Abstract
Telomeres (TLs) protect chromosome ends from chromosomal fusion and degradation, thus conferring genomic stability, and play crucial roles in cellular aging and disease. Recent studies have found a correlation between environmental, physiological and even mental stresses on TL dynamics in humans. However, the causal relationship between stress and TL length and the molecular mechanisms underlying that relationship are far from being understood. This study describes the effect of moderate concentrations of ethanol, equivalent to social drinking, on human TL dynamics and partially elucidates the mechanism mediating this effect. The exposure of Immortalized human foreskin fibroblast, primary human foreskin fibroblast and human hepatocellular carcinoma cells to 25 mM ethanol for one week moderately shortened telomeres in all cells. Similar TL shortening was obtained following cells’ exposure to 25 µM acetaldehyde (AcH) and to a much lower extent after exposure to 4-methylpyrazolean, an inhibitor of alcoholdehydrogenase, suggesting that AcH plays a key role in ethanol-dependent telomere shortening. Telomerase activity was not involved in this effect. TRF2 and several TRF2 binding proteins increased their binding to TLs after ethanol treatment, implying their involvement in this effect. The methylation status of several sub-telomeric regions increased in response to EtOH exposure. Gene expression profiling showed distinct patterns in cells treated with EtOH and in cells recovered from EtOH. In addition to cellular ageing, the described telomere shortening may contribute to the carcinogenic potential of acute alcohol consumption; both are associated with the shortening of TLs and provide new insights regarding the moderate consumption of alcohol referred to as “social drinking.”
Highlights
Telomeres (TLs), (TTAGGG)n elements found at the ends of each linear chromosome, distinguish chromosome ends from being recognized as double-strand breaks (DSBs), preventing a false response of DNA damage repair (DDR) that would otherwise result in the joining of two chromosomal ends [1,2]
EtOH resulted in a 15% decrease in proliferation. These data may suggest that cell viability is not likely to be afflicted at the alcohol concentration corresponding to moderate drinking, while higher EtOH levels may be toxic to cells
The results showed no difference in Telomerase activity (TA) between treatment with 1–25 mM EtOH and control cells, suggesting that TA is not involved in TL shortening by EtOH
Summary
Telomeres (TLs), (TTAGGG)n elements found at the ends of each linear chromosome, distinguish chromosome ends from being recognized as double-strand breaks (DSBs), preventing a false response of DNA damage repair (DDR) that would otherwise result in the joining of two chromosomal ends [1,2]. Telomeres erode in each DNA replication until reaching a threshold that signals the cell to enter senescence. This shortening is attenuated by telomerase, a reverse transcriptase ribonucleoprotein that elongates TLs [3,4]. A plethora of other proteins, mostly involved in DNA damage repair processes, are connected indirectly to telomeres. These proteins include: tankyrase 1 and 2, poly (ADP ribose) polymerase (PARP), meiotic recombination 11 homologue (MRE11), the RecQ-like helicases WRN (Werner’s syndrome protein) and BLM (Bloom’s syndrome protein), Ku70, Ku86, DNA-dependent protein kinase (DNA-PK), ataxia-telangiectasia mutated (ATM), Rad3-related (ATR), excision repair cross complementing 1 (ERCC1), RNA-polymerase σ 70 factor (XPF) and RAD50 [6]
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