DNA polymerase beta

In eukaryotic cells, DNA polymerase beta (POLB) performs base excision repair (BER) required for DNA maintenance, replication, recombination, and drug resistance. POLB thus has a key role in maintaining the stability of the mitochondrial genome. This finding was considered to provide evidence against the error catastrophe theory of aging. Base excision repair Cabelof et al. measured the ability to repair DNA damage by the BER pathway in tissues of young (4-month-old) and old (24-month-old) mice. In all tissues examined (brain, liver, spleen and testes) the ability to repair DNA damage declined significantly with age, and the reduction in repair capability correlated with decreased levels of DNA polymerase beta at both the protein and messenger RNA levels. Numerous investigators have reported an accumulation of DNA damage with age, especially in brain and liver. Cabelof et al. suggested that the inability of the BER pathway to repair damages over time may provide a mechanistic explanation for the frequent observations of DNA accumulation of damage with age. == Regulation of expression ==

DNA polymerase beta maintains genome integrity by participating in base excision repair. Overexpression of POLB mRNA has been correlated with a number of cancer types, whereas deficiencies in POLB results in hypersensitivity to alkylating agents, induced apoptosis, and chromosomal breaking. Therefore, it is essential that POLB expression is tightly regulated. POLB gene is upregulated by CREB1 transcription factor's binding to the cAMP response element (CRE) present in the promoter of the POLB gene in response to exposure to alkylating agents. POLB gene expression is also regulated at the post transcriptional level as the 3'UTR of the POLB mRNA has been shown to contain three stem-loop structures that influence gene expression. These three-stem loop structures are known as M1, M2, and M3, where M2 and M3 have a key role in gene regulation. M3 contributes to gene expression, as it contains the polyadenylation signal followed by the cleavage and polyadenylation site, thereby contributing to pre-mRNA processing. M2 has been shown to be evolutionary conserved, and, through mutagenesis, it was shown that this stem loop structure acts as a RNA destabilizing element. In addition to these cis-regulatory elements present within the 3'UTR a trans-acting protein, HAX1 is thought to contribute to the regulation of gene expression. Yeast three-hybrid assays have shown that this protein binds to the stem loops within the 3'UTR of the POLB mRNA, however the exact mechanism in how this protein regulates gene expression is still to be determined. == Interactions ==

DNA polymerase beta has been shown to interact with PNKP and XRCC1. == See also ==