Sign in to use this feature.

Years

Between: -

Subjects

remove_circle_outline
remove_circle_outline
remove_circle_outline
remove_circle_outline
remove_circle_outline

Journals

Article Types

Countries / Regions

Search Results (97)

Search Parameters:
Keywords = telomerase enzyme

Order results
Result details
Results per page
Select all
Export citation of selected articles as:
13 pages, 1449 KB  
Article
Carboxylesterase 2-Engineered Stem Cell Therapy Shows Superior Efficacy over Cytosine Deaminase in Castration-Resistant Prostate Cancer
by Jae Heon Kim, Miho Song, Sang Hun Lee and Yun Seob Song
Biomedicines 2026, 14(3), 681; https://doi.org/10.3390/biomedicines14030681 - 16 Mar 2026
Viewed by 667
Abstract
Purpose: Castration-resistant prostate cancer (CRPC) responds poorly to conventional chemotherapy. We evaluated a cell-based enzyme–prodrug therapy using adipose-derived stem cells (ADSCs) engineered to express cytosine deaminase (CD) or carboxylesterase 2 (CE2), paired with their respective prodrugs 5-fluorocytosine (5-FC) or irinotecan (CPT-11), to [...] Read more.
Purpose: Castration-resistant prostate cancer (CRPC) responds poorly to conventional chemotherapy. We evaluated a cell-based enzyme–prodrug therapy using adipose-derived stem cells (ADSCs) engineered to express cytosine deaminase (CD) or carboxylesterase 2 (CE2), paired with their respective prodrugs 5-fluorocytosine (5-FC) or irinotecan (CPT-11), to compare their antitumor efficacy. Materials and Methods: Human telomerase reverse transcriptase (hTERT)-immortalized ADSCs were transduced with CD or CE2, and transgene expression and stem cell phenotype were confirmed. CD expression was verified at the transcript level and by functional 5-FC-to-5-fluorouracil (5-FU) conversion, whereas CE2 expression was verified by transcript analysis and immunoblotting. Tumor tropism toward PC3 prostate cancer cells was tested using migration assays and analysis of chemoattractant ligand/receptor expression. Prodrug-induced self-killing and bystander tumor cell killing were assessed through viability assays and co-culture with PC3 cells. For the CE2/CPT-11 system, SN-38 was not directly quantified; functional activity was inferred from prodrug-dependent cytotoxicity and in vivo efficacy. In vivo efficacy was evaluated in nude mice with PC3 tumors treated systemically with engineered ADSCs plus prodrug. Results: CD- and CE2-expressing ADSCs were successfully established and retained mesenchymal stem cell (MSC) characteristics. Both cell types exhibited significant migration toward PC3 cells. The CE2/CPT-11 system produced stronger prodrug-mediated cytotoxicity than CD/5-FC, with CE2-modified ADSCs showing higher sensitivity to CPT-11 and inducing greater apoptosis in co-cultured PC3 cells. In vivo, both treatments suppressed tumor growth, but CE2/CPT-11 achieved greater inhibition (tumor volume ~26% of control vs. ~32% for CD/5-FC at day 14). No overt clinical toxicity was observed based on body weight and daily clinical monitoring; however, hematology/serum chemistry were not assessed. Conclusions: Engineered ADSCs home to CRPC tumors and enable local prodrug activation, producing significant antitumor effects. Within the constraints of our in vitro assays and subcutaneous xenograft model, CE2/CPT-11 demonstrated stronger efficacy outcomes than CD/5-FC. Mechanistic attribution to intratumoral SN-38 exposure should be confirmed by direct metabolite measurements in future studies. Full article
(This article belongs to the Section Cancer Biology and Oncology)
Show Figures

Figure 1

23 pages, 4677 KB  
Article
3,6′-Disinapoyl Sucrose from Polygalae Radix Exerts Anti-Aging Effects via Modification of Telomeres, SIRT1/p53/p21 Pathway, Oxidative Stress and Autophagy
by Jianhong Wang, Ting Jiang, Siqi Chen, Yajing Li, Qing Li, Lan Xiang and Jianhua Qi
Antioxidants 2026, 15(3), 313; https://doi.org/10.3390/antiox15030313 - 1 Mar 2026
Viewed by 977
Abstract
Traditional Chinese medicine plays an important role in human health, but due to the complexity of its active fraction, its therapeutic mechanism still needs further clarification. Polygalae Radix is one of the traditional Chinese medicines, which was recorded in Shennong Classic of Materia [...] Read more.
Traditional Chinese medicine plays an important role in human health, but due to the complexity of its active fraction, its therapeutic mechanism still needs further clarification. Polygalae Radix is one of the traditional Chinese medicines, which was recorded in Shennong Classic of Materia Medica with the effect of prolonging life. In the present study, we isolated a small molecule compound with anti-aging effects, 3,6′-disinapoyl sucrose (DISS), from Polygalae Radix under the guidance of the replicative lifespan assay of K6001 yeast strain. It extended the lifespan of yeast and alleviated etoposide-induced aging in 3T3 cells. Furthermore, this compound increased the telomerase activity and the length of telomeres, and targeted the SIRT1 signaling pathway, respectively. In addition, it improved the survival ability of yeast under oxidative stress conditions, decreased ROS and MDA levels, and increased the activity of SOD, CAT and GPx enzymes. Moreover, DISS enhanced autophagic flux, as demonstrated by assay of the YOM38-GFP-ATG8 yeast strain. In conclusion, DISS from Polygalae Radix exerts anti-aging effects by protecting telomeres, regulating the SIRT1/p53/p21 signaling pathway, mitigating oxidative stress and modulating autophagy. Thus, this study provides scientific evidence for the use of Polygalae Radix as an anti-aging herb. Full article
Show Figures

Graphical abstract

19 pages, 777 KB  
Review
Telomerase Activity in Melanoma: Impact on Cancer Cell Proliferation Kinetics, Tumor Progression, and Clinical Therapeutic Strategies—A Scoping Review
by Omar Alqaisi, Guy Storme, Amaechi Dennis, Mohammed Dibas, Lorent Sijarina, Liburn Grabovci, Shima Al-Zghoul, Edward Yu and Patricia Tai
Curr. Oncol. 2026, 33(2), 74; https://doi.org/10.3390/curroncol33020074 - 27 Jan 2026
Viewed by 1457
Abstract
Background: Melanoma outcomes have improved in recent years as a result of modern systemic therapies. A major molecular feature of melanoma is abnormal telomerase activation; this is most often caused by telomerase reverse transcriptase (TERT) promoter mutations, which occur in 50–82% of [...] Read more.
Background: Melanoma outcomes have improved in recent years as a result of modern systemic therapies. A major molecular feature of melanoma is abnormal telomerase activation; this is most often caused by telomerase reverse transcriptase (TERT) promoter mutations, which occur in 50–82% of cases and are the most common noncoding alteration in this cancer. Telomerase maintains telomere length, allowing melanoma cells to avoid senescence and continue dividing. However, how telomerase activity influences melanoma cell doubling time remains unclear, and the pathways linking TERT expression to faster cell-cycle progression require further study. Although telomerase inhibitors show promise in preclinical models, their clinical use is limited by delayed cytotoxicity and resistance. Materials and Methods: A scoping review was conducted using Scopus, ScienceDirect, MEDLINE/PubMed, and CINAHL (Cumulative Index to Nursing and Allied Health Literature). Keywords included “telomerase,” “melanoma,” “cancer,” “cell proliferation,” and “doubling time,” using Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines. Results: Telomerase-related biomarkers were found to correlate with disease stage and survival. Suggested therapeutic strategies include enzyme inhibitors, cytotoxic nucleotide incorporation, telomere destabilization, and immunotherapies such as peptide or dendritic cell vaccines, etc. Conclusions: Understanding both telomere-dependent and -independent TERT functions is essential for developing effective biomarkers and therapies that overcome resistance and slow melanoma progression. Full article
(This article belongs to the Special Issue Prevention, Early Detection and Management of Skin Cancer)
Show Figures

Graphical abstract

17 pages, 3779 KB  
Article
Cycloastragenol Improves Fatty Acid Metabolism Through NHR-49/FAT-7 Suppression and Potent AAK-2 Activation in Caenorhabditis elegans Obesity Model
by Liliya V. Mihaylova, Martina S. Savova, Monika N. Todorova, Valeria Tonova, Biser K. Binev and Milen I. Georgiev
Int. J. Mol. Sci. 2026, 27(2), 772; https://doi.org/10.3390/ijms27020772 - 13 Jan 2026
Viewed by 1522
Abstract
Obesity is among the top contributing factors for non-communicable chronic disease development and has attained menacing global proportions, affecting approximately one of eight adults. Phytochemicals that support energy metabolism and prevent obesity development have been the subject of intense research endeavors over the [...] Read more.
Obesity is among the top contributing factors for non-communicable chronic disease development and has attained menacing global proportions, affecting approximately one of eight adults. Phytochemicals that support energy metabolism and prevent obesity development have been the subject of intense research endeavors over the past several decades. Cycloastragenol is a natural triterpenoid compound and aglycon of astragaloside IV, known for activating telomerase and mitigating cellular aging. Here, we aim to characterize the effect of cycloastragenol on lipid metabolism in a glucose-induced obesity model in Caenorhabditis elegans. We assessed the changes in the body length, width, and area in C. elegans maintained under elevated glucose through automated WormLab system. Lipid accumulation in the presence of either cycloastragenol (100 μM) or orlistat (12 μM), used as a positive anti-obesity control drug, was quantified through Nile Red fluorescent staining. Furthermore, we evaluated the changes in key energy metabolism molecular players in GFP-reporter transgenic strains. Our results revealed that cycloastragenol treatment decreased mean body area and reduced lipid accumulation in the C. elegans glucose-induced model. The mechanistic data indicated that cycloastragenol suppresses the nuclear hormone receptor family member NHR-49 and the delta(9)-fatty-acid desaturase 7 (FAT-7) enzyme, and activates the 5′-AMP-activated protein kinase catalytic subunit alpha-2 (AAK-2) and the protein skinhead 1 (SKN-1) signaling. Collectively, our findings highlight that cycloastragenol reprograms lipid metabolism by down-regulating the insulin-like receptor (daf-2)/phosphatidylinositol 3-kinase (age-1)/NHR-49 signaling while simultaneously enhancing the activity of the AAK-2/NAD-dependent protein deacetylase (SIR-2.1) pathway. The anti-obesogenic potential of cycloastragenol rationalizes further validation in the context of metabolic diseases and obesity management. Full article
(This article belongs to the Special Issue Molecular Mechanisms of Obesity and Metabolic Diseases)
Show Figures

Figure 1

46 pages, 2441 KB  
Review
A State-of-the-Art Overview on (Epi)Genomics and Personalized Skin Rejuvenating Strategies
by Roxana-Georgiana Tauser, Ioana-Mirela Vasincu, Andreea-Teodora Iacob, Maria Apotrosoaei, Bianca-Ștefania Profire, Florentina-Geanina Lupascu, Oana-Maria Chirliu and Lenuta Profire
Pharmaceutics 2025, 17(12), 1585; https://doi.org/10.3390/pharmaceutics17121585 - 9 Dec 2025
Cited by 1 | Viewed by 2771
Abstract
This article aims to point out new perspectives opened by genomics and epigenomics in skin rejuvenation strategies which target the main hallmarks of the ageing. In this respect, this article presents a concise overview on: the clinical relevance of the most important clocks [...] Read more.
This article aims to point out new perspectives opened by genomics and epigenomics in skin rejuvenation strategies which target the main hallmarks of the ageing. In this respect, this article presents a concise overview on: the clinical relevance of the most important clocks and biomarkers used in skin anti-ageing strategy evaluation, the fundamentals, the main illustrating examples preclinically and clinically tested, the critical insights on knowledge gaps and future research perspectives concerning the most relevant skin anti-ageing and rejuvenation strategies based on novel epigenomic and genomic acquisitions. Thus the review dedicates distinct sections to: senolytics and senomorphics targeting senescent skin cells and their senescent-associated phenotype; strategies targeting genomic instability and telomere attrition by stimulation of the deoxyribonucleic acid (DNA) repair enzymes and proteins essential for telomeres’ recovery and stability; regenerative medicine based on mesenchymal stem cells or cell-free products in order to restore skin-resided stem cells; genetically and chemically induced skin epigenetic partial reprogramming by using transcription factors or epigenetic small molecule agents, respectively; small molecule modulators of DNA methylases, histone deacetylases, telomerases, DNA repair enzymes or of sirtuins; modulators of micro ribonucleic acid (miRNA) and long-non-coding ribonucleic acid (HOTAIR’s modulators) assisted or not by CRISPR-gene editing technology (CRISPR: Clustered Regularly Interspaced Short Palindromic Repeats); modulators of the most relevant altered nutrient-sensing pathways in skin ageing; as well as antioxidants and nanozymes to address mitochondrial dysfunctions and oxidative stress. In addition, some approaches targeting skin inflammageing, altered skin proteostasis, (macro)autophagy and intercellular connections, or skin microbiome, are very briefly discussed. The review also offers a comparative analysis among the newer genomic/epigenomic-based skin anti-ageing strategies vs. classical skin rejuvenation treatments from various perspectives: efficacy, safety, mechanism of action, evidence level in preclinical and clinical data and regulatory status, price range, current limitations. In these regards, a concise overview on senolytic/senomorphic agents, topical nutrigenomic pathways’ modulators and DNA repair enzymes, epigenetic small molecules agents, microRNAs and HOTAIRS’s modulators, is illustrated in comparison to classical approaches such as tretinoin and peptide-based cosmeceuticals, topical serum with growth factors, intense pulsed light, laser and microneedling combinations, chemical peels, botulinum toxin injections, dermal fillers. Finally, the review emphasizes the future research directions in order to accelerate the clinical translation of the (epi)genomic-advanced knowledge towards personalization of the skin anti-ageing strategies by integration of individual genomic and epigenomic profiles to customize/tailor skin rejuvenation therapies. Full article
(This article belongs to the Topic Challenges and Opportunities in Drug Delivery Research)
Show Figures

Graphical abstract

19 pages, 1426 KB  
Review
Telomeres, Telomerase, and Curcumin: A New Frontier in Cancer Therapy: A Narrative Review
by Hind Muteb Albadrani and Abeer Fouad Zakariyah
Biomedicines 2025, 13(11), 2721; https://doi.org/10.3390/biomedicines13112721 - 6 Nov 2025
Cited by 2 | Viewed by 3468
Abstract
Telomeres, which serve as protective ends on chromosomes, and telomerase, the enzyme that preserves telomere length, play crucial roles in ensuring genomic stability and delaying cellular aging. Dysregulation of these proteins is a key characteristic of cancer development. This review aimed to explore [...] Read more.
Telomeres, which serve as protective ends on chromosomes, and telomerase, the enzyme that preserves telomere length, play crucial roles in ensuring genomic stability and delaying cellular aging. Dysregulation of these proteins is a key characteristic of cancer development. This review aimed to explore the complex processes involved in telomere and telomerase dysregulation in cancer and evaluate the therapeutic potential of curcumin. Curcumin has attracted significant interest due to its anticancer, antioxidant, and anti-inflammatory properties. Curcumin modulates telomere dynamics and inhibits telomerase activity, leading to cancer cell senescence and telomere shortening. Curcumin downregulates human telomerase reverse transcriptase expression and reduces telomerase activity in various cancer cell lines. Despite its potential, its clinical use is restricted by its poor water solubility and limited bioavailability. This review underscores the critical role of telomere/telomerase dysregulation in cancer and highlights curcumin as a promising modulator of these pathways, thereby offering potential novel strategies for cancer treatment. This review integrates the literature published up to September 2025 to ensure the inclusion of the most recent advances in curcumin-related telomerase modulation. Full article
(This article belongs to the Special Issue The Role of Telomere and Telomerase in Human Disease—2nd Edition)
Show Figures

Figure 1

10 pages, 245 KB  
Article
hTERT Gene Expression and Athlete’s Heart: A Study in Middle-Aged Endurance Athletes
by Caglar Ozmen, Nihal Inandiklioglu, Ozgur Gunasti, Hatice Rahimova, Omer Tepe, Rabia Eker Akilli, Pinar Ozmen Yildiz, Sanli Sadi Kurdak and Mustafa Demirtas
Genes 2025, 16(9), 1104; https://doi.org/10.3390/genes16091104 - 18 Sep 2025
Viewed by 970
Abstract
Background/Objectives: Telomeres and the enzyme telomerase play essential roles in cellular aging and cardiovascular health. Physical activity is thought to influence telomere dynamics via upregulation of the hTERT gene, which encodes the catalytic subunit of telomerase. However, data on this relationship in middle-aged [...] Read more.
Background/Objectives: Telomeres and the enzyme telomerase play essential roles in cellular aging and cardiovascular health. Physical activity is thought to influence telomere dynamics via upregulation of the hTERT gene, which encodes the catalytic subunit of telomerase. However, data on this relationship in middle-aged endurance athletes remain limited. This study aimed to investigate the association between long-term endurance training, cardiac structural adaptations, and hTERT gene expression in middle-aged elite athletes. Methods: A total of 38 middle-aged elite runners and 37 age-matched sedentary controls were enrolled. Echocardiographic assessments, VO2peak measurements, and hTERT gene expression analysis using RT-PCR were conducted. Left ventricular mass (LVM), wall thicknesses, and cardiac volumes were compared, and correlations with hTERT expression were analyzed. Results: Athletes demonstrated significantly higher VO2peak and echocardiographic parameters including LVEDD, LV mass, and wall thicknesses (p < 0.05). hTERT gene expression was 2.06-fold higher in athletes compared to controls. Significant positive correlations were observed between hTERT expression and VO2peak, LVM, LV wall thicknesses, and right ventricular parameters. Conclusions: These findings suggest that regular aerobic exercise may contribute to both improved cardiovascular performance and cellular longevity by enhancing telomerase-related mechanisms. Full article
(This article belongs to the Section Human Genomics and Genetic Diseases)
21 pages, 353 KB  
Review
Molecular and Environmental Modulators of Aging: Interplay Between Inflammation, Epigenetics, and RNA Stability
by Konstantina Dragoumani, Dimitris Kletsas, George P. Chrousos, Dimitrios Vlachakis and Nikolaos A. A. Balatsos
Genes 2025, 16(7), 796; https://doi.org/10.3390/genes16070796 - 1 Jul 2025
Cited by 3 | Viewed by 2255
Abstract
Aging is a complex biological process characterized by the progressive accumulation of cellular and molecular damage, leading to functional decline and increased susceptibility to age-related diseases. Central to this process is cellular senescence, a state of irreversible cell cycle arrest that acts as [...] Read more.
Aging is a complex biological process characterized by the progressive accumulation of cellular and molecular damage, leading to functional decline and increased susceptibility to age-related diseases. Central to this process is cellular senescence, a state of irreversible cell cycle arrest that acts as both a protective mechanism against tumorigenesis and a contributor to tissue degeneration. Herein, we explore the genetic and molecular mechanisms underlying aging, with a focus on telomere dynamics, the Klotho gene, angiotensin-converting enzyme (ACE), and the NF-κB pathway. Telomeres, which serve as protective caps at chromosome ends, shorten with each cell division, leading to replicative senescence, while the enzyme telomerase plays a pivotal role in maintaining telomere length and cellular longevity. The Klotho gene encoding for an aging suppressor influences insulin/IGF-1 signaling and has antioxidant properties that protect against oxidative stress. ACE, through its dual role in regulating blood pressure and degrading amyloid-beta, impacts longevity and age-related pathologies. The NF-κB pathway drives chronic inflammation or “inflammaging,” contributing to the onset of age-related diseases. Understanding these pathways offers promising avenues for therapeutic interventions to extend health span and lifespan. Targeting mechanisms such as telomerase activation, Klotho supplementation, ACE inhibition, and NF-κB modulation hold potential for combating the detrimental effects of aging and promoting healthier aging in the population. Full article
(This article belongs to the Special Issue Genomic Approaches for Disease Diagnosis and Prognosis)
30 pages, 2545 KB  
Review
Overview of Epitalon—Highly Bioactive Pineal Tetrapeptide with Promising Properties
by Szymon Kamil Araj, Jakub Brzezik, Katarzyna Mądra-Gackowska and Łukasz Szeleszczuk
Int. J. Mol. Sci. 2025, 26(6), 2691; https://doi.org/10.3390/ijms26062691 - 17 Mar 2025
Cited by 5 | Viewed by 42309
Abstract
Epitalon, also known as Epithalon or Epithalone, is a tetrapeptide, Ala-Glu-Asp-Gly (AEDG), which was synthesized based on the amino acids composition of Epithalamin, a bovine pineal gland extract, prior to its discovery in pineal gland polypeptide complex solution. During the last 25 years, [...] Read more.
Epitalon, also known as Epithalon or Epithalone, is a tetrapeptide, Ala-Glu-Asp-Gly (AEDG), which was synthesized based on the amino acids composition of Epithalamin, a bovine pineal gland extract, prior to its discovery in pineal gland polypeptide complex solution. During the last 25 years, this compound has been extensively studied using in vitro, in vivo, and in silico methods. The results of these studies indicate significant geroprotective and neuroendocrine effects of Epitalone, resulting from its antioxidant, neuro-protective, and antimutagenic effects, originating from both specific and nonspecific mechanisms. Although it has been demonstrated that Epitalon exerts, among other effects, a direct influence on melatonin synthesis, alters the mRNA levels of interleukin-2, modulates the mitogenic activity of murine thymocytes, and enhances the activity of various enzymes, including AChE, BuChE, and telomerase, it remains uncertain whether these are the sole mechanisms of action of this compound. Moreover, despite the considerable volume of research on the biological and pharmacodynamic characteristics of Epitalon, the quantity of physico-chemical and structural investigations of this peptide remains quite limited. This review aims to conclude the most important findings from such studies, thus presenting the current state of knowledge on Epitalon. Full article
Show Figures

Graphical abstract

15 pages, 1736 KB  
Review
Emerging Roles of m7G-Cap Hypermethylation and Nuclear Cap-Binding Proteins in Bypassing Suppression of eIF4E-Dependent Translation
by Kathleen Boris-Lawrie, Jessica Liebau, Abdullgadir Hayir and Xiao Heng
Viruses 2025, 17(3), 372; https://doi.org/10.3390/v17030372 - 5 Mar 2025
Cited by 2 | Viewed by 4083
Abstract
Translation regulation is essential to the survival of hosts. Most translation initiation falls under the control of the mTOR pathway, which regulates protein production from mono-methyl-guanosine (m7G) cap mRNAs. However, mTOR does not regulate all translation; hosts and viruses alike employ alternative pathways, [...] Read more.
Translation regulation is essential to the survival of hosts. Most translation initiation falls under the control of the mTOR pathway, which regulates protein production from mono-methyl-guanosine (m7G) cap mRNAs. However, mTOR does not regulate all translation; hosts and viruses alike employ alternative pathways, protein factors, and internal ribosome entry sites to bypass mTOR. Trimethylguanosine (TMG)-caps arise from hypermethylation of pre-existing m7G-caps by the enzyme TGS1 and are modifications known for snoRNA, snRNA, and telomerase RNA. New findings originating from HIV-1 research reveal that TMG-caps are present on mRNA and license translation via an mTOR-independent pathway. Research has identified TMG-capping of selenoprotein mRNAs, junD, TGS1, DHX9, and retroviral transcripts. TMG-mediated translation may be a missing piece for understanding protein synthesis in cells with little mTOR activity, including HIV-infected resting T cells and nonproliferating cancer cells. Viruses display a nuanced interface with mTOR and have developed strategies that take advantage of the delicate interplay between these translation pathways. This review covers the current knowledge of the TMG-translation pathway. We discuss the intimate relationship between metabolism and translation and explore how this is exploited by HIV-1 in the context of CD4+ T cells. We postulate that co-opting both translation pathways provides a winning strategy for HIV-1 to dictate the sequential synthesis of its proteins and balance viral production with host cell survival. Full article
Show Figures

Graphical abstract

15 pages, 549 KB  
Review
Telomeropathies in Interstitial Lung Disease and Lung Transplant Recipients
by Brian D. Southern and Shruti K. Gadre
J. Clin. Med. 2025, 14(5), 1496; https://doi.org/10.3390/jcm14051496 - 24 Feb 2025
Cited by 4 | Viewed by 4549
Abstract
Telomeropathies, or telomere biology disorders (TBDs), are syndromes that can cause a number of medical conditions, including interstitial lung disease (ILD), bone marrow failure, liver fibrosis, and other diseases. They occur due to genetic mutations to the telomerase complex enzymes that result in [...] Read more.
Telomeropathies, or telomere biology disorders (TBDs), are syndromes that can cause a number of medical conditions, including interstitial lung disease (ILD), bone marrow failure, liver fibrosis, and other diseases. They occur due to genetic mutations to the telomerase complex enzymes that result in premature shortening of telomeres, the caps on the ends of cellular DNA that protect chromosome length during cell division, leading to early cell senescence and death. Idiopathic pulmonary fibrosis (IPF) is the most common manifestation of the telomere biology disorders, although it has been described in other interstitial lung diseases as well, such as rheumatoid arthritis-associated ILD and chronic hypersensitivity pneumonitis. Telomere-related mutations can be inherited or can occur sporadically. Identifying these patients and offering genetic counseling is important because telomerapathies have been associated with poorer outcomes including death, lung transplantation, hospitalization, and FVC decline. Additionally, treatment with immunosuppressants has been shown to be associated with worse outcomes. Currently, there is no specific treatment for TBD except to transplant the organ that is failing, although there are a number of promising treatment strategies currently under investigation. Shortened telomere length is routinely discovered in patients undergoing lung transplantation for IPF. Testing to detect early TBD in patients with suggestive signs or symptoms can allow for more comprehensive treatment and multidisciplinary care pre- and post-transplant. Patients with TBD undergoing lung transplantation have been reported to have both pulmonary and extrapulmonary complications at a higher frequency than other lung transplant recipients, such as graft-specific complications, increased infections, and complications related to immunosuppressive therapy. Full article
(This article belongs to the Special Issue Updates on Interstitial Lung Disease)
Show Figures

Figure 1

17 pages, 5847 KB  
Article
Essential Oil from Curcuma Longa Leaves: Using Nanotechnology to Make a Promising Eco-Friendly Bio-Based Pesticide from Medicinal Plant Waste
by Bianca Flexa-Ribeiro, Manoel D. N. Garcia, Ana Carolina de J. Silva, José Carlos T. Carvalho, Leandro Rocha, Silvia Maria M. Faustino, Caio P. Fernandes, Hellen F. da Silva, Francisco P. Machado, Lorane Izabel da S. Hage-Melim, Raimundo Nonato P. Souto, Gisele da S. Botas and Rodrigo A. S. Cruz
Molecules 2025, 30(5), 1023; https://doi.org/10.3390/molecules30051023 - 23 Feb 2025
Cited by 3 | Viewed by 2816
Abstract
Nano-emulsions of essential oils (EO) and their chemical constituents are promising raw materials for the ecological control of Tribolium castaneum. Curcuma longa L. is a plant known for the properties of its rhizome, which is used in food, health, and hygiene products. [...] Read more.
Nano-emulsions of essential oils (EO) and their chemical constituents are promising raw materials for the ecological control of Tribolium castaneum. Curcuma longa L. is a plant known for the properties of its rhizome, which is used in food, health, and hygiene products. Although its leaves are considered by-products with no commercial value, they produce an essential oil rich in bioactive monoterpenoids. This study aims to evaluate the repellency of nano-emulsions containing the EO from leaves of C. longa or its three main chemical constituents against T. castaneum. The representative mixture of EO extracted in four different months showed p-cymene (26.0%), 1,8-cineole (15.1%), and terpinolene (15.5%) as major compounds. Nano-emulsions of EO (HLB 16.7), terpinolene (HLB 15.0), 1,8-cineole (HLB15.0), and p-cymene (HLB 15.0) were repellent at concentrations of 11 μg/cm2 (EO, terpinolene, and p-cymene) and 1.1 μg/cm2 (1,8-cineole). The EO nano-emulsion droplet size increased linearly over time, remaining below 300 nm for 35 days. The EO nano-emulsion proved to be a green alternative to synthetic pesticides, as it was safe against the bioindicator Chlorella vulgaris. Furthermore, its main constituents were able to inhibit in silico the enzyme telomerase of T. castaneum, which is an enzyme essential for life. This study provides ideas for the utilization of EO from leaves of C. longa as raw material for new environmentally friendly plant-derived nanobiopesticides. Full article
(This article belongs to the Special Issue Chemical Composition and Bioactivities of Essential Oils, 2nd Edition)
Show Figures

Figure 1

14 pages, 1701 KB  
Article
A Perceived Dissociation Between Systemic Chronic Inflammation, Age, and the Telomere/Telomerase System in Type 2 Diabetes
by Mai S. Sater, Dhuha M. B. AlDehaini, Zainab H. A. Malalla, Muhalab E. Ali and Hayder A. Giha
Biomedicines 2025, 13(3), 531; https://doi.org/10.3390/biomedicines13030531 - 20 Feb 2025
Cited by 3 | Viewed by 1806
Abstract
Background: Chronic inflammation is associated with leukocyte telomere length (LTL) shortening and type 2 diabetes (T2D). The latter is also associated with LTL shortening, while the three variables are associated with aging. Objective: It is tempting to test whether inflammation, age, or [...] Read more.
Background: Chronic inflammation is associated with leukocyte telomere length (LTL) shortening and type 2 diabetes (T2D). The latter is also associated with LTL shortening, while the three variables are associated with aging. Objective: It is tempting to test whether inflammation, age, or both are behind the telomere system aberrations in diabetic patients. Methods: In this cross-sectional observational study, blood samples collected from 118 T2D patients were analyzed via ELISA to estimate the plasma levels of four inflammatory markers, IL6, IL8, TREM1, and uPAR, and the telomerase enzyme (TE). Moreover, the extracted DNA was used for the LTL estimation via qPCR and for single nucleotide polymorphisms (SNP) genotyping of TE genes (TERT, TERC, and ACYP2) via rtPCR. Results: The results showed no correlation between the levels of all tested inflammatory markers and the LTL, TE level, and age. There were no significant differences between the marker levels in diabetic patients in the four quartiles of the LTL and TE levels. Moreover, there were no significant differences in the levels of the markers between carriers of the different TE genotypes. Conclusions: There were no associations between the tested inflammatory markers’ levels and the LTL, TE plasma levels, or age in T2D. Explanations for the dissociation between the above-known associations in T2D were proposed; however, the subject is worth further investigation. Full article
(This article belongs to the Section Endocrinology and Metabolism Research)
Show Figures

Figure 1

31 pages, 658 KB  
Review
Telomere Dynamics in Post-Traumatic Stress Disorder: A Critical Synthesis
by Ravi Philip Rajkumar
Biomedicines 2025, 13(2), 507; https://doi.org/10.3390/biomedicines13020507 - 18 Feb 2025
Cited by 1 | Viewed by 4950
Abstract
Post-traumatic stress disorder (PTSD), a mental disorder caused by exposure to traumatic stress, affects 5–10% of the world’s population. There is some evidence that PTSD is associated with accelerated cellular aging, leading to an increased risk of medical and neurodegenerative comorbidities. Alterations in [...] Read more.
Post-traumatic stress disorder (PTSD), a mental disorder caused by exposure to traumatic stress, affects 5–10% of the world’s population. There is some evidence that PTSD is associated with accelerated cellular aging, leading to an increased risk of medical and neurodegenerative comorbidities. Alterations in telomere length (TL) and telomerase enzyme activity have been proposed as biomarkers of this process. This hypothesis was seemingly confirmed in preliminary research, but more recent studies have yielded mixed results. The current narrative review was conducted to provide a critical synthesis of existing research on telomere length and telomerase in PTSD. Data from 26 clinical studies suggest that TL in PTSD is highly variable and may be influenced by methodological, demographic, trauma-related, and psychosocial factors. There is no evidence for altered telomerase activity in PTSD. In contrast, animal research suggests that exposure to traumatic stress does lead to TL shortening. Overall, it is likely that TL is not, by itself, a reliable biomarker of cellular aging in PTSD. Other markers of cellular senescence, such as epigenetic changes, may prove to be more specific in measuring this process in patients with PTSD. Full article
(This article belongs to the Special Issue The Role of Telomere and Telomerase in Human Disease)
Show Figures

Figure 1

16 pages, 3532 KB  
Article
Molecular and Structural Characterization of an Immunopurified Telomerase from Leishmania major and the Effect of Telomerase Inhibitors
by Riward Campelo Morillo, Liliana Casique, Katherine Figarella and José Luis Ramírez
Microorganisms 2025, 13(2), 357; https://doi.org/10.3390/microorganisms13020357 - 7 Feb 2025
Viewed by 2173
Abstract
Leishmania major is the etiological agent of cutaneous leishmaniasis (CL) in several countries in Asia and Northern Africa. The disease is considered a zoonotic infection where rodents are the reservoirs and phlebotomine sandflies are the vectors. Once inside the human body, the parasite [...] Read more.
Leishmania major is the etiological agent of cutaneous leishmaniasis (CL) in several countries in Asia and Northern Africa. The disease is considered a zoonotic infection where rodents are the reservoirs and phlebotomine sandflies are the vectors. Once inside the human body, the parasite multiplies inside the macrophages of infected patients, but the disease eventually cures spontaneously, leaving scars where the phlebotomine bites occurred. Given the importance of the replicative forms in the parasite’s cell cycle, here, we decided to study the enzyme telomerase, which has the critical role of replenishing the chromosomal telomeric ends during cell replication. To this aim, we first conducted partial purification using Sephacryl-300 HR gel filtration, which allowed us to determine that the telomerase activity eluted as a 600 KDa complex. Second, we characterized an immunopurified L. major telomerase, and to try to explain some of our findings, we performed modeling studies using Alfa fold 3, Pyre2, and Swiss Protein Model. Finally, considering the similarity between the catalytic site of Leishmania and Homo sapiens telomerase, we decided to test typical inhibitors of human telomerase on the purified enzyme and promastigote cell forms, confirming that MST-312 and TMPYP4 efficiently inhibited L. major activity and arrested cell growth in Leishmania promastigotes. Our findings confirm the importance of telomerase activity in L. major’s replicative forms and suggest the possibility of using drugs previously tested on human telomerase to treat CL. Full article
Show Figures

Figure 1

Back to TopTop