Canonical and extra‐telomeric functions of telomerase: Implications for healthy ageing conferred by endurance training

Denham, Joshua

doi:10.1111/acel.13836

Cited by 10 publications

(10 citation statements)

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“…All above observations point at the extranuclear localization of a specific TERT isoform in somatic tissues of different termite castes, which is particularly enriched in the soma of long- lived reproductives and may be linked with their longevity via an unknown non-canonical function independent of telomere maintenance. Within the growing list of non-canonical roles attributed to hTERT and telomerase in humans, several functions are accompanied by active telomerase export from the nucleus upon oxidative stress and participation of TERT in protection against oxidative damage (reviewed, e.g., in Cong & Shay, 2008; Ding et al ., 2013; Saretzki, 2014; Romaniuk et al ., 2019; Ségal-Bendirdjian & Geli, 2019; Zheng et al ., 2019; Smith et al ., 2022; Denham, 2023). It is mostly manifested in mitochondria by reducing the levels of reactive oxygen species, protecting mtDNA from oxidative damage and enhancing the efficiency of respiratory chain.…”

Section: Discussionmentioning

confidence: 99%

Extended longevity of termite kings and queens is accompanied by extranuclear localization of telomerase in somatic organs and caste-specific expression of its isoforms

Pangrácová,

Křivánek,

Vrchotová

et al. 2024

Preprint

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Kings and queens of termites are endowed with an extraordinary longevity coupled with lifelong fecundity. We recently reported that termite kings and queens display a dramatically increased enzymatic activity and abundance of telomerase in their somatic organs when compared to short-lived workers and soldiers. We hypothesized that this telomerase activation may represent a non-canonical pro-longevity function, independent of its canonical role in telomere maintenance. Here, we explore this avenue and investigate whether the presumed non-canonical role of telomerase may be due to alternative splicing of the catalytic telomerase subunit TERT and whether the subcellular localization of TERT isoforms differs among organs and castes in the termite Prorhinotermes simplex. We empirically confirm the expression of four in silico predicted splice variants (psTERT1-A, psTERT1-B, psTERT2-A, psTERT2-B), defined by N-terminal splicing implicating differential localizations, and C-terminal splicing giving rise to full-length and truncated isoforms. We show that the transcript proportions of the psTERT are caste- and tissue-specific and that the extranuclear full-length isoform TERT1-A is relatively enriched in the soma of neotenic kings and queens compared to their gonads and to the soma of workers. We also show that extranuclear TERT protein quantities are significantly higher in the soma of kings and queens compared to workers, namely due to the cytosolic TERT. Independently, we confirm by microscopy the extranuclear TERT localization in somatic organs. We conclude that the presumed pleiotropic action of telomerase combining the canonical nuclear role in telomere maintenance with extranuclear functions is driven by complex TERT splicing.

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Section: Discussionmentioning

confidence: 99%

Extended longevity of termite kings and queens is accompanied by extranuclear localization of telomerase in somatic organs and caste-specific expression of its isoforms

Pangrácová,

Křivánek,

Vrchotová

et al. 2024

Preprint

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“…As a result, 10 years after their appearance, the understanding of the molecular mechanisms underlying aging has been expanded, and many significant advancements have been made in regard to uncovering the secrets behind aging and its reversal, along with the investigation of various pro-longevity therapies and interventions (Lopez-Otin et al, 2013, 2023, including the use of plant-derived natural compounds (Table 1).…”

Section: "Old" Hallmarks Of Aging-longevity Perspectivementioning

confidence: 99%

“…The assembly of telomerase occurs within specialized subnuclear structures called Cajal bodies, and its proper trafficking to telomeres is facilitated by the telomerase Cajal body protein 1 and TPP1 proteins (L. Chen et al, 2018;Vogan et al, 2016). Composed of the telomerase reverse transcriptase (TERT) and telomerase RNA component (TERC) genes and their associated dyskerin complex (Figure 2), telomerase catalyzes the addition of telomeric DNA to the ends of chromosomes, countering the natural shortening of telomeres that occurs with each cell division (Denham, 2023) F I G U R E 2 Mechanistic molecular pathways and subcellular structures involved in the aging processes through regulation of genome, epigenome, and transcriptome levels that could be employed as targets for longevity interventions. AKT, protein kinase B; AMPK, adenosine monophosphate-activated protein kinase; ATM, ataxia telangiectasia mutated; ATR, ataxia-telangiectasia mutated and rad3-related; BER, base excision repair; BRCA1/2, Breast Cancer gene 1/2; CHK1/2, checkpoint kinase 1/2; ERK, extracellular signal-regulated kinase; ERCC1-XPF, excision repair cross complementing 1 protein-xeroderma pigmentosum group F; FOXO, Forkhead box class O proteins; HR, homologous recombination; IRF(R), insulin-like growth factor (receptor); IR, insulin receptor; IRS, insulin receptor substrate; MEK, mitogen-activated protein kinase/ERK kinase; mTOR, mammalian target of rapamycin; NER, nucleotide excision repair; NHEJ, non-homologous end joining; OSK (Oct4, Klf4, Sox2), Yamanaka factors; PARP1/2, poly (ADP-ribose) polymerase; PI3K, phosphatidylinositol 3-kinase; POT1, protection of telomere 1; RAP1, Ras-proximate-1; STK17A, serine/threonine kinase 17a; TERC, telomerase RNA component; TERT, telomerase reverse transcriptase; TIN2, TERF1-interacting nuclear factor 2; TRF1/2, telomeric repeat binding factor 1/2; TPP1, tripeptidyl-peptidase 1.…”

Section: Telomere Attritionmentioning

confidence: 99%

“…The present review aimed to critically evaluate the published data on the modulation of the aging hallmarks to promote longevity and overall well-being over the past 10 years. Here, we define the original nine hallmarks as "old" ones, given their presence in the aging field for over a decade, and interpret the additional ones that were recently introduced as "new" (Lopez-Otin et al, 2013, 2023. The following keyword combinations were used to retrieve the relevant articles from scientific databases: "natural compounds," "phytochemicals," "ageing," "longevity," "lifespan," and "healthspan."…”

Section: Introductionmentioning

confidence: 99%

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Nurturing longevity through natural compounds: Where do we stand, and where do we go?

Todorova,

Savova,

Mihaylova

et al. 2024

Food Frontiers

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The revolution in aging research through the past decade has driven the progress in interventions that promote longevity. Dissection of the “old” hallmarks of aging has provided solid data for the definition of at least three “new” ones, opening avenues for the development of novel hallmark‐targeted pro‐longevity approaches. The quest for geroprotectors is of enormous interest with the ultimate goal of finding the alchemical stone that induces healthy aging and increases lifespan, pushing the limits of human longevity or even uncovering the absence of such limits. Several of the well‐appreciated geroprotectors that are recognized as longevity promoters are of natural origin such as metformin, resveratrol, aspirin, and spermidine. As the search for pharmacological modulators of healthspan and lifespan continues, numerous studies are focusing on the potential of plant secondary metabolites. The current review attempts to critically assess the available interventions and the breakthrough discoveries in the field of longevity research over the past decade. Correspondingly, novel approaches targeting the hallmarks of aging have been outlined, and the future goals in longevity research have been enlightened. Special emphasis has been placed on the potential of plant‐derived compounds as pro‐longevity agents.

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“…Consequently, short telomeres are considered one of the primary hallmarks of aging, as they lead to aging hallmarks including genomic instability, cellular senescence, and loss of regenerative capacity (López-Otín et al 2023 ). Cell and animal models with genetic modifications or absence of telomerase activity have provided direct evidence for the role of telomerase in the maintenance of telomeres and its contribution to biological aging (Denham 2023 ). Moreover, telomeropathies, arising from mutations in genes responsible for telomere maintenance, manifest as premature aging syndromes (Vieri et al 2021 ).…”

Section: Introductionmentioning

confidence: 99%

Telomere shortening induces aging-associated phenotypes in hiPSC-derived neurons and astrocytes

Harley,

Santosa,

et al. 2023

Biogerontology

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Telomere shortening is a well-established hallmark of cellular aging. Telomerase reverse transcriptase (TERT) plays a crucial role in maintaining the length of telomeres, which are specialised protective caps at the end of chromosomes. The lack of in vitro aging models, particularly for the central nervous system (CNS), has impeded progress in understanding aging and age-associated neurodegenerative diseases. In this study, we aimed to explore the possibility of inducing aging-associated features in cell types of the CNS using hiPSC (human induced pluripotent stem cell) technology. To achieve this, we utilised CRISPR/Cas9 to generate hiPSCs with a loss of telomerase function and shortened telomeres. Through directed differentiation, we generated motor neurons and astrocytes to investigate whether telomere shortening could lead to age-associated phenotypes. Our findings revealed that shortened telomeres induced age-associated characteristics in both motor neurons and astrocytes including increased cellular senescence, heightened inflammation, and elevated DNA damage. We also observed cell-type specific age-related morphology changes. Additionally, our study highlighted the fundamental role of TERT and telomere shortening in neural progenitor cell (NPC) proliferation and neuronal differentiation. This study serves as a proof of concept that telomere shortening can effectively induce aging-associated phenotypes, thereby providing a valuable tool to investigate age-related decline and neurodegenerative diseases. Graphical abstract

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Canonical and extra‐telomeric functions of telomerase: Implications for healthy ageing conferred by endurance training

Abstract: This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

Cited by 10 publications

References 250 publications

Extended longevity of termite kings and queens is accompanied by extranuclear localization of telomerase in somatic organs and caste-specific expression of its isoforms

Extended longevity of termite kings and queens is accompanied by extranuclear localization of telomerase in somatic organs and caste-specific expression of its isoforms

Nurturing longevity through natural compounds: Where do we stand, and where do we go?

Telomere shortening induces aging-associated phenotypes in hiPSC-derived neurons and astrocytes

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