DNA Polymerase-β May Be the Main Player for Defective DNA Repair in Aging Rat Neurons

• Published in: Annals of the New York Academy of Sciences Vol. 928; no. 1; pp. 113 - 120
• Main Authors: Rao, Kalluri Subba, Annapurna, V. V., Raji, N. S.
• Format: Journal Article
• Language: English
• Published: Oxford, UK Blackwell Publishing Ltd 01.04.2001
• Subjects: Aging; Aging - genetics; Animals; Cellular Senescence; Cerebral Cortex - cytology; DNA Polymerase beta - physiology; DNA polymerase β; DNA Primers; DNA Repair; DNA repairs; Nerve Tissue Proteins - physiology; Neurons; Neurons - cytology; Neurons - metabolism; Oligodeoxyribonucleotides - metabolism; Rats
• ISSN: 0077-8923; 1749-6632
• DOI: 10.1111/j.1749-6632.2001.tb05641.x

: A close relationship between the DNA repair potential of various organisms and their rate of aging has been long suspected. We have been looking into the steps of the DNA repair process in isolated neurons from rats of different ages. Unscheduled DNA synthesis (UDS) was low in aging neurons, and also the response of these cells to raise their DNA repair capacity against a mutagenic challenge was poor. Attempts to identify the possible defective locus in the overall DNA repair pathways indicated that the step involving DNA polymerase may be defective. The activity of DNA polymerase‐β, the most predominant DNA polymerase in neurons that is generally considered to be a short‐patch repair enzyme, shows a significant decrease in aging neurons. Northern and Southern blotting and immunotitration experiments suggest that there may be an accumulation of inactive β polymerase molecules in the aging rat brain. Most recent preliminary studies reveal significant 3′‐5′ exonuclease activity in rat neurons at all ages. However, extension of a primer in a synthetic oligo duplex, either with a mismatch or correct base pair at the 3′ end of the primer, was low in neurons of any age and was very poor (almost undetectable) in older ones. Supplementation of neuronal extracts with pure polymerase enzyme revealed that only polymerase β, but not polymerase α, was able to increase the primer extension activity significantly in old neurons. These findings are taken to indicate an age‐dependent decline in the DNA repair capacity of neurons and that DNA polymerase β is a key player in the DNA repair mechanisms of nerve cells.