Tissue-specific expression of human P-450AROM. The promoter responsible for expression in adipose tissue is different from that utilized in placenta.
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Mahendroo MS, Means GD, Mendelson CR, Simpson ER
Tissue-specific expression of human P-450AROM. The promoter responsible for expression in adipose tissue is different from that utilized in placenta.
J Biol Chem. 1991 Jun 15;266(17):11276-81.
- PubMed ID
- 2040633 [ View in PubMed]
- Abstract
The biosynthesis of estrogens from androgens is catalyzed by a enzyme of the endoplasmic reticulum termed aromatase cytochrome P-450 (P-450AROM). The gene encoding P-450AROM was isolated in our laboratory utilizing a full-length P-450AROM cDNA and a primer-extended cDNA obtained from human placental libraries as probes. We have found that the P-450AROM gene spans at least 75 kilobases and the region encoding the P-450AROM protein is comprised of nine exons. In addition, there are at least two untranslated exons, I.1 and I.2, upstream of which are found putative promoter sequences thought to be responsible for expression of P-450AROM in placenta. To determine if these promoters are utilized to regulate P-450AROM expression in adipose tissue, we have used polymerase chain reaction technology in an attempt to amplify the untranslated exons out of human adipose total RNA. The untranslated exons could not be amplified out of adipose RNA although they could be amplified out of placental RNA. When oligonucleotides corresponding to these untranslated exons were used in Northern analysis of RNA from human adipose stromal cells, no hybridizable mRNA species was detectable. Putative promoter sequences 326 and 110 base pairs (bp) upstream of the 5' end of exon II were evaluated as adipose P-450AROM promoters by primer extension analysis and S1 nuclease protection assays. Both methods suggest a start site of transcription 26 bp down-stream of the TATAAA sequence located 110 bp from the placental intron-exon II junction. These results indicate that tissue-specific regulation of aromatase activity in the human is achieved in part by the use of alternative transcriptional start sites and tissue-specific promoters.