Nicotinamide adenine dinucleotide-induced multimerization of the co-repressor CtBP1 relies on a switching tryptophan.
The Journal of biological chemistry
confidence
Key findings
NAD(H)-dependent tetramerization of CtBP1 via a switching tryptophan (Trp318); biochemical/molecular mechanism study, no clinical endpoints.
View source on PubMed (PMID 23940047) ↗
- Sample size
- Not applicable
- Population
- In vitro and in vivo molecular biology studies (CtBP1 protein mutants)
- Dosing
- Not applicable
- Duration
- Not applicable
- Route
- Not applicable
- Blinding
- not_reported
- Controls
- none
- Drug class
- coenzyme
Full abstract
The transcriptional co-repressor C-terminal binding protein (CtBP) interacts with a number of repressor proteins and chromatin modifying enzymes. How the biochemical properties including binding of dinucleotide, oligomerization, and dehydrogenase domains of CtBP1 direct the assembly of a functional co-repressor to influence gene expression is not well understood. In the current study we demonstrate that CtBP1 assembles into a tetramer in a NAD(H)-dependent manner, proceeding through a dimeric intermediate. We find that NAD-dependent oligomerization correlates with NAD(+) binding affinity and that the carboxyl terminus is required for assembly of a dimer of dimers. Mutant CtBP1 proteins that abrogate dinucleotide-binding retain wild type affinity for the PXDLS motif, but do not self-associate either in vitro or in vivo. CtBP1 proteins with mutations in the dehydrogenase domain still retain the ability to self-associate and bind target proteins. Both co-immunoprecipitation and mammalian two-hybrid experiments demonstrate that CtBP1 self-association occurs within the nucleus, and depends on dinucleotide binding. Repression of transcription does not depend on dinucleotide binding or an intact dehydrogenase domain, but rather depends on the amino-terminal domain that recruits PXDLS containing targets. We show that tryptophan 318 (Trp(318)) is a critical residue for tetramer assembly and likely functions as a switch for effective dimerization following NAD(+) binding. These results suggest that dinucleotide binding permits CtBP1 to form an intranuclear homodimer through a Trp(318) switch, creating a nucleation site for multimerization through the C-terminal domain for tetramerization to form an effective repression complex.