The TIP60 Complex Is a Conserved Coactivator of HIF1A.

Hypoxia-inducible factors (HIFs) are critical regulators of the cellular response to hypoxia. Despite their established roles in normal physiology and numerous pathologies, the molecular mechanisms by which they control gene expression remain poorly understood. We report here a conserved role for the TIP60 complex as a HIF1 transcriptional cofactor in Drosophila and human cells. TIP60 (KAT5) is required for HIF1-dependent gene expression in fly cells and embryos and colorectal cancer cells. HIF1A interacts with and recruits TIP60 to chromatin. TIP60 is dispensable for HIF1A association with its target genes but is required for HIF1A-dependent chromatin modification and RNA polymerase II activation in hypoxia. In human cells, global analysis of HIF1A-dependent gene activity reveals that most HIF1A targets require either TIP60, the CDK8-Mediator complex, or both as coactivators for full expression in hypoxia. Thus, HIF1A employs functionally diverse cofactors to regulate different subsets of genes within its transcriptional program.

Mammalian histone acetyltransferase complexes.

Over the last decade, great progress has been made in elucidating how the human genome operates in the chromatin context. This paper describes our work on two human acetyltransferases, PCAF and TIP60, and their interaction partners. This study provides new clues on the function of these enzymes. In a striking parallel with the general transcription factor TFIID, PCAF complex contains proteins that have histone-like domains. We speculate that these subunits can presumably form a nucleosome-like structure on DNA, which would allow PCAF to contribute to the maintenance of an active state of chromatin. On the other hand, TIP60 complex contains two eukaryotic homologs of bacterial RuvB helicase/ATPse, involved in recombination and repair. Accordingly, expression of a dominant negative mutant of TIP60 in living cells interferes with their ability to repair DNA damage, which points out, for the first time, a role for a histone acetyltransferase in a process other than transcription. We also have evidence implicating TIP60 in the apoptotic response to DNA damage.

Mammalian histone acetyltransferase complexes

Over the last decade, great progress has been made in elucidating how the human genome operates in the chromatin context. This paper describes our work on two human acetyltransferases, PCAF and TIP60, and their interaction partners. This study provides new clues on the function of these enzymes. In a striking parallel with the general transcription factor TFIID, PCAF complex contains proteins that have histone-like domains. We speculate that these subunits can presumably form a nucleosome-like structure on DNA, which would allow PCAF to contribute to the maintenance of an active state of chromatin. On the other hand, TIP60 complex contains two eukaryotic homologs of bacterial RuvB helicase/ATPse, involved in recombination and repair. Accordingly, expression of a dominant negative mutant of TIP60 in living cells interferes with their ability to repair DNA damage, which points out, for the first time, a role for a histone acetyltransferase in a process other than transcription. We also have evidence implicating TIP60 in the apoptotic response to DNA damage.