Abstract
Telomeres are nucleoprotein complexes comprised of tandem arrays of repetitive DNA sequence that serve to protect chromosomal termini from inappropriate degradation, as well as to prevent these natural DNA ends from being recognized as broken DNA (double-strand breaks) and triggering of inappropriate DNA damage responses. Preservation of telomere length requires telomerase, the specialized reverse transcriptase capable of maintaining telomere length via template-mediated addition of telomeric repeats onto the ends of newly synthesized chromosomes. Loss of either end-capping function or telomere length maintenance has been associated with genomic instability or senescence in a variety of settings; therefore, telomeres and telomerase have well-established connections to cancer and aging. It has long been recognized that oxidative stress promotes shortening of telomeres, and that telomerase activity is a radiation-inducible function. However, the effects of ionizing radiation (IR) exposure on telomeres per se are much less well understood and appreciated. To gain a deeper understanding of the roles, telomeres and telomerase play in the response of human cells to IRs of different qualities, we tracked changes in telomeric end-capping function, telomere length, and telomerase activity in panels of mammary epithelial and hematopoietic cell lines exposed to low linear energy transfer (LET) gamma(γ)-rays or high LET, high charge, high energy (HZE) particles, delivered either acutely or at low dose rates. In addition to demonstrating that dysfunctional telomeres contribute to IR-induced mutation frequencies and genome instability, we reveal non-canonical roles for telomerase, in that telomerase activity was required for IR-induced enrichment of mammary epithelial putative stem/progenitor cell populations, a finding also suggestive of cellular reprograming. Taken together, the results reported here establish the critical importance of telomeres and telomerase in the radiation response and, as such, have compelling implications not only for accelerated tumor repopulation following radiation therapy but also for carcinogenic potential following low dose exposures as well, including those of relevance to spaceflight-associated galactic cosmic radiations.
Highlights
Telomeres, protective features of chromosomal termini composed of tandem arrays of repetitive G/C-rich sequence (5′-TTAGGG-3′ in vertebrates), end in a 3′ single-stranded overhang and are associated with a host of proteins collectively termed “shelterin” [1, 2]
These results are consistent with the proposition that TRF2 prevents C-NHEJ-mediated end fusion, while DNA-PK thwarts alternative-NHEJ at telomeres; telomeres are protected by a “lock with two bolts” [89]
The results reported here provide valuable insight into the critical roles telomeres and telomerase play in the radiation response and thereby support further exploration for their roles in the context of both radiotherapy and ionizing radiation (IR)-induced carcinogenesis
Summary
Protective features of chromosomal termini composed of tandem arrays of repetitive G/C-rich sequence (5′-TTAGGG-3′ in vertebrates), end in a 3′ single-stranded overhang and are associated with a host of proteins collectively termed “shelterin” [1, 2]. Due to the semiconservative nature of DNA replication and the requirement for an RNA primer in lagging-strand synthesis, conventional polymerases are unable to replicate to the very end of the chromosome. This so-called “end replication problem” [7, 8] results in progressive erosion of the telomere with each round of cellular division (~30–150 bp per cell division) and is the molecular mechanism underlying the finite replicative lifespan of human somatic cells known as the Hayflick limit [9]. Direct links between telomere dysfunction – in terms of either significant shortening or compromise of end-capping structure/ function – instability and cancer, as well as senescence- and agerelated degenerative pathologies (e.g., cardiovascular disease) have been demonstrated [11,12,13]
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