CTBP2

C-terminal-binding protein 2 also known as CtBP2 is a is_associated_with::protein that in humans is encoded by the CTBP2 is_associated_with::gene.

Function
The CtBPs - CtBP1 and CtBP2 in mammals - are among the best characterized transcriptional is_associated_with::corepressors. They typically turn their target genes off. They do this by binding to sequence-specific DNA-binding proteins that carry a short motif of the general form Proline-Isoleucine-Aspartate-Leucine-Serine (the PIDLS motif). They then recruit histone modifying enzymes, is_associated_with::histone deacetylases, histone is_associated_with::methylases and histone is_associated_with::demethylases. These enzymes are thought to work together to remove activating and add repressive histone marks. For example, histone deacetylase 1 (is_associated_with::HDAC1) and is_associated_with::HDAC2 can remove the activating mark histone 3 acetyl lysine 9 (H3K9Ac), then the histone methylase G9a can add methyl groups, while the histone demethylase lysine specific demethylase 1 (is_associated_with::LSD1) can remove the activating mark H3K4me.

The CtBPs bind to many different DNA-binding proteins and also bind to co-repressors that are themselves bound to DNA-binding proteins, such as Friend of GATA (Fog). CtBPs can also dimerize and multimerize to bridge larger transcriptional complexes. They appear to be primarily scaffold proteins that allow the assembly of gene repression complexes.

One interesting aspect of CtBPs is their ability to bind to NADH and to a lesser extent NAD+. It has been proposed that this will enable them to sense the metabolic status of the cell and to regulate genes in response to changes in the NADH/NAD+ ratio. Accordingly, CtBPs have been found to be important in fat biology, binding to key proteins such as is_associated_with::PRDM16, NRIP, and FOG2.

The full functional roles of CtBP proteins in mammals have been difficult to evaluate because of partial redundancy between CtBP1 and CtBP2. Similarly, the early lethality of the CtBP2 knockout and of double knockout mice has precluded detailed analysis of the cellular effects of deleting these proteins. Important results have emerged from model organisms where there is only a single CtBP gene. In is_associated_with::Drosophila CtBP is involved in development and in is_associated_with::circadian rhythms. In the worm C. elegans CtBP is involved in life span. Both circadian rhythms and life span appear to be linked to metabolism supporting the role for CtBPs in metabolic sensing.

The mammalian CtBP2 gene produces alternative transcripts encoding two distinct proteins. In addition to the transcriptional repressor (is_associated_with::corepressor) discussed above, there is a longer isoform that is a major component of specialized synapses known as synaptic ribbons. Both proteins contain a NAD+ binding domain similar to NAD+-dependent 2-hydroxyacid dehydrogenases. A portion of the 3'-untranslated region was used to map this gene to chromosome 21q21.3; however, it was noted that similar loci elsewhere in the genome are likely. Blast analysis shows that this gene is present on chromosome 10.

Interactions
CTBP2 has been shown to interact with:


 * is_associated_with::FHL3,
 * is_associated_with::KLF3,
 * is_associated_with::KLF8,
 * is_associated_with::Mdm2,
 * is_associated_with::NRIP1,
 * is_associated_with::SOX6, and
 * is_associated_with::ZFPM2.