Abstract

Diazepam-binding inhibitor (DBI)/acyl-CoA-binding protein (ACBP) is a highly conserved 10-kD polypeptide expressed in various organs and implicated in the regulation of multiple biological processes such as GABAA/benzodiazepine receptor modulation, acyl-CoA metabolism, steroidogenesis, and insulin secretion. To extend our knowledge about the biology of DBI/ACBP and to elucidate the molecular mechanisms responsible for regulating DBI/ACBP gene expression, we have studied the androgen-regulated expression of DBI/ACBP transcripts in the human prostatic adenocarcinoma cell line LNCaP and have cloned and characterized a human gene encoding DBI/ACBP. Northern blotting, reverse transcription-assisted polymerase chain reaction (RT-PCR), ribonuclease protection, and 5' RACE analysis (rapid amplification of cDNA ends) of DBI/ACBP transcripts in LNCaP cells revealed androgen-regulated expression of multiple transcripts originating from multiple transcription start sites and alternative processing. The most abundant type of transcripts (referred to as type 1 transcripts) encodes genuine DBI/ACBP of 86 amino acids, while the minor type (type 2 transcripts) harbors an insertion of 86 bases and might encode an unrelated protein of 67 amino acids. Examination of a cloned DBI/ACBP gene revealed a structural organization of four exons present in all transcripts and one alternatively used exon present only in type 2 transcripts. The promoter region is located in a CpG island and lacks a canonical TATA box. Transient transfection of DBI/ACBP promoter fragments into LNCaP cells demonstrated that a region of 1.1 kb upstream of the translation start site is able to drive high-level expression of luciferase in LNCaP cells in an androgen-regulated fashion. Taken together these data indicate that the isolated human gene encoding DBI/ACBP is functional, has a high degree of structural similarity with the corresponding rat gene, exhibits hallmarks of a typical housekeeping gene, and harbors cis-acting elements that are at least partially responsible for androgen-regulated transcription in LNCaP cells.

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