Purpose: From numerous reports on proteins involved in DNA repair and telomere maintenance that physically associate with human telomerase reverse transcriptase (hTERT), we inferred that hTERT/telomerase might play a role in DNA repair. We investigated this possibility in normal human oral fibroblasts (NHOF) with and without ectopic expression of hTERT/telomerase.Experimental Design: To study the effect of hTERT/ telomerase on DNA repair, we examined the mutation frequency rate, host cell reactivation rate, nucleotide excision repair capacity, and DNA end-joining activity of NHOF and NHOF capable of expressing hTERT/telomerase (NHOF-T).
NHOF-T was obtained by transfecting NHOF with hTERT plasmid.Results: Compared with parental NHOF and NHOF transfected with empty vector (NHOF-EV), we found that (a) the N-methyl-N-nitro-N-nitrosoguanidine-induced mutation frequency of an exogenous shuttle vector was reduced in NHOF-T, (b) the host cell reactivation rate of N-methyl-N-nitro-N-nitrosoguanidine-damaged plasmids was significantly faster in NHOF-T; (c) the nucleotide excision repair of UV-damaged DNA in NHOF-T was faster, and (d) the DNA end-joining capacity in NHOF-T was enhanced. We also found that the above enhanced DNA repair activities in NHOF-T disappeared when the cells lost the capacity to express hTERT/telomerase.Conclusions: These results indicated that hTERT/telomerase enhances DNA repair activities in NHOF. We hypothesize that hTERT/telomerase accelerates DNA repair by recruiting DNA repair proteins to the damaged DNA sites.
We investigated the phenotypic and molecular alterations in normal human oral keratinocytes (NHOK) during in vitro replication in two different culture conditions. The cells were cultured either in chemically defined Keratinocyte Growth Medium (KGM) without feeder layers or in serum-containing flavin-adenine dinucleotide (FAD) medium with feeder layers. Primary NHOK underwent 22 +/- 3 population doublings (PDs) in KGM and 42 +/- 4 PDs in FAD medium, reflecting 52% increase in replication capacity with feeder layers. In both culture conditions, exponentially replicating NHOK demonstrated telomerase activity and expression of human telomerase reverse transcriptase (hTERT) gene. Telomerase activity and hTERT expression were rapidly diminished in senescing NHOK, which exhibited small decrease of telomere length for the remaining limited cellular replications until the complete arrest of cell division. However, telomere length in senescent NHOK was 6.7 +/- 0.5 kilobase pairs (kbps), significantly longer than that (5.12 kbps) of senescent human fibroblasts. The onset of senescence was accompanied with marked induction of p16(INK4A), and this occurred in both culture systems using either KGM or FAD medium. These results indicate that replicative senescence of NHOK is associated with loss of telomerase activity followed by limited telomere shortening.
In human cells, DNA double-strand breaks (DSBs) are repaired primarily by the DNA end-joining (EJ) process and thus, abnormal DNA EJ activities lead to an accumulation of mutations and/or aneuploidy, resulting in genetic instability of cells. Since genetic instability is the hallmark of cancer cells, we studied the DNA EJ activities of normal, nonmalignant immortalized and malignant human epithelial cells to investigate the association between DNA EJ and carcinogenesis. We found a significant diminution of precise (error-free) DNA EJ activities in non-malignant immortalized human oral keratinocytes (HOK-16B) and human head and neck squamous cell carcinoma (HNSCC) cells compared to that in normal human oral keratinocytes (NHOK). Moreover, abnormal DNA EJ activities were detected exclusively in HOK-16B and HNSCC cells due to microhomology-mediated and non-microhomology-mediated end-joining activities in these cells. These data indicated that aberrant DNA EJ activity may be partly responsible for genetic instability and oncogenic transformation.
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