Abstract
BackgroundTelomere dysfunction is one of the hallmarks of cancer and is crucial to prostate carcinogenesis. TERF1 is a gene essential to telomere maintenance, and its dysfunction has already been associates with several cancers. TERF1 is a target of miR-155, and this microRNA can inhibit its expression and promotes carcinogenesis in breast cancer. We aim to analyze TERF1, in gene and mRNA level, involvement in prostate cancer progression.ResultsAlterations in TERF1 DNA were evaluated using datasets of primary tumor and castration-resistant tumors (CRPC) deposited in cBioportal. The expression of TERF1 mRNA levels was assessed utilizing TCGA datasets, clinical specimens, and metastatic prostate cancer cell lines (LNCaP, DU145, and PC3). Six percent of localized prostate cancer presents alterations in TERF1 (the majority of that was amplifications). In the CRPC cohort, 26% of samples had TERF1 amplification. Patients with TERF1 alterations had the worst overall survival only on localized cancer cohort (p = 0.0027). In the TCGA cohort, mRNA levels of TERF1 were downregulated in comparison with normal tissue (p = 0.0013) and upregulated in tumors that invade lymph nodes (p = 0.0059). The upregulation of TERF1 is also associated with worst overall survival (p = 0.0028) and disease-free survival (p = 0.0023). There is a positive correlation between TERF1 and androgen receptor expression in cancer tissue (r = 0.53, p < 0.00001) but not on normal tissue (r = − 0.16, p = 0.12). In the clinical specimens, there is no detectable expression of TERF1 and upregulation of miR-155 (p = 0.0348). In cell lines, TERF1 expression was higher in LNCaP and was progressively lower in DU145 and PC3 (p = 0.0327) with no differences in miR-155 expression.ConclusionAmplification/upregulation of TERF1 was associated with the worst prognostic in localized prostate cancer. Our results corroborate that miR-155 regulates TERF1 expression in prostate cancer. TERF1 has the potential to become a biomarker in prostate cancer.
Highlights
Telomere dysfunction is one of the hallmarks of cancer and is crucial to prostate carcinogenesis
Shelterin is a multiprotein complex composed of six subunits (TRF1, TRF2, POT1, TPP1, TIN2, and RAP1) that binds to the telomere, protecting, and regulating telomere length [2]
We showed that miR155 is upregulated in primary prostate cancer (PC) samples that do not show any detectable expression of Telomere repeat-binding factor 1 (TERF1)
Summary
Telomere dysfunction is one of the hallmarks of cancer and is crucial to prostate carcinogenesis. Telomeres are the structural ends of eukaryotic chromosomes and are formed by tandem repeats of the 5′TTAGGG-3′ sequence in mammals. They control the number of cell divisions and maintain genomic stability [1]. Telomere repeat-binding factor 1 (TRF1) is translated from the TERF1 gene (8q21.11) and directly binds to the telomere, acting as a protector of telomeres and a negative regulator of telomerase activity, the enzyme responsible for telomere elongation and cellular immortalization in 85 ~ 90% of all cancers. Among TERF1 functions, we dos Santos et al Journal of the Egyptian National Cancer Institute (2021) 33:24 highlight its recruitment of and interaction with PINX1 to inhibit telomerase activity. PINX1 was previously shown to be downregulated in PC and related to cellular immortalization [3]
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