Search Results (92)

Proper telomere maintenance is crucial for ensuring healthy cellular function. Telomeres have a tendency to reduce in length with cellular aging. Moreover several factors may promote telomere attrition. Other conditions, primarily due to genetic and inherited origins, can be characterized by unusually long telomeres. Both shortening and elongation of telomere length (TL) may lead to increased risk of cancer occurrence or cancer progression. Additionally, some hematopoietic dysfunctions may also be associated with telomere abnormalities. This review is aimed to describe and discuss main aspects of TL, in relation to carcinogenesis. The initial section describes main current methods for TL assessment, since the accurate and reliable TL measurements is a crucial issue in TL research. The various studies describing the association between TL and cancer risk are then reported and critically illustrated, with special interest on TL shortening in hematological malignancies, as well as in some peculiar non-malignant dysfunctions. Hence, a systematic analysis of the broad contribution of TL to cancer development is extensively appraised. Full article

An overwhelming majority of cancers exhibit telomere length reduction and differentiation markers consistent with a post-stem cell of origin. On the other hand, telomere shortening/damage is believed to protect cells from malignant transformation through induction of apoptosis. However, increased cancer incidence in the absence of apoptotic factors like p53 may suggest a favorable role of telomere shortening/damage in cancer development. Some findings suggest that telomere shortening may induce architectural changes in telomeric chromatin, such as those underlying the telomere position effect that support telomere maintenance of some tumors Here, we propose that several signaling pathways, in conjunction with telomere shortening/damage, may result in the release of Rap1 from telomeres. Its subsequent interaction with the embryonic stem cell marker Zscan4 may support immortalization and malignant transformation of the target cell. Full article

Background/Objectives: Fabry disease is an X-linked lysosomal storage disorder. It is characterised by impaired metabolism of glycosphingolipids whose accumulation causes irreversible organ damage and life-threatening complications. Genotype–phenotype correlations have a limited scope in Fabry disease as the disorder presents with wide-ranging clinical variability. In other X-linked disorders, epigenetic profiling has identified methylation patterns and disease modifiers that may explain clinical heterogeneity. In this narrative review and thematic analysis, the role of DNA methylation and epigenetics on the clinical phenotype in Fabry disease was investigated. Methods: Embase, PubMed, and PsycINFO were searched to identify literature on DNA methylation and epigenetics in Fabry disease. Based on the eligibility criteria, 20 articles were identified, and a thematic analysis was performed on the extracted data to identify themes. Results: Three themes emerged: (I) genetic modifiers, (II) methylation profiling, and (III) insights into X chromosome inactivation (XCI). The evidence synthesis revealed that telomere length, especially in early disease stages, bidirectional promoter (BDP) methylation by sphingolipids, epigenetic reader proteins, mitochondrial DNA haplogroups, and DNA methylation of the promoter region of the calcitonin receptor gene are potential genetic modifiers in Fabry disease. Methylation patterns also reveal episignatures in Fabry disease evolution and genes implicated in the maintenance of basement membranes. Studies on XCI further emphasise disease heterogeneity and draw attention to methodological issues in the assessment of XCI. Conclusions: This thematic review shows that DNA methylation and genetic modifiers are key factors modifying clinical variability in Fabry disease. More broadly, it underscores a crucial role for epigenetic processes in driving disease onset, progression, and severity in X-linked disorders. Full article

Background: Although telomere length maintenance is a common characteristic of hematological malignancies, the role of telomere length as a prognostic factor to stratify acute lymphoblastic leukemia (ALL) patients depending on their risk of relapse remains elusive. Methods: This knowledge gap motivated us to examine telomere length values in children with ALL at the time of diagnosis and after treatment using quantitative polymerase chain reaction (qPCR) (n = 35). To achieve high-resolution precision and cell specificity, a quantitative fluorescence in situ hybridization (qFISH) technique was developed (n = 5). Results: The results demonstrated statistically significant evidence of telomere shortening in the lymphoblasts of children with ALL but not in the lymphocytes of children after remission following treatment. Our findings also suggested a significant association between telomere shortening and a high risk of relapse disease. Last but not least, our preliminary results showed a trend that telomere shortening was more pronounced in children with B-ALL compared to those with T-ALL in a non-significant manner. Conclusions: Consequently, the current study provides preliminary insights into the potentially substantial prognostic value of telomere length in the progression of pediatric ALL, with the possibility of predicting treatment response. To clarify the application of telomere length as a possible biomarker for disease progression and treatment response in children with ALL, the telomere length values of additional participants need to be examined in further studies. Full article

Telomere maintenance mechanisms (TMMs) play a critical role in cancer biology, particularly in lower-grade gliomas (LGGs), where telomere dynamics and pathway activity remain poorly understood. In this study, we analyzed TCGA-LGG and CGGA datasets, focusing on telomere length variations, pathway activity, and survival data across IDH subtypes. Additional validation was performed using the GEO COPD and GBM datasets, ensuring consistency in data processing and batch effect correction. Our analysis revealed significant differences in TEL pathway activation between Short- and Long-TL groups, emphasizing the central role of TERT in telomere maintenance. In contrast, ALT pathway activation displayed subtype-specific patterns, with IDH-wt tumors exhibiting the highest ALT activity, primarily driven by the RAD51 branch. Validation using CGGA data confirmed these findings, demonstrating consistent TEL and ALT pathway behaviors across datasets. Additionally, genetic subtype analysis revealed substantial telomere length variability associated with ATRX and IDH mutation status. Notably, IDHwt-ATRX WT tumors exhibited the shortest telomere length and the highest ALT pathway activity. These findings highlight distinct telomere regulatory dynamics across genetic subtypes of LGG and provide new insights into potential therapeutic strategies targeting telomere maintenance pathways. Full article

Diet is a potential modulator of telomere length (TL), but the impact of individual dietary components, such as nuts, on TL in young, healthy individuals remains underexplored. Peanuts are rich in bioactive compounds that may influence TL. Therefore, to fill this gap of knowledge, this study aimed to investigate the effect of peanut consumption on TL in this specific population. Fifty-eight young, healthy individuals were randomized to one of three different intervention groups for 6 months each: (1) 25 g/day of skin-roasted peanuts (SRP); (2) 32 g/day of peanut butter (PB); (3) 32 g/day of a control butter (CB) (based on peanut oil). TL was measured by quantitative real-time PCR in saliva at baseline and at the end of the intervention. Our findings revealed significant between-group differences in TL changes, particularly between the SRP and CB groups over 6 months (mean difference: 0.53; 95% CI: 0.01, 1.05; p-value = 0.048). No significant difference was observed between PB and CB groups (mean difference: 0.12; 95% CI: –0.42, 0.66; p-value = 0.66). This study provides novel insights into the impact of peanut consumption on TL maintenance in young and healthy individuals. The findings highlight the potential benefits of incorporating peanuts into the diet as a means of promoting cellular health and longevity. Further research is warranted to elucidate the underlying mechanisms and validate these findings across diverse populations and longer time frames. Full article

The reactivation of telomerase enables cancer cells to maintain the telomere length, bypassing replicative senescence and achieving cellular immortality. In addition to its canonical role in telomere maintenance, accumulating evidence highlights telomere-length-independent functions of TERT, the catalytic subunit of telomerase. These extratelomeric functions involve the regulation of signaling pathways and transcriptional networks, creating feed-forward loops that promote cancer cell proliferation, resistance to apoptosis, and disease progression. This review explores the complex mechanisms by which TERT modulates key signaling pathways, such as NF-κB, AKT, and MYC, highlighting its role in driving autonomous cancer cell growth and resistance to therapy in B-cell malignancies. Furthermore, we discuss the therapeutic potential of targeting TERT’s extratelomeric functions. Unlike telomere-directed approaches, which may require prolonged treatment to achieve effective telomere erosion, inhibiting TERT’s extratelomeric functions offers the prospect of rapid tumor-specific effects. This strategy could complement existing chemotherapeutic regimens, providing an innovative and effective approach to managing B-cell malignancies. Full article

Background/Objectives: Diabetes is the most prevalent metabolic disease globally, characterized by dysregulated glucose control and accompanied by multiple refractory complications. As a critical marker of cellular homeostasis, telomere length (TL) may be associated with the progression of diabetes. However, the causal relationship between diabetes and TL remains unclear, particularly whether cellular homeostasis imbalance acts as a consequence of diabetic complications or a precipitating factor in disease development. Methods: We performed a bidirectional Mendelian randomization (MR) analysis using genome-wide association study (GWAS) data. Following the three core assumptions of MR analysis, we conducted quality control on all instrumental variables to ensure methodological rigor. The inverse variance weighted (IVW) method served as the primary analytical method, supplemented by additional MR methods to evaluate the significance of the results. Furthermore, we performed sensitivity analyses to ensure the reliability and robustness of the findings. Results: Forward analysis revealed that shortened TL significantly increases the risk of broadly defined Type 1 diabetes (T1D) and unspecified types of diabetes (p < 0.05). Additionally, we identified a positive causal relationship between TL and several diabetes-related complications, including co-morbidities, diabetic nephropathy, and diabetic ketoacidosis (p < 0.05). Interestingly, the reverse analysis demonstrated a positive causal effect of T1D and its complications on TL (p < 0.05); however, this effect disappeared after adjusting for insulin use (p > 0.05). Conclusions: Bidirectional MR analyses revealed a complex relationship between TL and T1D, where shortened telomeres increase T1D risk while T1D itself may trigger compensatory mechanisms affecting telomere maintenance, with insulin playing a crucial regulatory role in this relationship. These findings suggest telomere biology may be fundamentally involved in T1D pathogenesis and could inform future therapeutic approaches. Full article

The study of Reticulitermes chinensis offers valuable insights into insect aging and longevity, focusing on telomere biology and simple sequence repeats (SSRs). Telomeres, the protective cap at chromosome ends, are often linked to cellular aging and lifespan. Through transcriptomic analysis using the RepeatExplorer tool, a total of 10,740 SSR loci were identified, encompassing di-, tri-, tetra-, penta-, and hexa-nucleotide motifs. Among these, tri-nucleotide repeats were the most prevalent (2702), with prominent motifs including AC/GT (21.91%), AAG/CTT (8.49%), and AGC/CTG (8.2%). The identified SSRs serve as valuable genetic markers for taxonomy, phylogenetic, and population genetics. A telomeric sequence array featuring the TTAGG repeat motif was also discovered, with fluorescence in situ hybridization (FISH) confirming its localization at chromosome ends. Telomere lengths R. chinensis ranged from tens to hundreds of kilobases but showed no significant correlation with lifespan differences among termite castes. All castes had the same telomere length. This finding suggests that R. chinensis may possess a unique telomere maintenance mechanism, decoupling telomere length from aging and challenging the conventional view that shorter telomeres are indicative aging. It is hypothesized that telomerase activity plays a critical role in preserving telomere integrity in this species. These findings underscore the complexity and evolutionary adaptations of telomere biology in social insects. Moreover, the variation and organization of SSRs in R. chinensis provide a rich genetic resource for genome mapping, evolutionary research, and population genetics. This study sheds light on telomere dynamics and genetic diversity in termites, opening new pathways for research in evolutionary biology and the molecular mechanisms of aging. Full article

Background: In eukaryotes with a double-stranded linear DNA genome, the loss of terminal DNA during replication is inevitable due to an end-replication problem; here, telomeres serve as a buffer against DNA loss. Thus, the activation of the telomere maintenance mechanism (TMM) is a prerequisite for malignant transformation. Methods: We compared neurofibroma (NF, benign) and malignant peripheral nerve sheath tumors (MPNSTs) occurring in the same patient with type 1 neurofibromatosis, where each NF–MPNST pair shared the same genetic background and differentiation lineage; this minimizes the genetic bias and contrasts only those changes that are related to malignant transformation. A total of 20 NF–MPNST pairs from 20 NF1 patients were analyzed. Whole-transcriptome sequencing (WTS) was conducted to profile the transcriptional relationship, and whole-genome sequencing (WGS) was performed to measure the telomere length. Results: We identified 22 differentially expressed genes (DEGs) during the malignant transformation of MPNSTs. Among them, NELL2 activated PAX7, which sequentially activated RAD52, the recombinase of RAD52-dependent alternative lengthening of telomeres (ALT). RAD52 elongated MPNSTs–telomeres (p = 0.017). Otherwise, neither NELL2 nor PAX7 affected telomere length (p = 0.647 and p = 0.354, respectively). RAD52 increased MPNSTs–telomeres length, independently of NELL2 and PAX7 in multiple analyses (p = 0.021). The group with increased telomere length during the malignant transformation showed inferior overall survival (OS) (HR = 3.809, p = 0.038) to the group without increased telomere length. Accordingly, the group with increased PAX7 showed inferior OS (HR = 4.896, p = 0.046) and metastasis-free survival (MFS) (HR = 9.129, p = 0.007) in comparison to the group without increased PAX7; the group with increased RAD52 showed inferior MFS (HR = 8.669, p = 0.011) in comparison to the group without increased RAD52. Conclusions: We suggest that the NELL2-PAX7 transcriptional cascade activates RAD52-dependent ALT to increase telomere length during the malignant transformation of MPNSTs, resulting in a poor prognosis. Full article

Background/Objectives: Telomerase reverse transcriptase (TERT) is the catalytic subunit of the telomerase enzyme responsible for telomere length maintenance and is an important cancer hallmark. Our study aimed to clarify the mRNA expression of TERT in peritoneal mesothelioma (PeM), and to explore the relationship between its expression and the clinicopathological parameters and prognosis of patients with PeM. Methods: In a cohort of 13 MpeM patients, we evaluated histotype, nuclear grade, mitotic count, necrosis, inflammation, Ki67, BAP1, MTAP and p16 expression by immunohistochemistry, p16/CDKN2A status by FISH and TERT mRNA expression by RNAscope. Results: Our results showed several statistical correlations between TERT mRNA-score and other investigated features: (i) a poor positive correlation with BAP1 score (r = 0.06340; p ≤ 0.0001); (ii) a moderate positive correlation with p16 FISH del homo (r = 0.6340; p ≤ 0.0001); (iii) a fair negative correlation with p16 FISH del hetero (r = −0.3965; p ≤ 0.0001); a negative poor correlation with MTAP (r = −0.2443; p ≤ 0.0001); and (iv) a negative fair correlation with inflammatory infiltrate (r = −0.5407; p = 0.0233). Moreover, patients survive for a significantly longer time if they have a low mitotic index adjusted (2–4 mitotic figures per 2 mm²) (p ≤ 0.0001), are male (p = 0.0152), lose BAP1 (p = 0.0152), are p16 positive and present no deletion or heterozygous for p16 (p ≤ 0.01). Conclusions: TERT is highly expressed in PeM, but it is not one of the crucial factors in evaluating the prognosis of patients. Nevertheless, the results validate the prognostic significance of the mitotic index, BAP1 loss and p16/CDKN2A status. Full article

Telomere length function serves as a critical biomarker for biological aging and overall health. Its maintenance is linked to cancer, neurodegenerative conditions, and reproductive health. This review mainly examines genetic variations and environmental influences on telomere dynamics, highlighting key regulatory genes and mechanisms. Advances in telomere measurement methodologies are also reviewed, underscoring the importance of precise telomere assessment for disease prevention and treatment. Telomerase activation offers potential for cellular lifespan extension and anti-aging effects, whereas its inhibition emerges as a promising therapeutic approach for cancer. Regulatory mechanisms of tumor suppressor genes on telomerase activity are analyzed, with a comprehensive overview of the current state and future potential of telomerase inhibitors. In addition, the association between telomeres and neurodegenerative diseases is discussed, detailing how telomere attrition heightens disease risk and outlining multiple pathways by which telomerase protects neurons from damage and apoptosis. Full article

Understanding the complex dynamics of telomere biology is important in the strong link between aging and cancer. Telomeres, the protective caps at the end of chromosomes, are central players in this connection. While their gradual shortening due to replication limits tumors expansion by triggering DNA repair mechanisms, it also promotes oncogenic changes within chromosomes, thus sustaining tumorigenesis. The enzyme telomerase, responsible for maintaining telomere length, emerges as a central player in this context. Its expression in cancer cells facilitates the preservation of telomeres, allowing them to circumvent the growth-limiting effects of short telomeres. Interestingly, the influence of telomerase extends beyond telomere maintenance, as evidenced by its involvement in promoting cell growth through alternative pathways. In this context, inflammation accelerates telomere shortening, resulting in telomere dysfunction, while telomere elements also play a role in modulating the inflammatory response. The recognition of this interplay has promoted the development of novel therapeutic approaches centered around telomerase inhibition. This review provides a comprehensive overview of the field, emphasizing recent progress in knowledge and the implications in understanding of cancer biology. Full article

Background: Telomere attrition and mitochondrial dysfunction are two fundamental aspects of aging. Calorie restriction (CR) is the best strategy to postpone aging since it can enhance telomere attrition, boost antioxidant capacity, and lower the generation of reactive oxygen species (ROS). Since ROS is produced by mitochondria and can readily travel to cell nuclei, it is thought to be a crucial molecule for information transfer between mitochondria and cell nuclei. Important variables that affect the quality and functionality of sperm and may affect male reproductive health and fertility include telomere length, mitochondrial content, and the ratio of mitochondrial DNA (mtDNA) to nuclear DNA (nDNA). Telomere damage results from mitochondrial failure, whereas nuclear DNA remains unaffected. This research aims to investigate potential associations between these three variables and how they might relate to body mass index. Methods: Data were collected from 82 men who underwent IVF/ICSI at the University Hospital of Ioannina’s IVF Unit in the Obstetrics and Gynecology Department. Evaluations included sperm morphology, sperm count, sperm motility, and participant history. To address this, male participants who were categorized into three body mass index (ΒΜΙ) groups—normal, overweight, and obese—had their sperm samples tested. Results: For both the normal and overweight groups, our results show a negative connection between relative telomere length and ΒΜI. As an illustration of a potential connection between mitochondrial health and telomere maintenance, a positive correlation was found for the obese group. Only the obese group’s results were statistically significant (p < 0.05). More evidence that longer telomeres are associated with lower mitochondrial content can be found in the negative connection between telomere length and mitochondrial content in both the normal and overweight groups. However, the obese group showed a positive association. The data did not reach statistical significance for any of the three groups. These associations may affect sperm quality since telomere length and mitochondrial concentration are indicators of cellular integrity and health. Moreover, the ratio of mtDNA to nDNA was positively correlated with the relative telomere lengths of the obese group, but negatively correlated with the normal and overweight groups. In every group that was studied, the results were not statistically significant. According to this, male fertility may be negatively impacted by an imbalance in the copy number of the mitochondrial genome compared to the nuclear DNA in sperm. Conclusions: Essentially, the goal of our work is to determine whether mitochondria and telomere length in human sperm interact. Understanding these connections may aid in the explanation of some male infertility causes and possibly contribute to the creation of new treatment modalities for problems pertaining to reproductive health. The functional implications of these connections and their applications in therapeutic settings require further investigation. Full article

Telomeres act as the protective caps of eukaryotic linear chromosomes; thus, proper telomere maintenance is crucial for genome stability. Successful telomere replication is a cornerstone of telomere length regulation, but this process can be fraught due to the many intrinsic challenges telomeres pose to the replication machinery. In addition to the famous “end replication” problem due to the discontinuous nature of lagging strand synthesis, telomeres require various telomere-specific steps for maintaining the proper 3′ overhang length. Bulk telomere replication also encounters its own difficulties as telomeres are prone to various forms of replication roadblocks. These roadblocks can result in an increase in replication stress that can cause replication forks to slow, stall, or become reversed. Ultimately, this leads to excess single-stranded DNA (ssDNA) that needs to be managed and protected for replication to continue and to prevent DNA damage and genome instability. RPA and CST are single-stranded DNA-binding protein complexes that play key roles in performing this task and help stabilize stalled forks for continued replication. The interplay between RPA and CST, their functions at telomeres during replication, and their specialized features for helping overcome replication stress at telomeres are the focus of this review. Full article