Abstract
Simple SummarySingle nucleotide polymorphisms (SNPs) in the TERT gene, which encode the catalytic component of telomerase, can affect TERT expression and constitutive telomere length and have been associated with risk and/or outcome for several human cancers, but very few data are available about their impact on rectal cancer. The aim of our study was to comprehensively investigate the associations of eight common TERT SNPs with telomere length, circulating TERT mRNA in plasma, response to neoadjuvant therapy (CRT) and disease outcome in rectal cancer patients. Our findings indicate that the TERT variants can differently contribute to telomere erosion during CRT, circulating TERT levels and response to CRT. Thus, they could be a useful tool for improving the selection of patients who might benefit from CRT. Furthermore, circulating TERT variation during CRT and its level post-CRT are independent markers of response to CRT and disease progression.Single-nucleotide polymorphisms (SNPs) in the TERT gene can affect telomere length and TERT expression and have been associated with risk and/or outcome for several tumors, but very few data are available about their impact on rectal cancer. Eight SNPs (rs2736108, rs2735940, rs2736098, rs2736100, rs35241335, rs11742908, rs2736122 and rs2853690), mapping in regulatory and coding regions of the TERT gene, were studied in 194 rectal cancer patients to evaluate their association with constitutive telomere length, circulating TERT mRNA levels, response to neoadjuvant chemoradiotherapy (CRT) and disease outcome. At diagnosis, the rs2736100CC genotype was associated with longer telomeres measured pre-CRT, while the rs2736100CC, rs2736108TT and rs2735940AA were associated with greater telomere erosion evaluated post-CRT. The rs2736108CC and rs2853690AA/GG genotypes, respectively associated with lower telomere erosion and lower levels of circulating TERT post-CRT, were also independently associated with a better response to therapy [OR 4.6(1.1–19.1) and 3.0(1.3–6.9)]. Overall, post-CRT, low levels (≤ median value) of circulating TERT and its stable/decreasing levels compared to those pre-CRT, were independently associated with a better response to therapy [OR 5.8(1.9–17.8) and 5.3(1.4–19.4), respectively]. Furthermore, post-CRT, patients with long telomeres (>median value) and low levels of circulating TERT had a significantly lower risk of disease progression [HR 0.4(0.1–0.9) and 0.3(0.1–0.8), respectively]. These findings suggest that TERT SNPs could be a useful tool for improving the selection of patients who could benefit from CRT and support the role of telomere length and circulating TERT mRNA levels as useful markers for monitoring the response to therapy and disease outcome in rectal cancer patients.
Highlights
Telomeres, composed of the TTAGGG repeat sequence, are special chromatin structures located at the end of each chromosome that maintain chromosomal integrity by protecting chromosome ends from DNA damage and end-to-end fusions [1]
Post-CRT, patients with long telomeres (>median value) and low levels of circulating Telomerase Reverse Transcriptase (TERT) had a significantly lower risk of disease progression [hazard ratios (HR) 0.4(0.1–0.9) and 0.3(0.1–0.8), respectively]. These findings suggest that TERT single nucleotide polymorphisms (SNPs) could be a useful tool for improving the selection of patients who could benefit from CRT and support the role of telomere length and circulating TERT mRNA levels as useful markers for monitoring the response to therapy and disease outcome in rectal cancer patients
This study was conducted in 194 patients with primary locally advanced rectal carcinoma, who were enrolled in a prospective study and underwent preoperative CRT, followed by either total mesorectal or local excision
Summary
Telomeres, composed of the TTAGGG repeat sequence, are special chromatin structures located at the end of each chromosome that maintain chromosomal integrity by protecting chromosome ends from DNA damage and end-to-end fusions [1]. Human telomeres lose between 50–200 base pairs with each replication, and when telomere erosion reaches a critical point, cells cease to proliferate and undergo senescence or apoptosis [2]. TERT, which synthesizes de novo telomere sequences using internal RNA as a template, is the rate-limiting component of the telomerase complex, and its expression is correlated with telomerase activity [4]. Recent studies have identified several single nucleotide polymorphisms (SNPs) in the TERT gene, including regulatory regions, which can affect TERT expression [7,8,9,10] and constitutive telomere length [11,12,13] and have been associated with risk and/or outcome for several human cancers [14,15,16,17]. To date, previous studies on colorectal cancer have evaluated the association of genetic TERT variants with cancer risk [18,19,20], but not with clinical outcome
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