Cooperative interactions between PBX, PREP, and HOX proteins modulate the activity of the α2(V) collagen (COL5A2) promoter

Dmitri Penkov, Shizuko Tanaka, Giuliana Di Rocco, Jens Berthelsen, Francesco Blasi, Francesco Ramirez

Research output: Contribution to journalArticlepeer-review

39 Scopus citations

Abstract

Cell type-specific expression of the human α2(V) collagen (COL5A2) gene depends on a cis-acting element that consists of two contiguous protein binding sites (FPA and FPB) located between nucleotides -149 and -95, relative to the transcription start site. The present study focused on the characterization of the FPB-bound complex. DNA binding assays and cell transfection experiments revealed that the bipartite core sequence of FPB (5'-ATCAATCA-3') binds the PBX1/2, PREP1, and HOXB1 proteins, and this in turn leads to promoter transactivation. In the presence of all three nuclear factors, cooperative interactions between recombinant PBX1 and PREP1 or PBX1 and HOXB1 result in binding of the heterodimers to FPB in vitro. Similarly, overexpression of different combinations of PBX1, PREP1, and HOXB1 transactivates FPB-driven transcription. In contrast to the composition of the FPB complex purified from COL5A2-positive cells, the FPB complex from COL5A2-negative cells contains PBX2 and PREP1 but lacks PBX1. However, PBX1 exogenously introduced into COL5A2-negative cells cannot stimulate FPB-driven transcription unless co-expressed with PREP1. Within the intrinsic limitations of the experimental model, our results indicate that combinatorial interactions among PBX and PREP or HOX proteins are involved in regulating tissue-specific production of collagen V.

Original languageEnglish
Pages (from-to)16681-16689
Number of pages9
JournalJournal of Biological Chemistry
Volume275
Issue number22
DOIs
StatePublished - 2 Jun 2000
Externally publishedYes

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