Featured
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Article
| Open AccessCdk8/CDK19 promotes mitochondrial fission through Drp1 phosphorylation and can phenotypically suppress pink1 deficiency in Drosophila
Mitochondrial fission, performed by Drp1, is carefully regulated, particularly in neurons. Here, the authors examine Drosophila Cdk8/CDK19 function in mitochondrial fission and uncover a role phosphorylating Drp1 in the cytoplasm and show overexpression suppresses a Parkinson’s disease model.
- Jenny Zhe Liao
- , Hyung-lok Chung
- & Esther M. Verheyen
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Article
| Open AccessAn Intricate Network Involving the Argonaute ALG-1 Modulates Organismal Resistance to Oxidative Stress
In this study, Vergani-Junior et al. show that increased expression of the argonaute ALG-1 in long-lived worms improves oxidative stress resistance through the modulation of microRNAs that downregulate the protein disulfide isomerase pathway.
- Carlos A. Vergani-Junior
- , Raíssa De P. Moro
- & Marcelo A. Mori
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Article
| Open Accessp53 regulates diverse tissue-specific outcomes to endogenous DNA damage in mice
DNA repair deficiency can cause tissue-specific phenotypes in humans and mice. Here, the authors find that p53 drives different, but tissue-specific responses despite the same defect in DNA repair. p53 drives blood stem cell loss but restrains liver polyploidisation in the absence of Ercc1.
- Ross J. Hill
- , Nazareno Bona
- & Gerry P. Crossan
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Perspective
| Open AccessThe long and winding road of reprogramming-induced rejuvenation
Rejuvenation and partial reprogramming are two frontier areas in the field of aging. Here, the authors summarize advances in these fields and suggest future directions for research and therapy.
- Ali Doğa Yücel
- & Vadim N. Gladyshev
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Article
| Open AccessReducing the metabolic burden of rRNA synthesis promotes healthy longevity in Caenorhabditis elegans
Synthesis of ribosomal RNA (rRNA) by Pol I sustains cell growth but is highly energy demanding. Here the authors show that curbing of Pol I activity lowers systemic energy utilization and delays metabolic aging by reducing triglyceride lipolysis and mitochondrial oxygen consumption.
- Samim Sharifi
- , Prerana Chaudhari
- & Maria Ermolaeva
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Article
| Open AccessPro-ferroptotic signaling promotes arterial aging via vascular smooth muscle cell senescence
Ferroptosis is a novel form of regulated cell death associated with lipid oxidation. Here, the authors demonstrate that the proferroptosis signal is activated and drives vascular aging by inducing senescence in vascular smooth muscle cells.
- Di-Yang Sun
- , Wen-Bin Wu
- & Pei Wang
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Article
| Open AccessExperimental evidence for cancer resistance in a bat species
Bats have been suggested to be resistant to cancer due to mechanisms related to their evolved longevity, but the associated molecular drivers are still understudied. Here, the authors examine cancer resistance mechanisms across seven bat species using in vitro and in vivo models, and identify HIF1A, COPS5, and RPS3 as related genes.
- Rong Hua
- , Yuan-Shuo Ma
- & Zhen Liu
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Article
| Open AccessShort-term periodic restricted feeding elicits metabolome-microbiome signatures with sex dimorphic persistence in primate intervention
Here, the authors show that periodic restricted feeding (PRF) in Rhesus monkeys induces lasting weight loss not directly tied to reduced calories, while altering sex-specific metabolome and microbiome composition, in turn associated with long-term benefits.
- Hagai Yanai
- , Bongsoo Park
- & Isabel Beerman
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Article
| Open AccessTissue-specific profiling of age-dependent miRNAomic changes in Caenorhabditis elegans
Wang et al. profile age-dependent miRNAomic changes in worm tissues and extracellular vesicles (EVs). They show that ageing controls miRNAs in a tissue-specific manner and their findings further suggest a complex EV-mediated miRNA trafficking network across tissues.
- Xueqing Wang
- , Quanlong Jiang
- & Yidong Shen
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Article
| Open AccessEffect of aging on the human myometrium at single-cell resolution
Age-associated myometrial dysfunction can cause complications during pregnancy and labor. Here, the authors report that aging myometrium is characterized by diminished contractile capillary cells, altered gene expression, and disrupted cellular communication leading to impaired angiogenesis, increased fibrosis and inflammation.
- Paula Punzon-Jimenez
- , Alba Machado-Lopez
- & Aymara Mas
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Article
| Open AccessA renal clearable fluorogenic probe for in vivo β-galactosidase activity detection during aging and senolysis
In vivo detection of cell senescence remains a challenge in aging research. This work introduces a novel fluorogenic probe for β-Gal activity that is excreted in urine, providing a simple diagnosis method to estimate the systemic load of senescent cells during aging and senolytic interventions.
- Sara Rojas-Vázquez
- , Beatriz Lozano-Torres
- & Ramón Martínez-Máñez
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Article
| Open AccessSox9 regulates alternative splicing and pancreatic beta cell function
Sox9 is a well-known transcriptional regulator of embryonic pancreas and endocrine cell development. Here, the authors show that loss of Sox9 in mature beta cells disrupts alternative splicing patterns and impairs insulin secretion, with significant implications for cellular function.
- Sapna Puri
- , Hasna Maachi
- & Matthias Hebrok
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Article
| Open AccessAdult stem cell activity in naked mole rats for long-term tissue maintenance
Authors report that long-term intestinal tissue maintenance in naked mole rats is achieved by having an expanded pool of slow-dividing adult stem cells while a higher proportion of differentiated cells confer enhanced function and protection to the intestinal mucosa.
- Shamir Montazid
- , Sheila Bandyopadhyay
- & Shazia Irshad
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Article
| Open AccessFunctional-metabolic coupling in distinct renal cell types coordinates organ-wide physiology and delays premature ageing
Spatially resolved metabolism in complex tissues is vital but poorly understood. Here, the authors establish the Drosophila renal system as a paradigm for linking mechanistic analysis of metabolism at single-cell resolution to organ-wide physiology.
- Jack Holcombe
- & Helen Weavers
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Article
| Open AccessSenescence-associated 13-HODE production promotes age-related liver steatosis by directly inhibiting catalase activity
Polyunsaturated fatty acid-derived bioactive lipids play critical roles as signalling molecules in metabolic processes. Here, the author show 13-HODE produced by senescent hepatocytes and macrophages activates SREBP1 by directly inhibiting CAT activity and promotes age-related steatosis.
- Jinjie Duan
- , Wenhui Dong
- & Chunjiong Wang
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Article
| Open AccessA naturally occurring polyacetylene isolated from carrots promotes health and delays signatures of aging
Ameliorating or preventing signatures of aging in humans using natural compounds is an exciting area of research. Here the authors isolate a previously unknown phytochemical from carrots which activates defence mechanisms against oxidative stress and extends lifespan in worms, and improves glucose metabolism, promotes exercise capacity, and protects from frailty at higher age in mice.
- Carolin Thomas
- , Reto Erni
- & Michael Ristow
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Article
| Open AccessEarly-adult methionine restriction reduces methionine sulfoxide and extends lifespan in Drosophila
Dietary methionine restriction extends lifespans in many organisms. Here, the authors show in Drosophila that methionine restriction in early adulthood can increase lifespan and that the beneficial effect of the dietary manipulation declines with age.
- Hina Kosakamoto
- , Fumiaki Obata
- & Masayuki Miura
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Article
| Open AccessSis2 regulates yeast replicative lifespan in a dose-dependent manner
Using a microfluidic single-cell aging platform, the authors report how single-cell lifespan varies across more than 300 yeast strains, each missing a single gene. Their top hit, Sis2, was found to regulate yeast lifespan in a dose-dependent fashion.
- Tolga T. Ölmez
- , David F. Moreno
- & Murat Acar
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Article
| Open AccessACS-20/FATP4 mediates the anti-ageing effect of dietary restriction in C. elegans
Dietary restriction is one of the most effective ways to delay ageing. Here, the authors discover a highly conserved lipid metabolism gene functions through transcriptional regulation mechanisms to regulate proteostasis, lifespan and healthspan in response to low nutrients in C. elegans.
- Zi Wang
- , Lina Zou
- & Di Chen
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Article
| Open AccessMid-old cells are a potential target for anti-aging interventions in the elderly
In this study, the authors introduce the concept of a unique cellular subtype within the organic stroma, which does not conform to a typical young or senescent but is significantly associated with age-related organic dysfunction among the elderly.
- Young Hwa Kim
- , Young-Kyoung Lee
- & Tae Jun Park
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Article
| Open AccessGDF11 slows excitatory neuronal senescence and brain ageing by repressing p21
How excitatory neurons (EN) acquire senescence is unclear. Here, the authors show that GDF11 in ENs slows EN senescence, brain ageing, cognitive decline and maintains lifespan, revealing a mechanism underlying EN senescence and brain ageing.
- Di-Xian Wang
- , Zhao-Jun Dong
- & Jing-Wei Zhao
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Article
| Open AccessMechanical loading and hyperosmolarity as a daily resetting cue for skeletal circadian clocks
The 24-hour circadian clocks in cartilage and intervertebral disc play key roles in regulating tissue physiology, yet how they are reset on a daily basis remains elusive. Here the authors show that daily patterns of mechanical loading and associated changes in osmolarity provide a tissue-type specific entrainment time cue for these skeletal clocks.
- Michal Dudek
- , Dharshika R. J. Pathiranage
- & Qing-Jun Meng
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Article
| Open AccessPhase separation of BuGZ regulates gut regeneration and aging through interaction with m6A regulators
Phase separation serves to compartmentalize and concentrate cellular components to facilitate essential physiological processes. Here, the authors elucidate the role and mechanism of BuGZ-mediated phase separation in the context of gut regeneration and aging.
- Qiaoqiao Zhang
- , Kai Deng
- & Hao Jiang
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Article
| Open AccessA spatial sequencing atlas of age-induced changes in the lung during influenza infection
Ageing is known to impair the immune response against infectious pathogens. Here, Kasmani et al. present a spatial and transcriptomic atlas of immune changes in the lungs of young and aged mice in response to influenza virus infection.
- Moujtaba Y. Kasmani
- , Paytsar Topchyan
- & Weiguo Cui
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Article
| Open AccessThe endoribonuclease Arlr is required to maintain lipid homeostasis by downregulating lipolytic genes during aging
Fat is generally considered to have a negative effect on longevity but lipids can be beneficial for longevity. Here the authors show that fly Arlr endoribonuclease affects lipid metabolism by degrading the mRNAs of lipolysis genes.
- Xiaowei Sun
- , Jie Shen
- & Dan Wang
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Article
| Open AccessIFNγ-Stat1 axis drives aging-associated loss of intestinal tissue homeostasis and regeneration
Omrani, Krepelova et al. report that aging-induced proinflammatory IFNγ/Stat1 signalling primes intestinal stem cells to a secretory fate and to antigen presenting cells impairing the regenerative capacity of the aging gut epithelium.
- Omid Omrani
- , Anna Krepelova
- & Francesco Neri
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Article
| Open AccessCD44 connects autophagy decline and ageing in the vascular endothelium
Mechanisms underlying the connection between autophagy decline and vascular endothelial cell (VEC) ageing remain unclear. Here, the authors identify a key role for CD44 in controlling autophagy and ageing in VECs, and this function is conserved in nematodes.
- Lu Zhang
- , Peichang Yang
- & Shiwei Ma
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Article
| Open AccessEarly-adulthood spike in protein translation drives aging via juvenile hormone/germline signaling
The transient elevation in protein translation during early-adulthood in Drosophila imposes long-lasting negative impacts on future aging trajectories by triggering proteostatic dysfunction at old ages.
- Harper S. Kim
- , Danitra J. Parker
- & Andrew M. Pickering
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Article
| Open AccessMyonectin protects against skeletal muscle dysfunction in male mice through activation of AMPK/PGC1α pathway
Here the authors show that myonectin functions as a protective factor against age-associated, disuse-induced or steroid-induced muscle atrophy, suggesting that myonectin represents a therapeutic target for preventing skeletal muscle dysfunction.
- Yuta Ozaki
- , Koji Ohashi
- & Noriyuki Ouchi
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Article
| Open AccessMultiparametric senescent cell phenotyping reveals targets of senolytic therapy in the aged murine skeleton
Technical challenges have previously hindered the detailed study of in vivo senescent cells. Here, the authors deeply characterize senescent skeletal cells across murine aging, establishing CD24 as a marker of osteolineage cells cleared by senolytics.
- Madison L. Doolittle
- , Dominik Saul
- & Sundeep Khosla
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Article
| Open AccessModulating p38 MAPK signaling by proteostasis mechanisms supports tissue integrity during growth and aging
The extent of phosphorylated p38 MAPK is known to determine signaling. Here, the authors show the relative pool of non-phosphorylated p38 MAPK modulates signaling output to control growth, lysosome formation and neuronal integrity during early aging.
- Wang Yuan
- , Yi M. Weaver
- & Benjamin P. Weaver
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Article
| Open AccessAge-related self-DNA accumulation may accelerate arthritis in rats and in human rheumatoid arthritis
The incidence of rheumatoid arthritis (RA) and accumulation of circulating free (cf) DNA increase with age but it is unknown whether DNA fragments cause joint inflammation. Here authors show that cf DNA levels are higher in RA patients and that in a rat adjuvant-induced arthritis model, the exonuclease TREX1 suppresses synovial inflammation via promoting the degradation of cf DNA and inhibiting a senescence-like cellular state.
- Wei-Dan Luo
- , Yu-Ping Wang
- & Vincent Kam Wai Wong
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Article
| Open AccessC. elegans ageing is accelerated by a self-destructive reproductive programme
Caenorhabditis elegans is used as a model species to investigate ageing, yet has a very high degree of plasticity in lifespan. This study argues that ageing in C. elegans is driven by suicidal reproductive effort, unlike many other organisms.
- Carina C. Kern
- , Shivangi Srivastava
- & David Gems
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Article
| Open AccessSenescent immune cells accumulation promotes brown adipose tissue dysfunction during aging
With increasing age, brown adipose tissue (BAT) becomes characterized by increased adiposity and immune cell infiltration but reduced thermogenic capacity. Here the authors report that bone marrow-derived pro-inflammatory and senescent S100A8+ immune cells accumulate in BAT of male rats and mice during aging and contribute to BAT dysfunction.
- Xu Feng
- , Liwen Wang
- & Haiyan Zhou
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Article
| Open AccessMitochondrial complex III deficiency drives c-MYC overexpression and illicit cell cycle entry leading to senescence and segmental progeria
Mitochondria modulate both normal and premature aging, yet if primary oxidative phosphorylation deficiency can cause progeria has been unclear. Here, the authors show that mice with severe isolated respiratory complex III deficiency display cellular senescence and juvenile-onset segmental progeria.
- Janne Purhonen
- , Rishi Banerjee
- & Jukka Kallijärvi
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Article
| Open AccessMulti-omic underpinnings of epigenetic aging and human longevity
Here, the authors integrate genomic, bulk and single-cell transcriptomic, and metabolomic data sets to compare the biological underpinning of four epigenetic clocks and human longevity, offering novel insights into aging biology.
- Lucas A. Mavromatis
- , Daniel B. Rosoff
- & Falk W. Lohoff
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Article
| Open AccessDRAG in situ barcoding reveals an increased number of HSPCs contributing to myelopoiesis with age
Using in situ single cell lineage tracing technology DRAG, we show that, unlike emergency myelopoiesis post-transplantation, aged HSPCs do not functionally decline in the number of myeloid cells that they produce.
- Jos Urbanus
- , Jason Cosgrove
- & Leïla Perié
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Article
| Open AccessRestoring bone marrow niche function rejuvenates aged hematopoietic stem cells by reactivating the DNA Damage Response
Aging is associated with a loss of blood stem cell fitness in part due to defects in stem cell-supportive niches. Here, the authors demonstrate that restoring niche function by treatment with Netrin-1 is able to rejuvenate aged blood stem cells.
- Pradeep Ramalingam
- , Michael C. Gutkin
- & Jason M. Butler
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Article
| Open AccessAge-dependent Pdgfrβ signaling drives adipocyte progenitor dysfunction to alter the beige adipogenic niche in male mice
Thermogenic beige fat can reduce fat mass and improve metabolic health, yet the ability to form beige fat rapidly declines with age. Here, the authors show that targeting the age-related ramping of Pdgfrβ signalling restores the ageing adipose tissue niche to ignite beige fat development.
- Abigail M. Benvie
- , Derek Lee
- & Daniel C. Berry
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Article
| Open AccessThe rhythmic coupling of Egr-1 and Cidea regulates age-related metabolic dysfunction in the liver of male mice
Many transcriptomic pathways in the liver show circadian rhythms, which have been reported to be disrupted in aged mice. Here the authors report that the expression of transcription factor Egr-1 decreases and its rhythm is shifted with age in the liver of male mice, and that deletion of Egr-1 results in increased liver fat accumulation.
- Jing Wu
- , Dandan Bu
- & Chao-Jun Li
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Article
| Open AccessNicotine rebalances NAD+ homeostasis and improves aging-related symptoms in male mice by enhancing NAMPT activity
Nicotine, a metabolite of the NAD+ metabolic pathway, has been found to possess anti-inflammatory and neuroprotective properties, yet the underlying molecular mechanisms remained unknown. Here, the authors show that low-dose nicotine promotes SIRT1 deacetylation of NAMPT and enhanced NAMPT activity which boosts NAD generation and improves age related symptoms.
- Liang Yang
- , Junfeng Shen
- & Xiang Li
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Article
| Open AccessMethionine adenosyltransferase2A inhibition restores metabolism to improve regenerative capacity and strength of aged skeletal muscle
Aged myoblasts suffer from impaired glycolysis and insulin resistance, but increase methionine catabolism, possibly to meet energetic demands. Here, authors show that inhibiting methionine metabolism via NANOG reprogramming or MAT2A inhibition restores the function and regeneration capacity of aged muscle.
- Nika Rajabian
- , Izuagie Ikhapoh
- & Stelios T. Andreadis
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Article
| Open AccessFMO rewires metabolism to promote longevity through tryptophan and one carbon metabolism in C. elegans
Flavin containing monooxygenase 2 (FMO-2) is known to increase lifespan under dietary restriction through incompletely understood mechanisms. Here the authors report that FMO-2 modifies tryptophan and methionine metabolic pathways to enhance stress resistance and slow aging in C. elegans.
- Hyo Sub Choi
- , Ajay Bhat
- & Scott F. Leiser
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Article
| Open AccessTranscriptional reprogramming of skeletal muscle stem cells by the niche environment
Aging leads to significant alteration in the gene expression of muscle stem cells. In vivo exposure of muscle stem cells from aged mice to a young niche environment restores the expression of a significant portion of age-altered genes in mice.
- Felicia Lazure
- , Rick Farouni
- & Vahab D. Soleimani
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Article
| Open AccessCorrelated evolution of social organization and lifespan in mammals
To elucidate the relationship between sociality and longevity, the authors perform phylogenetic and transcriptomic comparative analysis of mammals. They find that group-living species lived longer than solitary species and identify 31 genes, hormones, and immunity-related pathways involved in this connection.
- Pingfen Zhu
- , Weiqiang Liu
- & Xuming Zhou
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Article
| Open AccessCPEB1-dependent disruption of the mRNA translation program in oocytes during maternal aging
In the absence of transcription, gene expression required for oocyte maturation is regulated by translation of preexisting mRNAs. Here the authors show that a defective program of mRNA translation in oocyte is associated with maternal aging.
- Nozomi Takahashi
- , Federica Franciosi
- & Marco Conti
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Article
| Open AccessA new AMPK isoform mediates glucose-restriction induced longevity non-cell autonomously by promoting membrane fluidity
Although diet modulates aging, little is known about whether and how nutrient regulates longevity. Here, the authors show that glucose-restricted diets prolong longevity through series of conserved factors, such as neuronal AMPK, neuropeptide, AdipoR, PPARα, and Δ9 desaturases by promoting membrane fluidity.
- Jin-Hyuck Jeong
- , Jun-Seok Han
- & Eun-Soo Kwon
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Article
| Open AccessTiming and cell specificity of senescence drives postnatal lung development and injury
Senescence causes age-related diseases and stress-related injury, but it is also physiologically essential during development. Here, Yao et al. show that programmed senescence in mesenchymal cells orchestrates postnatal lung development and that neonatal hyperoxia can induce senescence, particularly in type II, Pdgfra+ mesenchymal and immune cells, during the alveolar stage, resulting in lung injury.
- Hongwei Yao
- , Joselynn Wallace
- & Phyllis A. Dennery
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Article
| Open AccessSenescent cells perturb intestinal stem cell differentiation through Ptk7 induced noncanonical Wnt and YAP signaling
Cellular senescence and associated secretory phenotype (SASP) are thought to contribute to aging and tissue dysfunction, though it is unclear how SASP impacts regeneration. Here the authors show that SASP factors impair regeneration, and that Ptk7 is a key secreted protein mediating that dysregulation.
- Jina Yun
- , Simon Hansen
- & Heinrich Jasper