification of the region of its target sequence on the structural gene CYP3. Mol Gen Genet 199:524–533
Verdière J, Creusot F, Guarente L, Slonimski PP (1986) The overproducer CYP1 and the underproducer hap1 mutations are alleles of the same gene which regulates in trans the expression of the structural genes encoding iso-cytochromes c. Curr Genet 10:339–342
Verdière J, Gaisne M, Guiard B, Defranoux N, Slonimski PP (1988) CYP1 (HAP1) regulator of oxygen-dependent gene expression in yeast. II. Missense mutation suggests alternative Zn-fingers as discriminating agents of gene control. J Mol Biol 204:277–282
Winkler H, Adam G, Mattes E, Schantz M, Harting A, Ruis H (1988) Coordinate control of synthesis of mitochondrial and non-mitochondrial hemoproteins; a binding site for the HAP1 (CYP1) protein in the UAS region of the yeast catalase T gene (CTT1). EMBO J 7:1799–1804
Wright C, Zitomer R (1984) A positive regulatory site and a negative regulatory site control the expression of the S. cerevisiae CYC7 gene. Mol Cell Biol 4:2023–2030
Zagorec M, Labbe-Bois R (1986) Negative control of yeast coproporphyrinogen oxidase synthesis by heme and oxygen. J Biol Chem 261:2506–2509
Zagorec M, Buhler JM, Treich I, Keng T, Guarente L, Labbe-Bois R (1988) Isolation, sequence and regulation by oxygen of the yeast HEM13 gene coding for coproporphyrinogen oxidase. J Biol Chem 263:9718–9724
Zitomer R, Sellers J, McCarter D, Hastings G, Wick P, Lowry C (1987) Elements involved in oxygen regulation of the S. cerevisiae CYC7 gene. Mol Cell Biol 5:2521–2526
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Communicated by W. Gajewski
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Verdière, J., Gaisne, M. & Labbe-Bois, R. CYP1 (HAP1) is a determinant effector of alternative expression of heme-dependent transcription in yeast. Molec. Gen. Genet. 228, 300–306 (1991). https://doi.org/10.1007/BF00282480
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DOI: https://doi.org/10.1007/BF00282480