Your search keyword '"senolytic"' showing total 831 results

1. Editorial: Women in aging and the immune system

Author

Bartley, Jenna M and Agrawal, Anshu

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, aging, immune dysfunction, inflammaging, metformin, senolytic, Clinical sciences

Published

2024

2. The Senolytic Effect of Indole-3-Carbinol (I3C) on Mouse Embryonic (MEF) and Human Fibroblast Cell Lines.

Author

Sax, Scott L., Centomo, Maria Laura, Centofanti, Federica, Rizzacasa, Barbara, Cox, Sierra, Cox, Chelsea, Latini, Andrea, D'Apice, Maria Rosaria, Mannucci, Liliana, Novelli, Giuseppe, and Pandolfi, Pier Paolo

Abstract

Senescence and apoptosis are two fundamental cellular processes that play crucial roles in various physiological and pathological conditions. Senescence refers to the irreversible growth arrest that cells undergo in response to various stimuli, including telomeric alterations, stress, and oncogenic signaling. Pharmacological and/or genetic removal of senescent cells, also referred to as senolysis, triggers organ rejuvenation and tissue regeneration. Indole-3-carbinol (I3C) is a natural compound contained in Brassicaceae plants and identified in multiple in vitro and in vivo studies as a well-tolerated and effective compound in cancer prevention and therapy. Its anti-cancer properties have been attributed at least in part to its inhibitory activity of proto-oncogenic HECT E3-ubiquitin ligases such as NEDD4 and WWP1. While the tumor suppressive effects of I3C in cancer cell lines have been reported in multiple studies, little is known regarding the biological effects of I3C in primary normal cells, which attain spontaneous cellular senesce over serial passaging. To this end, we used two model systems: mouse embryonic fibroblasts (MEFs) and human primary dermal fibroblasts. Here, we surprisingly show that I3C does increase cellular senescence at early passages, while dramatically reducing the number of senescent cells through the induction of apoptosis in both mouse and human primary cells. Thus, our findings support the notion that I3C acts as a senolytic compound with important therapeutic implications for the prevention and treatment of aging manifestations. The notion can be readily tested in future clinical trials in humans also in view of the high tolerability and safety previously displayed by I3C in preclinical and clinical studies. [ABSTRACT FROM AUTHOR]

Published

2024

3. Senolytics To slOw Progression of Sepsis (STOP-Sepsis) in elderly patients: Study protocol for a multicenter, randomized, adaptive allocation clinical trial.

Author

Silva, Milena, Wacker, David A., Driver, Brian E., Staugaitis, Abbey, Niedernhofer, Laura J., Schmidt, Elizabeth L., Kirkland, James L., Tchkonia, Tamara, Evans, Tamara, Serrano, Carlos Hines, Ventz, Steffen, Koopmeiners, Joseph S., Puskarich, Michael A., Akpa, Bimaje, Bhagat, Milind, Ingraham, Nicholas E., Kesler, Sarah M., Kubbara, Aahd, Mahan, Kathleen, and Pendleton, Kathryn M.

Subjects

*SEPTIC shock, *OLDER patients, *CELLULAR aging, *INTENSIVE care units, *CLINICAL deterioration, *IMMUNOSENESCENCE

Abstract

Background: Senescent immune cells exhibit altered gene expression and resistance to apoptosis. The prevalence of these cells increases with age and emerging data implicate senescence-associated maladaptive signaling as a potential contributor to sepsis and septic shock. The senolytic drug fisetin promotes clearance of senescent cells and is hypothesized to mitigate septic responses to infection. Methods: We are conducting a multi-center, randomized, double-blinded, adaptive allocation phase 2 clinical trial to assess the efficacy of the senolytic drug fisetin in preventing clinical deterioration of elderly patients diagnosed with sepsis. We intend to enroll and randomize 220 elderly patients (age > 65) with the clinical diagnosis of sepsis to receive either fisetin as a single oral dose of 20 mg/kg, fisetin in two oral doses of 20 mg/kg each spaced 1 day apart, or placebo. The primary outcome will be changed in the composite of cardiovascular, respiratory, and renal sequential organ failure assessment scores at 7 days from enrollment. Secondary outcomes include quantification of senescent CD3 + cells at 7 days, and 28-day assessments of organ failure-free days, days in an intensive care unit, and all-cause mortality. Discussion: This multi-center, randomized, double-blinded trial will assess the efficacy of fisetin in preventing clinical deterioration in elderly patients with sepsis and measure the effects of this drug on the prevalence of senescent immune cells. We intend that the results of this phase 2 trial will inform the design of a larger phase 3 study. Trial registration: This trial is registered to ClinicalTrials.gov under identifier NCT05758246, first posted on March 7, 2023. [ABSTRACT FROM AUTHOR]

Published

2024

4. Prophylactic senolytic treatment in aged mice reduces seizure severity and improves survival from Status Epilepticus.

Author

Khan, Tahiyana, Hussain, Abbas I., Casilli, Timothy P., Frayser, Logan, Cho, Michelle, Williams, Gabrielle, McFall, David, and Forcelli, Patrick A.

Subjects

*COGNITIVE aging, *STATUS epilepticus, *SPATIAL memory, *MEMORY testing, *LABORATORY mice

Abstract

Increased vulnerability to seizures in aging has been well documented both clinically and in various models of aging in epilepsy. Seizures can exacerbate cognitive decline that is already prominent in aging. Senescent cells are thought to contribute to cognitive impairment in aging and clearing senescent cells with senolytic drugs improves cognitive function in animal models. It remains unclear whether senescent cells render the aged brain vulnerable to seizures. Here, we demonstrate that prophylactic senolytic treatment with Dasatinib and Quercetin (D&Q) reduced both seizure severity and mortality in aged C57BL/6J mice. We subjected the D&Q and VEH‐treated aged mice to spatial memory testing before and after an acute seizure insult, Status Epilepticus [SE], which leads to epilepsy development. We found that senolytic therapy improved spatial memory before injury, however, spatial memory was not rescued after SE. Senescence‐related proteins p16 and senescence‐associated β‐galactosidase were reduced in D&Q‐treated aged mice. Our findings indicate that senescent cells increase seizure susceptibility in aging. Thus, prophylactically targeting senescent cells may prevent age‐related seizure vulnerability. [ABSTRACT FROM AUTHOR]

Published

2024

5. Targeting senescence‐associated secretory phenotypes to remodel the tumour microenvironment and modulate tumour outcomes.

Author

Xiong, Jiaqiang, Dong, Lu, Lv, Qiongying, Yin, Yutong, Zhao, Jiahui, Ke, Youning, Wang, Shixuan, Zhang, Wei, and Wu, Meng

Subjects

*KILLER cells, *SUPPRESSOR cells, *VASCULAR endothelial cells, *TUMOR microenvironment, *CELLULAR aging, *IMMUNOSENESCENCE

Abstract

Tumour cell senescence can be induced by various factors, including DNA damage, inflammatory signals, genetic toxins, ionising radiation and nutrient metabolism. The senescence‐associated secretory phenotype (SASP), secreted by senescent tumour cells, possesses the capacity to modulate various immune cells, including macrophages, T cells, natural killer cells and myeloid‐derived suppressor cells, as well as vascular endothelial cells and fibroblasts within the tumour microenvironment (TME), and this modulation can result in either the promotion or suppression of tumorigenesis and progression. Exploring the impact of SASP on the TME could identify potential therapeutic targets, yet limited studies have dissected its functions. In this review, we delve into the causes and mechanisms of tumour cell senescence. We then concentrate on the influence of SASP on the tumour immune microenvironment, angiogenesis, extracellular matrix and the reprogramming of cancer stem cells, along with their associated tumour outcomes. Last, we present a comprehensive overview of the diverse array of senotherapeutics, highlighting their prospective advantages and challenge for the treatment of cancer patients. Key points: Senescence‐associated secretory phenotype (SASP) secretion from senescent tumour cells significantly impacts cancer progression and biology.SASP is involved in regulating the remodelling of the tumour microenvironment, including immune microenvironment, vascular, extracellular matrix and cancer stem cells.Senotherapeutics, such as senolytic, senomorphic, nanotherapy and senolytic vaccines, hold promise for enhancing cancer treatment efficacy. [ABSTRACT FROM AUTHOR]

Published

2024

6. Investigating the Effects of Chelidonic Acid on Oxidative Stress-Induced Premature Cellular Senescence in Human Skin Fibroblast Cells.

Author

Turkoglu, Burcu and Mansuroglu, Banu

Subjects

*CELLULAR aging, *PROTEIN analysis, *OXIDATIVE stress, *MOLECULAR docking, *CELLULAR signal transduction, *DNA damage

Abstract

This study investigated the effects of chelidonic acid (CA) on hydrogen peroxide (H2O2) induced cellular senescence in human skin fibroblast cells (BJ). Cellular senescence is a critical mechanism that is linked to age-related diseases and chronic conditions. CA, a γ-pyrone compound known for its broad pharmacological activity, was assessed for its potential to mitigate oxidative stress and alter senescence markers. A stress-induced premature senescence (SIPS) model was designed in BJ fibroblast cells using the oxidative stress agent H2O2. After this treatment, cells were treated with CA, and the potential effect of CA on senescence was evaluated using senescence-related β-galactosidase, 4′,6-diamino-2-phenylindole (DAPI), acridine-orange staining (AO), comet assay, molecular docking assays, gene expression, and protein analysis. These results demonstrate that CA effectively reduces senescence markers, including senescence-associated β-galactosidase activity, DNA damage, lysosomal activity, and oxidative stress indicators such as malondialdehyde. Molecular docking revealed CA's potential interactions with critical proteins involved in senescence signalling pathways, suggesting mechanisms by which CA may exert its effects. Gene expression and protein analyses corroborated the observed anti-senescent effects, with CA modulating p16, p21, and pRB1 expressions and reducing oxidative stress markers. In conclusion, CA appeared to have senolytic and senomorphic potential in vitro, which could mitigate and reverse SIPS markers in BJ fibroblasts. [ABSTRACT FROM AUTHOR]

Published

2024

7. Quercetin Intake and Absolute Telomere Length in Patients with Type 2 Diabetes Mellitus: Novel Findings from a Randomized Controlled Before-and-After Study.

Author

Mantadaki, Aikaterini E., Baliou, Stella, Linardakis, Manolis, Vakonaki, Elena, Tzatzarakis, Manolis N., Tsatsakis, Aristides, and Symvoulakis, Emmanouil K.

Subjects

*TYPE 2 diabetes, *LOGISTIC regression analysis, *MULTIPLE regression analysis, *HEALTH facilities, *POLYMERASE chain reaction

Abstract

Telomeres, the protective chromosomal ends, progressively shorten and potentially are implicated in the pathogenesis of age-related diseases. In type 2 diabetes (T2DM), telomere shortening may play an important role, but the whole 'picture' remains limited. From a therapeutic perspective, the phytonutrient quercetin appears to be clinically effective and safe for patients with T2DM. Considering the above, we aimed to examine whether quercetin could interfere with telomere length (TL) dynamics. One hundred patients with T2DM on non-insulin medications registered within a primary healthcare facility were stratified by age and sex and randomly assigned to either standard care or standard care plus quercetin (500 mg/day) for 12 weeks, succeeded by an 8-week washout period and another 12 weeks of supplementation. Of the 88 patients completing the trial, 82 consented to blood sampling for TL measurements. Health assessments and whole blood absolute TL measurements using quantitative polymerase chain reaction (qPCR) were conducted at baseline and study end, and the findings of this subcohort are presented. Quercetin supplementation was associated with a significant increase in mean TL (odds ratio ≥ 2.44; p < 0.05) with a strengthened association after full adjustment for potential confounders through multiple logistic regression analysis (odds ratio = 3.48; p = 0.026), suggesting it as a potentially promising supplementation option. Further studies are needed to confirm this finding, elucidating the underlying molecular mechanisms of quercetin. [ABSTRACT FROM AUTHOR]

Published

2024

8. The dual role of cellular senescence in human tumor progression and therapy.

Author

Ma, Liang, Yu, Jie, Fu, Yidian, He, Xiaoyu, Ge, Shengfang, Jia, Renbing, Zhuang, Ai, Yang, Zhi, and Fan, Xianqun

Subjects

CELLULAR aging, CANCER invasiveness, CELL physiology, CELL cycle, CANCER cells

Abstract

Cellular senescence, one of the hallmarks of cancer, is characterized by cell cycle arrest and the loss of most normal cellular functions while acquiring a hypersecretory, proinflammatory phenotype. The function of senescent cells in cancer cells varies depending on the cellular conditions. Before the occurrence of cancer, senescent cells act as a barrier to prevent its development. But once cancer has occurred, senescent cells play a procancer role. However, few of the current studies have adequately explained the diversity of cellular senescence across cancers. Herein, we concluded the latest intrinsic mechanisms of cellular senescence in detail and emphasized the senescence‐associated secretory phenotype as a key contributor to heterogeneity of senescent cells in tumor. We also discussed five kinds of inducers of cellular senescence and the advancement of senolytics in cancer, which are drugs that tend to clear senescent cells. Finally, we summarized the various effects of senescent cells in different cancers and manifested that their functions may be diametrically opposed under different circumstances. In short, this paper contributes to the understanding of the diversity of cellular senescence in cancers and provides novel insight for tumor therapy. [ABSTRACT FROM AUTHOR]

Published

2024

9. Senolytics To slOw Progression of Sepsis (STOP-Sepsis) in elderly patients: Study protocol for a multicenter, randomized, adaptive allocation clinical trial

Author

Milena Silva, David A. Wacker, Brian E. Driver, Abbey Staugaitis, Laura J. Niedernhofer, Elizabeth L. Schmidt, James L. Kirkland, Tamara Tchkonia, Tamara Evans, Carlos Hines Serrano, Steffen Ventz, Joseph S. Koopmeiners, Michael A. Puskarich, and The STOP-Sepsis Investigators

Subjects

Sepsis, Septic shock, Senescence, Cellular senescence, Senolytic, Fisetin, Medicine (General), R5-920

Abstract

Abstract Background Senescent immune cells exhibit altered gene expression and resistance to apoptosis. The prevalence of these cells increases with age and emerging data implicate senescence-associated maladaptive signaling as a potential contributor to sepsis and septic shock. The senolytic drug fisetin promotes clearance of senescent cells and is hypothesized to mitigate septic responses to infection. Methods We are conducting a multi-center, randomized, double-blinded, adaptive allocation phase 2 clinical trial to assess the efficacy of the senolytic drug fisetin in preventing clinical deterioration of elderly patients diagnosed with sepsis. We intend to enroll and randomize 220 elderly patients (age > 65) with the clinical diagnosis of sepsis to receive either fisetin as a single oral dose of 20 mg/kg, fisetin in two oral doses of 20 mg/kg each spaced 1 day apart, or placebo. The primary outcome will be changed in the composite of cardiovascular, respiratory, and renal sequential organ failure assessment scores at 7 days from enrollment. Secondary outcomes include quantification of senescent CD3 + cells at 7 days, and 28-day assessments of organ failure-free days, days in an intensive care unit, and all-cause mortality. Discussion This multi-center, randomized, double-blinded trial will assess the efficacy of fisetin in preventing clinical deterioration in elderly patients with sepsis and measure the effects of this drug on the prevalence of senescent immune cells. We intend that the results of this phase 2 trial will inform the design of a larger phase 3 study. Trial registration This trial is registered to ClinicalTrials.gov under identifier NCT05758246, first posted on March 7, 2023.

Published

2024

10. Cellular Senescence and Anti-Aging Strategies in Aesthetic Medicine: A Bibliometric Analysis and Brief Review

Author

Zheng H, Wu J, Feng J, and Cheng H

Subjects

cellular senescence, skin aging, aesthetic medicine, senolytic, anti-aging, Dermatology, RL1-803

Abstract

Huilan Zheng,1 Jingping Wu,2 Jinhong Feng,2 Hongbin Cheng3 1School of Clinical Medicine, Chengdu University of Traditional Chinese Medicine, Chengdu, Sichuan Province, 610075, People’s Republic of China; 2Department of Medical Cosmetology, Hospital of Chengdu University of Traditional Chinese Medicine, Chengdu University of Traditional Chinese Medicine, Chengdu, Sichuan Province, 610075, People’s Republic of China; 3Department of Dermatology, Hospital of Chengdu University of Traditional Chinese Medicine, Chengdu University of Traditional Chinese Medicine, Chengdu, Sichuan Province, 610075, People’s Republic of ChinaCorrespondence: Hongbin Cheng, Hospital of Chengdu University of Traditional Chinese Medicine, Chengdu University of Traditional Chinese Medicine, No. 39, Shierqiao Road, Jinniu District, Chengdu, Sichuan Province, 610075, People’s Republic of China, Email chenghongbin@cdutcm.edu.cnBackground: Skin aging is the most obvious feature of human aging, and delaying aging has become a hot and difficult research topic in aesthetic medicine. The accumulation of dysfunctional senescent cells is one of the important mechanisms of skin aging, based on which a series of anti-aging strategies have been generated. In this paper, from the perspective of cellular senescence, we utilize bibliometrics and research review to explore the research hotspots and trends in this field, with a view to providing references for skin health and aesthetic medicine.Methods: We obtained literature related to this field from the Web of Science Core Collection database from 1994 to 2024. Bibliometrix packages in R, CiteSpace, VOSviewer, Origin, and Scimago Graphica were utilized for data mining and visualization.Results: A total of 2,796 documents were included in the analysis. The overall trend of publications showed a continuous and rapid increase from 2016– 2023, but the total citations improved poorly over time. In this field, Journal of Cosmetic Dermatology, Journal of Investigative Dermatology, Experimental Gerontology are core journals. Kim J, Lee JH, Lee S, Rattan SIS, Chung JH and Kim JH are the core authors in this field. Seoul National University is the first in terms of publications. Korea is the country with the most publications, but USA has the most total citations. Top 10 keywords include: gene-expression, skin, cellular senescence, cell, oxidative stress, antioxidants, in vitro, fibroblasts, mechanism, cancer. Current research trends are focused on neurodegeneration, skin rejuvenation, molecular docking, fibrosis, wound healing, SASP, skin barrier, and antioxidants. The core literature and references reflect topics such as the major molecular pathways in the aging process, and the relationship with tumors.Conclusion: This field of research has been rapidly rising in recent years. Relevant research hotspots focus on oxidative stress, fibroblasts, and senescence-associated secretory phenotype. Anti-aging strategies targeting cellular senescence hold great promise, including removal of senescent cells or attenuation of SASP factors, corresponding to senolytics and senomorphics therapies, respectively.Keywords: cellular senescence, skin aging, aesthetic medicine, senolytic, anti-aging

Published

2024

11. Senolytic Treatment Improve Small Intestine Regeneration in Aging.

Author

Qing-Tian Luo, Yuan-Chun Ye, Wei-Ming Guo, Qing Zhu, Sa-Shuang Wang, Nan Li, Wang Lei, Chun-Sheng Cheng, and Gang Fan

Subjects

*SMALL intestine, *AGING, *QUERCETIN

Abstract

Aging induces a series of alterations, specifically a decline in the stature and number of villi and crypts in the small intestine, thus compromising the absorbent capability of the villi. This investigation employed a senolytic combination of dasatinib and quercetin (D+Q) to examine its impact on the intestinal tract of elderly mice. Our findings demonstrate that D+Q treatment leads to a decrease in the expression of p21, p16, and Ki67, while concurrently triggering removal of apoptotic cells within the villi. Additionally, D+Q treatment exhibits the ability to promote growth in both the height and quantity of villi and crypts, along with stimulating nitric oxide (NO) production in aged mice. The study presented a model to assess strategies to alleviate age-related senescence in the intestinal tract of elderly mice. Importantly, D+Q showcases promising potential in enhancing intestinal functionality within the aging. [ABSTRACT FROM AUTHOR]

Published

2024

12. Phenotypes and ontogeny of senescent hepatic stellate cells in metabolic dysfunction-associated steatohepatitis.

Author

Yashaswini, Chittampalli N., Qin, Tianyue, Bhattacharya, Dipankar, Amor, Corina, Lowe, Scott, Lujambio, Amaia, Wang, Shuang, and Friedman, Scott L.

Subjects

*LIVER cells, *MYELOID-derived suppressor cells, *FATTY liver, *ONTOGENY, *PHENOTYPES

Abstract

Hepatic stellate cells (HSCs) are the key drivers of fibrosis in metabolic dysfunction-associated steatohepatitis (MASH), the fastest growing cause of hepatocellular carcinoma (HCC) worldwide. HSCs are heterogenous, and a senescent subset of HSCs is implicated in hepatic fibrosis and HCC. Administration of anti-uPAR (urokinase-type plasminogen activator receptor) CAR T cells has been shown to deplete senescent HSCs and attenuate fibrosis in murine models. However, the comprehensive features of senescent HSCs in MASH, as well as their cellular ontogeny have not been characterized; hence, we aimed to comprehensively characterize and define the origin of HSCs in human and murine MASH. To comprehensively characterize the phenotype and ontogeny of senescent HSCs in human and murine MASH, we integrated senescence-associated beta galactosidase activity with immunostaining, flow cytometry and single-nucleus RNA sequencing (snRNAseq). We integrated the immunohistochemical profile with a senescence score applied to snRNAseq data to characterize senescent HSCs and mapped the evolution of uPAR expression in MASH. Using pseudotime trajectory analysis, we establish that senescent HSCs arise from activated HSCs. While uPAR is expressed in MASH, the magnitude and cell-specificity of its expression evolve with disease stage. In early disease, uPAR is more specific to activated and senescent HSCs, while it is also expressed by myeloid-lineage cells, including Trem2+ macrophages and myeloid-derived suppressor cells, in late disease. Furthermore, we identify novel surface proteins expressed on senescent HSCs in human and murine MASH that could be exploited as therapeutic targets. These data define features of HSC senescence in human and murine MASH, establishing an important blueprint to target these cells as part of future antifibrotic therapies. Hepatic stellate cells (HSCs) are the primary drivers of scarring in chronic liver diseases. As injury develops, a subset of HSCs become senescent; these cells are non-proliferative and pro-inflammatory, thereby contributing to worsening liver injury. Here we show that senescent HSCs are expanded in MASH (metabolic dysfunction-associated steatohepatitis) in humans and mice, and we trace their cellular origin from the activated HSC subset. We further characterize expression of uPAR (urokinase plasminogen activated receptor), a protein that marks senescent HSCs, and report that uPAR is also expressed by activated HSCs in early injury, and in immune cells as liver injury advances. We have integrated high-resolution single-nucleus RNA sequencing with immunostaining and flow cytometry to identify five other novel proteins expressed by senescent HSCs, including mannose receptor CD206, which will facilitate future therapeutic development. [Display omitted] • Senescent hepatic stellate cells are expanded in murine and human MASLD/MASH. • Senescent hepatic stellate cells originate from activated hepatic stellate cells. • uPAR cell specificity evolves throughout MASLD/MASH progression. • Five novel, targetable, surface markers of senescent hepatic stellate cells are identified, including CD206. [ABSTRACT FROM AUTHOR]

Published

2024

13. Senolytics and Senomorphics Targeting p38MAPK/NF-κB Pathway Protect Endothelial Cells from Oxidative Stress-Mediated Premature Senescence.

Author

Ya, Jingyuan and Bayraktutan, Ulvi

Subjects

*CD54 antigen, *ENDOTHELIAL cells, *TIGHT junctions, *INTERLEUKIN-8, *PERICYTES

Abstract

Oxidative stress is a prominent causal factor in the premature senescence of microvascular endothelial cells and the ensuing blood–brain barrier (BBB) dysfunction. Through the exposure of an in vitro model of human BBB, composed of brain microvascular endothelial cells (BMECs), astrocytes, and pericytes to H2O2, this study examined whether a specific targeting of the p38MAPK/NF-κB pathway and/or senescent cells could delay oxidative stress-mediated EC senescence and protect the BBB. Enlarged BMECs, displaying higher β-galactosidase activity, γH2AX staining, p16 expression, and impaired tubulogenic capacity, were regarded as senescent. The BBB established with senescent BMECs had reduced transendothelial electrical resistance and increased paracellular flux, which are markers of BBB integrity and function, respectively. Premature senescence disrupted plasma-membrane localization of the tight junction protein, zonula occludens-1, and elevated basement membrane-degrading matrix metalloproteinase-2 activity and pro-inflammatory cytokine release. Inhibition of p38MAPK by BIRB796 and NF-κB by QNZ and the elimination of senescent cells by a combination of dasatinib and quercetin attenuated the effects of H2O2 on senescence markers; suppressed release of the pro-inflammatory cytokines interleukin-8, monocyte chemoattractant protein-1, and intercellular adhesion molecule-1; restored tight junctional unity; and improved BBB function. In conclusion, therapeutic approaches that mitigate p38MAPK/NF-κB activity and senescent cell accumulation in the cerebrovasculature may successfully protect BBB from oxidative stress-induced BBB dysfunction. [ABSTRACT FROM AUTHOR]

Published

2024

14. Cellular Senescence and Extracellular Vesicles in the Pathogenesis and Treatment of Obesity—A Narrative Review.

Author

Liang, Yicong, Kaushal, Devesh, and Wilson, Robert Beaumont

Subjects

*CELLULAR aging, *ADIPOGENESIS, *EXTRACELLULAR vesicles, *UNFOLDED protein response, *PREMATURE aging (Medicine), *DNA repair

Abstract

This narrative review explores the pathophysiology of obesity, cellular senescence, and exosome release. When exposed to excessive nutrients, adipocytes develop mitochondrial dysfunction and generate reactive oxygen species with DNA damage. This triggers adipocyte hypertrophy and hypoxia, inhibition of adiponectin secretion and adipogenesis, increased endoplasmic reticulum stress and maladaptive unfolded protein response, metaflammation, and polarization of macrophages. Such feed-forward cycles are not resolved by antioxidant systems, heat shock response pathways, or DNA repair mechanisms, resulting in transmissible cellular senescence via autocrine, paracrine, and endocrine signaling. Senescence can thus affect preadipocytes, mature adipocytes, tissue macrophages and lymphocytes, hepatocytes, vascular endothelium, pancreatic β cells, myocytes, hypothalamic nuclei, and renal podocytes. The senescence-associated secretory phenotype is closely related to visceral adipose tissue expansion and metaflammation; inhibition of SIRT-1, adiponectin, and autophagy; and increased release of exosomes, exosomal micro-RNAs, pro-inflammatory adipokines, and saturated free fatty acids. The resulting hypernefemia, insulin resistance, and diminished fatty acid β-oxidation lead to lipotoxicity and progressive obesity, metabolic syndrome, and physical and cognitive functional decline. Weight cycling is related to continuing immunosenescence and exposure to palmitate. Cellular senescence, exosome release, and the transmissible senescence-associated secretory phenotype contribute to obesity and metabolic syndrome. Targeted therapies have interrelated and synergistic effects on cellular senescence, obesity, and premature aging. [ABSTRACT FROM AUTHOR]

Published

2024

15. Defining melanoma combination therapies that provide senolytic sensitivity in human melanoma cells.

Author

Tchelougou, Daméhan, Malaquin, Nicolas, Cardin, Guillaume B., Desmul, Jordan, Turcotte, Simon, and Rodier, Francis

Subjects

PACLITAXEL, MELANOMA, CELLULAR aging, SKIN cancer, DNA damage, CELL death

Abstract

Malignant Melanoma that resists immunotherapy remains the deadliest form of skin cancer owing to poor clinically lasting responses. Alternative like genotoxic or targeted chemotherapy trigger various cancer cell fates after treatment including cell death and senescence. Senescent cells can be eliminated using senolytic drugs and we hypothesize that the targeted elimination of therapyinduced senescent melanoma cells could complement both conventional and immunotherapies. We utilized a panel of cells representing diverse mutational background relevant to melanoma and found that they developed distinct senescent phenotypes in response to treatment. A genotoxic combination therapy of carboplatin-paclitaxel or irradiation triggered a mixed response of cell death and senescence, irrespective of BRAF mutation profiles. DNA damageinduced senescent melanoma cells exhibited morphological changes, residual DNA damage, and increased senescence-associated secretory phenotype (SASP). In contrast, dual targeted inhibition of Braf and Mek triggered a different mixed cell fate response including senescent-like and persister cells. While persister cells could reproliferate, senescent-like cells were stably arrested, but without detectable DNA damage and senescence-associated secretory phenotype. To assess the sensitivity to senolytics we employed a novel realtime imaging-based death assay and observed that Bcl2/Bcl-XL inhibitors and piperlongumine were effective in promoting death of carboplatin-paclitaxel and irradiation-induced senescent melanoma cells, while the mixed persister cells and senescent-like cells resulting from Braf-Mek inhibition remained unresponsive. Interestingly, a direct synergy between Bcl2/Bcl-XL inhibitors and Braf-Mek inhibitors was observed when used out of the context of senescence. Overall, we highlight diverse hallmarks of melanoma senescent states and provide evidence of context-dependent senotherapeutics that could reduce treatment resistance while also discussing the limitations of this strategy in human melanoma cells. [ABSTRACT FROM AUTHOR]

Published

2024

16. Anti-senescence effects of 4-methoxychalcone and 4-bromo-4'-methoxychalcone on human endothelial cells.

Author

Xin-Yi Tien, Yean Kee Lee, Pooi-Fong Wong, Yi-Sheng Khor, Murugan, Dharmani Devi, and Abdullah, Iskandar

Subjects

*ENDOTHELIAL cells, *CHALCONE, *CHALCONES, *CYTOTOXINS, *FIBROBLASTS, *FLAVONOIDS, *CELLULAR aging

Abstract

Senolytics are drugs that specifically target senescent cells. Flavonoids such as quercetin and fisetin possess selective senolytic activities. This study aims to investigate if chalcones exhibit antisenescence activities. Anti-senescence effect of 11 chalcone derivatives on the replicative senescence human aortic endothelial cells (HAEC) and human fetal lung fibroblasts (IMR90) was evaluated. Compound 2 (4-methoxychalcone) and compound 4 (4-bromo-4'-methoxychalcone) demonstrated increased cytotoxicity in senescent HAEC compared to young HAEC, with significant differences on IC50 values. Their anti-senescence effects on HAEC exceeded fisetin. Higher selectivity of compound 4 toward HAEC over IMR90 could be attributed to 4-methoxy (4-OMe) substitution at ring A (R1). Chalcone derivatives have potentials as senolytics in mitigating replicative senescence, warranting further research and development on chalcones as anti-senescent agent. [ABSTRACT FROM AUTHOR]

Published

2024

17. Targeting senescence‐associated secretory phenotypes to remodel the tumour microenvironment and modulate tumour outcomes

Author

Jiaqiang Xiong, Lu Dong, Qiongying Lv, Yutong Yin, Jiahui Zhao, Youning Ke, Shixuan Wang, Wei Zhang, and Meng Wu

Subjects

cell senescence, SASP, senolytic, tumour microenvironment, Medicine (General), R5-920

Abstract

Abstract Tumour cell senescence can be induced by various factors, including DNA damage, inflammatory signals, genetic toxins, ionising radiation and nutrient metabolism. The senescence‐associated secretory phenotype (SASP), secreted by senescent tumour cells, possesses the capacity to modulate various immune cells, including macrophages, T cells, natural killer cells and myeloid‐derived suppressor cells, as well as vascular endothelial cells and fibroblasts within the tumour microenvironment (TME), and this modulation can result in either the promotion or suppression of tumorigenesis and progression. Exploring the impact of SASP on the TME could identify potential therapeutic targets, yet limited studies have dissected its functions. In this review, we delve into the causes and mechanisms of tumour cell senescence. We then concentrate on the influence of SASP on the tumour immune microenvironment, angiogenesis, extracellular matrix and the reprogramming of cancer stem cells, along with their associated tumour outcomes. Last, we present a comprehensive overview of the diverse array of senotherapeutics, highlighting their prospective advantages and challenge for the treatment of cancer patients. Key points Senescence‐associated secretory phenotype (SASP) secretion from senescent tumour cells significantly impacts cancer progression and biology. SASP is involved in regulating the remodelling of the tumour microenvironment, including immune microenvironment, vascular, extracellular matrix and cancer stem cells. Senotherapeutics, such as senolytic, senomorphic, nanotherapy and senolytic vaccines, hold promise for enhancing cancer treatment efficacy.

Published

2024

18. The dual role of cellular senescence in human tumor progression and therapy

Author

Liang Ma, Jie Yu, Yidian Fu, Xiaoyu He, Shengfang Ge, Renbing Jia, Ai Zhuang, Zhi Yang, and Xianqun Fan

Subjects

cellular senescence, cGAS–STING, SASP, senolytic, therapy‐induced senescence, Medicine

Abstract

Abstract Cellular senescence, one of the hallmarks of cancer, is characterized by cell cycle arrest and the loss of most normal cellular functions while acquiring a hypersecretory, proinflammatory phenotype. The function of senescent cells in cancer cells varies depending on the cellular conditions. Before the occurrence of cancer, senescent cells act as a barrier to prevent its development. But once cancer has occurred, senescent cells play a procancer role. However, few of the current studies have adequately explained the diversity of cellular senescence across cancers. Herein, we concluded the latest intrinsic mechanisms of cellular senescence in detail and emphasized the senescence‐associated secretory phenotype as a key contributor to heterogeneity of senescent cells in tumor. We also discussed five kinds of inducers of cellular senescence and the advancement of senolytics in cancer, which are drugs that tend to clear senescent cells. Finally, we summarized the various effects of senescent cells in different cancers and manifested that their functions may be diametrically opposed under different circumstances. In short, this paper contributes to the understanding of the diversity of cellular senescence in cancers and provides novel insight for tumor therapy.

Published

2024

19. A randomized, controlled clinical trial demonstrates improved owner-assessed cognitive function in senior dogs receiving a senolytic and NAD+ precursor combination

Author

Katherine E. Simon, Katharine Russell, Alejandra Mondino, Chin-Chieh Yang, Beth C. Case, Zachary Anderson, Christine Whitley, Emily Griffith, Margaret E. Gruen, and Natasha J. Olby

Subjects

Aging, Senolytic, NAD+, Canine cognitive dysfunction syndrome, Cognitive impairment, Longevity, Medicine, Science

Abstract

Abstract Age-related decline in mobility and cognition are associated with cellular senescence and NAD + depletion in dogs and people. A combination of a novel NAD + precursor and senolytic, LY-D6/2, was examined in this randomized controlled trial. Seventy dogs with mild to moderate cognitive impairment were enrolled and allocated into placebo, low or full dose groups. Primary outcomes were change in cognitive impairment measured with the owner-reported Canine Cognitive Dysfunction Rating (CCDR) scale and change in activity measured with physical activity monitors. Fifty-nine dogs completed evaluations at the 3-month primary endpoint, and 51 reached the 6-month secondary endpoint. There was a significant difference in CCDR score across treatment groups from baseline to the primary endpoint (p = 0.02) with the largest decrease in the full dose group. No difference was detected between groups using in house cognitive testing. There were no significant differences between groups in changes in measured activity. The proportion of dogs that improved in frailty and owner-reported activity levels and happiness was higher in the full dose group than other groups, however this difference was not significant. Adverse events occurred equally across groups. All groups showed improvement in cognition, frailty, and activity suggesting placebo effect and benefits of trial participation. We conclude that LY-D6/2 improves owner-assessed cognitive function over a 3-month period and may have broader, but more subtle effects on frailty, activity and happiness as reported by owners.

Published

2024

20. Molecular mechanisms of aging and anti-aging strategies

Author

Yumeng Li, Xutong Tian, Juyue Luo, Tongtong Bao, Shujin Wang, and Xin Wu

Subjects

Aging, Aging triggers, Synthetic, Senolytic, Anti-aging strategies, Medicine, Cytology, QH573-671

Abstract

Abstract Aging is a complex and multifaceted process involving a variety of interrelated molecular mechanisms and cellular systems. Phenotypically, the biological aging process is accompanied by a gradual loss of cellular function and the systemic deterioration of multiple tissues, resulting in susceptibility to aging-related diseases. Emerging evidence suggests that aging is closely associated with telomere attrition, DNA damage, mitochondrial dysfunction, loss of nicotinamide adenine dinucleotide levels, impaired macro-autophagy, stem cell exhaustion, inflammation, loss of protein balance, deregulated nutrient sensing, altered intercellular communication, and dysbiosis. These age-related changes may be alleviated by intervention strategies, such as calorie restriction, improved sleep quality, enhanced physical activity, and targeted longevity genes. In this review, we summarise the key historical progress in the exploration of important causes of aging and anti-aging strategies in recent decades, which provides a basis for further understanding of the reversibility of aging phenotypes, the application prospect of synthetic biotechnology in anti-aging therapy is also prospected.

Published

2024

21. Failure of senolytic treatment to prevent cognitive decline in a female rodent model of aging.

Author

Rani, Asha, Bean, Linda, Budamagunta, Vivekananda, Kumar, Ashok, and Foster, Thomas C.

Subjects

RODENTS, ACCLIMATIZATION, REPEATED measures design, THERAPEUTICS, PROMPTS (Psychology), DATA analysis, T-test (Statistics), RESEARCH funding, SEX distribution, EPISODIC memory, CELLULAR aging, PILOT projects, STATISTICAL sampling, BODY weight, KRUSKAL-Wallis Test, ESTROGEN, ANXIETY, DESCRIPTIVE statistics, MANN Whitney U Test, BEHAVIOR, NEUROSCIENCES, RATS, DASATINIB, QUERCETIN, ESTRADIOL, AGING, COGNITION disorders, ANIMAL experimentation, PSYCHOLOGICAL stress, MEMORY, ANALYSIS of variance, STATISTICS, ONE-way analysis of variance, TREATMENT failure, HIPPOCAMPUS (Brain), DISCRIMINATION (Sociology), SPACE perception, COGNITIVE aging, MEMORY disorders, GRIP strength, AVOIDANCE (Psychology), REPRODUCTION, PHARMACODYNAMICS

Abstract

There are sex differences in vulnerability and resilience to the stressors of aging and subsequent age-related cognitive decline. Cellular senescence occurs as a response to damaging or stress-inducing stimuli. The response includes a state of irreversible growth arrest, the development of a senescence- associated secretory phenotype, and the release of pro-inflammatory cytokines associated with aging and age-related diseases. Senolytics are compounds designed to eliminate senescent cells. Our recent work indicates that senolytic treatment preserves cognitive function in aging male F344 rats. The current study examined the effect of senolytic treatment on cognitive function in aging female rats. Female F344 rats (12 months) were treated with dasatinib (1.2 mg/kg) + quercetin (12 mg/kg) or ABT-263 (12 mg/kg) or vehicle for 7 months. Examination of the estrus cycle indicated that females had undergone estropause during treatment. Senolytic treatment may have increased sex differences in behavioral stress responsivity, particularly for the initial training on the cued version of the watermaze. However, pre-training on the cue task reduced stress responsivity for subsequent spatial training and all groups learned the spatial discrimination. In contrast to preserved memory observed in senolytic-treated males, all older females exhibited impaired episodic memory relative to young (6-month) females. We suggest that the senolytic treatment may not have been able to compensate for the loss of estradiol, which can act on aging mechanisms for anxiety and memory independent of cellular senescence. [ABSTRACT FROM AUTHOR]

Published

2024

22. Molecular mechanisms of aging and anti-aging strategies.

Author

Li, Yumeng, Tian, Xutong, Luo, Juyue, Bao, Tongtong, Wang, Shujin, and Wu, Xin

Subjects

*AGING prevention, *SLEEP quality, *CELLULAR aging, *LOW-calorie diet, *CELL communication, *CELL physiology

Abstract

Aging is a complex and multifaceted process involving a variety of interrelated molecular mechanisms and cellular systems. Phenotypically, the biological aging process is accompanied by a gradual loss of cellular function and the systemic deterioration of multiple tissues, resulting in susceptibility to aging-related diseases. Emerging evidence suggests that aging is closely associated with telomere attrition, DNA damage, mitochondrial dysfunction, loss of nicotinamide adenine dinucleotide levels, impaired macro-autophagy, stem cell exhaustion, inflammation, loss of protein balance, deregulated nutrient sensing, altered intercellular communication, and dysbiosis. These age-related changes may be alleviated by intervention strategies, such as calorie restriction, improved sleep quality, enhanced physical activity, and targeted longevity genes. In this review, we summarise the key historical progress in the exploration of important causes of aging and anti-aging strategies in recent decades, which provides a basis for further understanding of the reversibility of aging phenotypes, the application prospect of synthetic biotechnology in anti-aging therapy is also prospected. [ABSTRACT FROM AUTHOR]

Published

2024

23. Cellular senescence in the pathogenesis of ovarian dysfunction.

Author

Harada, Miyuki

Subjects

*THERAPEUTICS, *CELLULAR aging, *POLYCYSTIC ovary syndrome, *OXIDATIVE stress, *ENDOMETRIOSIS, *PSYCHOLOGICAL stress, *INFLAMMATION, *OVARIAN diseases, *OVARIES, *OBESITY

Abstract

The follicular microenvironment is crucial for normal ovarian function, and intra‐ovarian factors, in coordination with gonadotropins, contribute to its regulation. Recent research has revealed that the accumulation of senescent cells worsens the adverse environment of various tissues and plays critical roles in chronological aging and various pathological conditions. Cellular senescence involves cell‐cycle arrest, a senescence‐associated secretory phenotype (SASP), macromolecular damage, and dysmetabolism. In this review, I summarize the latest knowledge regarding the role of cellular senescence in pathological conditions in the ovary, in the context of reproduction. Specifically, cellular senescence is known to impair follicular and oocyte health in cisplatin‐ and cyclophosphamide‐induced primary ovarian insufficiency and to contribute to the pathogenesis of polycystic ovary syndrome (PCOS). In addition, cellular senescence is induced during the decline in ovarian reserve that is associated with chronological aging, endometriosis, psychological stress, and obesity, but it remains unclear whether it plays a causative role in these conditions. Finally, I discuss the potential for use of cellular senescence as a novel therapeutic target. The modification of SASP using a senomorphic and/or the elimination of senescent cells using a senolytic represent promising therapeutic strategies. Further elucidation of the role of cellular senescence in the effects of various insults on ovarian reserve, including chronological aging, as well as in pathogenesis of ovarian pathologies, including PCOS, may facilitate a new era of reproductive medicine. [ABSTRACT FROM AUTHOR]

Published

2024

24. Rejuvenating aged stem cells: therapeutic strategies to extend health and lifespan.

Author

Matteini, Francesca, Montserrat‐Vazquez, Sara, and Florian, M. Carolina

Abstract

Aging is associated with a global decline in stem cell function. To date, several strategies have been proposed to rejuvenate aged stem cells: most of these result in functional improvement of the tissue where the stem cells reside, but the impact on the lifespan of the whole organism has been less clearly established. Here, we review some of the most recent work dealing with interventions that improve the regenerative capacity of aged somatic stem cells in mammals and that might have important translational possibilities. Overall, we underscore that somatic stem cell rejuvenation represents a strategy to improve tissue homeostasis upon aging and present some recent approaches with the potential to affect health span and lifespan of the whole organism. [ABSTRACT FROM AUTHOR]

Published

2024

25. In-vivo screening implicates endoribonuclease Regnase-1 in modulating senescence-associated lysosomal changes.

Author

Venz, Richard, Goyala, Anita, Soto-Gamez, Abel, Yenice, Tugce, Demaria, Marco, and Ewald, Collin Y.

Subjects

HUMAN cell culture, GENETIC engineering, CELLULAR aging, CAENORHABDITIS elegans, DRUG therapy

Abstract

Accumulation of senescent cells accelerates aging and age-related diseases, whereas preventing this accumulation extends the lifespan in mice. A characteristic of senescent cells is increased staining with β-galactosidase (β-gal) ex vivo. Here, we describe a progressive accumulation of β-gal staining in the model organism C. elegans during aging. We show that distinct pharmacological and genetic interventions targeting the mitochondria and the mTORC1 to the nuclear core complex axis, the non-canonical apoptotic, and lysosomal-autophagy pathways slow the age-dependent accumulation of β-gal. We identify a novel gene, rege-1/Regnase-1/ZC3H12A/MCPIP1, modulating β-gal staining via the transcription factor ets-4/SPDEF. We demonstrate that knocking down Regnase-1 in human cell culture prevents senescence-associated β-gal accumulation. Our data provide a screening pipeline to identify genes and drugs modulating senescence-associated lysosomal phenotypes. [ABSTRACT FROM AUTHOR]

Published

2024

26. Therapy-induced senescence is finally escapable, what is next?

Author

Saleh, Tareq

Subjects

AGING, DISEASE relapse, CELL cycle, CANCER treatment, VON Hippel-Lindau disease, BIOLOGY

Abstract

Several breakthrough articles have recently confirmed the ability of tumor cells to escape the stable cell cycle arrest imposed by Therapy-Induced Senescence (TIS). Subsequently, accepting the hypothesis that TIS is escapable should encourage serious reassessments of the fundamental roles of senescence in cancer treatment. The potential for escape from TIS undermines the well-established tumor suppressor function of senescence, proposes it as a mechanism of tumor dormancy leading to disease recurrence and invites for further investigation of its unfavorable contribution to cancer therapy outcomes. Moreover, escaping TIS strongly indicates that the elimination of senescent tumor cells, primarily through pharmacological means, is a suitable approach for increasing the efficacy of cancer treatment, one that still requires further exploration. This commentary provides an overview of the recent evidence that unequivocally demonstrated the ability of therapy-induced senescent tumor cells in overcoming the terminal growth arrest fate and provides future perspectives on the roles of TIS in tumor biology. [ABSTRACT FROM AUTHOR]

Published

2024

27. Targeting metabolism to influence cellular senescence a promising anti-cancer therapeutic strategy

Author

Zehua Wang, Jianwen Gao, and Congjian Xu

Subjects

Senescence, Metabolic reprogramming, Senolytic, Aging, Anti-cancer treatment, Therapeutics. Pharmacology, RM1-950

Abstract

Metabolic disorders are considered the hallmarks of cancer and metabolic reprogramming is emerging as a new strategy for cancer treatment. Exogenous and endogenous stressors can induce cellular senescence; the interactions between cellular senescence and systemic metabolism are dynamic. Cellular senescence disrupts metabolic homeostasis in various tissues, which further promotes senescence, creating a vicious cycle facilitating tumor occurrence, recurrence, and altered outcomes of anticancer treatments. Therefore, the regulation of cellular senescence and related secretory phenotypes is considered a breakthrough in cancer therapy; moreover, proteins involved in the associated pathways are prospective therapeutic targets. Although studies on the association between cellular senescence and tumors have emerged in recent years, further elucidation of this complex correlation is required for comprehensive knowledge. In this paper, we review the research progress on the correlation between cell aging and metabolism, focusing on the strategies of targeting metabolism to modulate cellular senescence and the progress of relevant research in the context of anti-tumor therapy. Finally, we discuss the significance of improving the specificity and safety of anti-senescence drugs, which is a potential challenge in cancer therapy.

Published

2024

28. Editorial: Immunosenescence in organ transplantation

Author

Jasper Iske and Hao Zhou

Subjects

senescence, senolytic, Senescence-associated Secretory Phenotype (SASP), transplantation, alloimmunity, aging, Specialties of internal medicine, RC581-951

Published

2024

29. Defining melanoma combination therapies that provide senolytic sensitivity in human melanoma cells

Author

Daméhan Tchelougou, Nicolas Malaquin, Guillaume B. Cardin, Jordan Desmul, Simon Turcotte, and Francis Rodier

Subjects

senescence, senescence-like, Bcl2/BclxL inhibitors, senolytic, BRAFi, MEKi, Biology (General), QH301-705.5

Abstract

Malignant Melanoma that resists immunotherapy remains the deadliest form of skin cancer owing to poor clinically lasting responses. Alternative like genotoxic or targeted chemotherapy trigger various cancer cell fates after treatment including cell death and senescence. Senescent cells can be eliminated using senolytic drugs and we hypothesize that the targeted elimination of therapy-induced senescent melanoma cells could complement both conventional and immunotherapies. We utilized a panel of cells representing diverse mutational background relevant to melanoma and found that they developed distinct senescent phenotypes in response to treatment. A genotoxic combination therapy of carboplatin-paclitaxel or irradiation triggered a mixed response of cell death and senescence, irrespective of BRAF mutation profiles. DNA damage-induced senescent melanoma cells exhibited morphological changes, residual DNA damage, and increased senescence-associated secretory phenotype (SASP). In contrast, dual targeted inhibition of Braf and Mek triggered a different mixed cell fate response including senescent-like and persister cells. While persister cells could reproliferate, senescent-like cells were stably arrested, but without detectable DNA damage and senescence-associated secretory phenotype. To assess the sensitivity to senolytics we employed a novel real-time imaging-based death assay and observed that Bcl2/Bcl-XL inhibitors and piperlongumine were effective in promoting death of carboplatin-paclitaxel and irradiation-induced senescent melanoma cells, while the mixed persister cells and senescent-like cells resulting from Braf-Mek inhibition remained unresponsive. Interestingly, a direct synergy between Bcl2/Bcl-XL inhibitors and Braf-Mek inhibitors was observed when used out of the context of senescence. Overall, we highlight diverse hallmarks of melanoma senescent states and provide evidence of context-dependent senotherapeutics that could reduce treatment resistance while also discussing the limitations of this strategy in human melanoma cells.

Published

2024

30. Eternal Youth: A Comprehensive Exploration of Gene, Cellular, and Pharmacological Anti-Aging Strategies.

Author

Kitaeva, Kristina V., Solovyeva, Valeriya V., Blatt, Nataliya L., and Rizvanov, Albert A.

Subjects

*AGING prevention, *LIFE expectancy, *CELLULAR aging, *CELL transformation, *GENE therapy, *CELLULAR therapy

Abstract

The improvement of human living conditions has led to an increase in average life expectancy, creating a new social and medical problem—aging, which diminishes the overall quality of human life. The aging process of the body begins with the activation of effector signaling pathways of aging in cells, resulting in the loss of their normal functions and deleterious effects on the microenvironment. This, in turn, leads to chronic inflammation and similar transformations in neighboring cells. The cumulative retention of these senescent cells over a prolonged period results in the deterioration of tissues and organs, ultimately leading to a reduced quality of life and an elevated risk of mortality. Among the most promising methods for addressing aging and age-related illnesses are pharmacological, genetic, and cellular therapies. Elevating the activity of aging-suppressing genes, employing specific groups of native and genetically modified cells, and utilizing senolytic medications may offer the potential to delay aging and age-related ailments over the long term. This review explores strategies and advancements in the field of anti-aging therapies currently under investigation, with a particular emphasis on gene therapy involving adeno-associated vectors and cell-based therapeutic approaches. [ABSTRACT FROM AUTHOR]

Published

2024

31. Targeting therapy-induced senescence as a novel strategy to combat chemotherapy-induced peripheral neuropathy.

Author

Alsalem, Mohammad, Ellaithy, Amr, Bloukh, Sarah, Haddad, Mansour, and Saleh, Tareq

Abstract

Chemotherapy-induced peripheral neuropathy (CIPN) is a treatment-limiting adverse effect of anticancer therapy that complicates the lifestyle of many cancer survivors. There is currently no gold-standard for the assessment or management of CIPN. Subsequently, understanding the underlying mechanisms that lead to the development of CIPN is essential for finding better pharmacological therapy. Therapy-induced senescence (TIS) is a form of senescence that is triggered in malignant and non-malignant cells in response to the exposure to chemotherapy. Recent evidence has also suggested that TIS develops in the dorsal root ganglia of rodent models of CIPN. Interestingly, several components of the senescent phenotype are commensurate with the currently established primary processes implicated in the pathogenesis of CIPN including mitochondrial dysfunction, oxidative stress, and neuroinflammation. In this article, we review the literature that supports the hypothesis that TIS could serve as a holistic mechanism leading to CIPN, and we propose the potential for investigating senotherapeutics as means to mitigate CIPN in cancer survivors. [ABSTRACT FROM AUTHOR]

Published

2024

32. Cellular senescence in Non-Small Cell Lung Cancer : from mechanisms to therapeutic opportunities

Author

González-Gualda, Estela and Muñoz-Espín, Daniel

Subjects

cancer, senescence, lung, senolytic, therapy

Abstract

Lung cancer is the leading cause of cancer-related deaths in our society due to the inefficiency of early detection strategies and the high rate of treatment failure. Therefore, a better understanding of the mechanisms underlying its origin and the response to current treatment paradigms are crucial to improve lung cancer survival. Cellular senescence is a powerful tumour-suppressive mechanism whereby cells stably enter a cell-cycle arrest in response to oncogenic stress. However, the accumulation of senescent cells can alter the tumour microenvironment through a strong paracrine secretion of factors that can lead to detrimental and tumour-promoting effects. Intriguingly, senescence has been reported to be a defining feature of early lesions in Non-Small Cell Lung Cancer (NSCLC), a subtype that accounts for over 80% cases of lung cancer. In addition, senescence has also been reported to occur in response to the standard of treatment for this disease. It is thus conceivable that senescence may play a role in the origin and progression of this disease, despite a causal connection remains to be deciphered. Pharmacologic therapeutics that preferentially target senescent cells, known as senolytics, have been successful in preventing and even reversing senescence-driven detrimental effects in multiple pathological processes. However, their suboptimal specificity and toxicities hamper their clinical translation. Therefore, the targeting of senescent cells through the development of second-generation senolytics that can overcome these obstacles has the potential to revolutionise cancer treatment. The aim of this work is to define the role of cellular senescence at the origin and progression of lung cancer and in response to chemotherapy, and to develop safer and more effective therapeutic approaches to eliminate senescent cells in the context of lung malignancies. In this thesis, we studied the accumulation of senescent cells during the development of lung adenocarcinoma using a KrasG12V-driven lung cancer mouse model. We demonstrate that senolytic treatment of early lesions results in a significant reduction in lung tumour burden and increased survival, providing evidence of the tumour-promoting effect of senescence in early stages of NSCLC. Our research also reveals that platinum-based chemotherapy of human and murine lung adenocarcinoma cells induces senescence, which in turn promotes malignant phenotypes on untreated cancer cells in a paracrine manner in vitro, in xenografts and in orthotopic models of lung adenocarcinoma. Through high throughput unbiased transcriptomic and proteomic approaches, we show that secreted TGF-β ligands activate the Akt/mTOR pathway in untreated cells resulting in enhanced tumour growth. We further demonstrate that senolytic treatment and pharmacologic inhibition of TGFβR1 in tumours can prevent increased proliferation and enhance survival of lung tumour-bearing mice. In order to develop a novel approach for improved senolytic treatment, we show that the galacto-conjugation of senolytic ABT-263 (navitoclax) in the form of an activatable pro-drug significantly enhances cytotoxicity in combination with cisplatin, resulting in reduced lung cancer tumour growth. Importantly, our approach demonstrates decreased navitoclax-associated toxicities, including platelet apoptosis in human and murine blood treated ex vivo and decreased thrombocytopenia in mouse lung cancer models. In summary, this PhD thesis provides evidence of the incidence and role that cellular senescence plays in promoting the progression of early and advanced NSCLC and demonstrates that cisplatin chemotherapy drives pro-tumorigenic phenotypes in a paracrine fashion, which can be prevented with senolytic and TGFβR1 inhibitory treatments. Lastly, it proposes a novel second-generation therapeutic approach to mitigate senolytic toxicities and enhance the efficiency of targeting senescence in the context of lung cancer.

Published

2022

33. Failure of senolytic treatment to prevent cognitive decline in a female rodent model of aging

Author

Asha Rani, Linda Bean, Vivekananda Budamagunta, Ashok Kumar, and Thomas C. Foster

Subjects

aging, hippocampus, spatial memory, senolytic, cognitive testing, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

There are sex differences in vulnerability and resilience to the stressors of aging and subsequent age-related cognitive decline. Cellular senescence occurs as a response to damaging or stress-inducing stimuli. The response includes a state of irreversible growth arrest, the development of a senescence-associated secretory phenotype, and the release of pro-inflammatory cytokines associated with aging and age-related diseases. Senolytics are compounds designed to eliminate senescent cells. Our recent work indicates that senolytic treatment preserves cognitive function in aging male F344 rats. The current study examined the effect of senolytic treatment on cognitive function in aging female rats. Female F344 rats (12 months) were treated with dasatinib (1.2 mg/kg) + quercetin (12 mg/kg) or ABT-263 (12 mg/kg) or vehicle for 7 months. Examination of the estrus cycle indicated that females had undergone estropause during treatment. Senolytic treatment may have increased sex differences in behavioral stress responsivity, particularly for the initial training on the cued version of the watermaze. However, pre-training on the cue task reduced stress responsivity for subsequent spatial training and all groups learned the spatial discrimination. In contrast to preserved memory observed in senolytic-treated males, all older females exhibited impaired episodic memory relative to young (6-month) females. We suggest that the senolytic treatment may not have been able to compensate for the loss of estradiol, which can act on aging mechanisms for anxiety and memory independent of cellular senescence.

Published

2024

34. Editorial: Women in aging and the immune system

Author

Jenna M. Bartley and Anshu Agrawal

Subjects

immune dysfunction, senolytic, metformin, inflammaging, aging, Geriatrics, RC952-954.6

Published

2024

35. Investigating the Effects of Chelidonic Acid on Oxidative Stress-Induced Premature Cellular Senescence in Human Skin Fibroblast Cells

Author

Burcu Turkoglu and Banu Mansuroglu

Subjects

chelidonic acid, senescence, senolytic, senomorphic, oxidative stress, H2O2, Science

Abstract

This study investigated the effects of chelidonic acid (CA) on hydrogen peroxide (H2O2) induced cellular senescence in human skin fibroblast cells (BJ). Cellular senescence is a critical mechanism that is linked to age-related diseases and chronic conditions. CA, a γ-pyrone compound known for its broad pharmacological activity, was assessed for its potential to mitigate oxidative stress and alter senescence markers. A stress-induced premature senescence (SIPS) model was designed in BJ fibroblast cells using the oxidative stress agent H2O2. After this treatment, cells were treated with CA, and the potential effect of CA on senescence was evaluated using senescence-related β-galactosidase, 4′,6-diamino-2-phenylindole (DAPI), acridine-orange staining (AO), comet assay, molecular docking assays, gene expression, and protein analysis. These results demonstrate that CA effectively reduces senescence markers, including senescence-associated β-galactosidase activity, DNA damage, lysosomal activity, and oxidative stress indicators such as malondialdehyde. Molecular docking revealed CA’s potential interactions with critical proteins involved in senescence signalling pathways, suggesting mechanisms by which CA may exert its effects. Gene expression and protein analyses corroborated the observed anti-senescent effects, with CA modulating p16, p21, and pRB1 expressions and reducing oxidative stress markers. In conclusion, CA appeared to have senolytic and senomorphic potential in vitro, which could mitigate and reverse SIPS markers in BJ fibroblasts.

Published

2024

36. Heart Disease and Ageing: The Roles of Senescence, Mitochondria, and Telomerase in Cardiovascular Disease

Author

Booth, Laura K., Redgrave, Rachael E., Tual-Chalot, Simon, Spyridopoulos, Ioakim, Phillips, Helen M., Richardson, Gavin D., Harris, J. Robin, Series Editor, Kundu, Tapas K., Advisory Editor, Korolchuk, Viktor, Advisory Editor, Bolanos-Garcia, Victor, Advisory Editor, Marles-Wright, Jon, Advisory Editor, and Korolchuk, Viktor I., editor

Published

2023

37. Cellular Senescence and Ageing

Author

Reed, Rebecca, Miwa, Satomi, Harris, J. Robin, Series Editor, Kundu, Tapas K., Advisory Editor, Korolchuk, Viktor, Advisory Editor, Bolanos-Garcia, Victor, Advisory Editor, Marles-Wright, Jon, Advisory Editor, and Korolchuk, Viktor I., editor

Published

2023

38. Therapeutic Opportunities Presented by Modulation of Cellular Senescence

Author

Faragher, Richard G. A., Heidari, Neda, Ostler, Elizabeth L., Harris, J. Robin, Series Editor, Kundu, Tapas K., Advisory Editor, Korolchuk, Viktor, Advisory Editor, Bolanos-Garcia, Victor, Advisory Editor, Marles-Wright, Jon, Advisory Editor, and Korolchuk, Viktor I., editor

Published

2023

39. Inhibitor PF-04691502 works as a senolytic to regulate cellular senescence

Author

Ziqiang Fan, Yingdong Tong, Ziyue Yang, Shuai Wang, Tiantian Huang, Deying Yang, Qingyong Ni, Mingwang Zhang, Diyan Li, Mingyao Yang, and Xiaolan Fan

Subjects

Senolytic, PF-04691502, AKT, mTOR, Senescent cells, Medicine, Biology (General), QH301-705.5

Abstract

Aging is a gradual process of natural change that occurs after reaching sexual maturity. It is also a known risk factor for many chronic diseases. Recent research has shown that senolytics can extend the lifespans and health spans of model organisms, and they have also been demonstrated effective in treating age-related diseases. In this study, we conducted a high-throughput screening of 156 drugs that targeted the PI3K/AKT/mTOR pathway to identify potential senolytic medications. Among these drugs, PF-04691502 was selected for further investigation to understand its molecular mechanism of action. Our findings indicate that PF-04691502, a dual inhibitor of PI3K/AKT and mTOR, specifically eliminates senescent cells. It reduces the expression levels of key markers of cellular senescence, such as SA-β-Gal, senescence-associated secretory phenotypes (SASPs) and p16INK4a. Additionally, PF-04691502 inhibits the phosphorylation of S6K and AKT, leading to the apoptosis of senescent cells. These results suggest that PF-04691502 holds promise as a new senolytic drug. This paper provides important insights into the potential application of PF-04691502 in the study of cell senescence.

Published

2024

40. A randomized, controlled clinical trial demonstrates improved owner-assessed cognitive function in senior dogs receiving a senolytic and NAD+ precursor combination

Author

Simon, Katherine E., Russell, Katharine, Mondino, Alejandra, Yang, Chin-Chieh, Case, Beth C., Anderson, Zachary, Whitley, Christine, Griffith, Emily, Gruen, Margaret E., and Olby, Natasha J.

Published

2024

41. Selection of Mexican Medicinal Plants by Identification of Potential Phytochemicals with Anti-Aging, Anti-Inflammatory, and Anti-Oxidant Properties through Network Analysis and Chemoinformatic Screening.

Author

Barrera-Vázquez, Oscar Salvador, Montenegro-Herrera, Sergio Andrés, Martínez-Enríquez, María Elena, Escobar-Ramírez, Juan Luis, and Magos-Guerrero, Gil Alfonso

Subjects

*PLANT identification, *AGING prevention, *ANTIOXIDANTS, *PHYTOCHEMICALS, *MEDICINAL plants, *NATURAL products

Abstract

Many natural products have been acquired from plants for their helpful properties. Medicinal plants are used for treating a variety of pathologies or symptoms. The axes of many pathological processes are inflammation, oxidative stress, and senescence. This work is focused on identifying Mexican medicinal plants with potential anti-oxidant, anti-inflammatory, anti-aging, and anti-senescence effects through network analysis and chemoinformatic screening of their phytochemicals. We used computational methods to analyze drug-like phytochemicals in Mexican medicinal plants, multi-target compounds, and signaling pathways related to anti-oxidant, anti-inflammatory, anti-aging, and anti-senescence mechanisms. A total of 1373 phytochemicals are found in 1025 Mexican medicinal plants, and 148 compounds showed no harmful functionalities. These compounds displayed comparable structures with reference molecules. Based on their capacity to interact with pharmacological targets, three clusters of Mexican medicinal plants have been established. Curatella americana, Ximenia americana, Malvastrum coromandelianum, and Manilkara zapota all have anti-oxidant, anti-inflammatory, anti-aging, and anti-senescence effects. Plumeria rubra, Lonchocarpus yucatanensis, and Salvia polystachya contained phytochemicals with anti-oxidant, anti-inflammatory, anti-aging, and anti-senescence reported activity. Lonchocarpus guatemalensis, Vallesia glabra, Erythrina oaxacana, and Erythrina sousae have drug-like phytochemicals with potential anti-oxidant, anti-inflammatory, anti-aging, and anti-senescence effects. Between the drug-like phytochemicals, lonchocarpin, vallesine, and erysotrine exhibit potential anti-oxidant, anti-inflammatory, anti-aging, and anti-senescence effects. For the first time, we conducted an initial virtual screening of selected Mexican medicinal plants, which was subsequently confirmed in vivo, evaluating the anti-inflammatory activity of Lonchocarpus guatemalensis Benth in mice. [ABSTRACT FROM AUTHOR]

Published

2023

42. Cellular senescence and ophthalmic diseases: narrative review.

Author

Soleimani, Mohammad, Cheraqpour, Kasra, Koganti, Raghuram, and Djalilian, Ali R.

Subjects

*CELLULAR aging, *IMMUNOSENESCENCE, *CORNEA diseases, *DEGENERATION (Pathology), *AGING, *AGE factors in disease, *EYE hemorrhage, *EYE diseases

Abstract

Purpose : Cellular senescence is a state of permanent growth arrest whereby a cell reaches its replicative limit. However, senescence can also be triggered prematurely in certain stressors including radiation, oxidative stress, and chemotherapy. This stress-induced senescence has been studied in the context of promoting inflammation, tumor development, and several chronic degenerative diseases of aging. Emerging research has elucidated the role of senescence in various ocular diseases. Methods: The literature search was performed using PubMed with using the query (senescence OR aging) AND (eye disease OR ocular disease OR ophthalmic disease OR cornea OR glaucoma OR cataract OR retina) on October 20th, 2022. No time restriction was proposed. Articles were excluded if they were not referenced in English. Results: Overall, 51 articles regarding senescence and ocular diseases were found and summarized in this study. Several signaling pathways have been implicated in the development of senescence. Currently, senescence has been linked to various corneal and retinal pathologies, as well as cataract and glaucoma. Given the number of pathologies, senolytics, which are small molecules with the ability to selective targeting of senescent cells, can be used as therapeutic or prophylactic agents. Conclusions: Senescence has been shown to underlie the pathogenesis of numerous ocular diseases. The overall literature on senescence and ocular disease is growing rapidly. There is an ongoing debate whether or not cellular senescence detected in experiments contributes in a significant way to diseases. Research on understanding the mechanism of senescence from ocular cells and tissues is just beginning. Multiple animal models are required to test potential senolytics. Currently, no studies exist to date which have demonstrated the benefits of senolytic therapies in human studies. [ABSTRACT FROM AUTHOR]

Published

2023

43. Understanding cellular senescence: pathways involved, therapeutics and longevity aiding.

Author

Kumar, Ashish and Thirumurugan, Kavitha

Subjects

CELLULAR aging, IMMUNOSENESCENCE, CELL cycle, CELL division, OXIDATIVE stress, LONGEVITY

Abstract

A normal somatic cell undergoes cycles of finite cellular divisions. The presence of surveillance checkpoints arrests cell division in response to stress inducers: oxidative stress from excess free radicals, oncogene-induced abnormalities, genotoxic stress, and telomere attrition. When facing such stress when undergoing these damages, there is a brief pause in the cell cycle to enable repair mechanisms. Also, the nature of stress determines whether the cell goes for repair or permanent arrest. As the cells experience transient or permanent stress, they subsequently choose the quiescence or senescence stage, respectively. Quiescence is an essential stage that allows the arrested/damaged cells to go through appropriate repair mechanisms and then revert to the mainstream cell cycle. However, senescent cells are irreversible and accumulate with age, resulting in inflammation and various age-related disorders. In this review, we focus on senescence-associated pathways and therapeutics understanding cellular senescence as a cascade that leads to aging, while discussing the recent details on the molecular pathways involved in regulating senescence and the benefits of therapeutic strategies against accumulated senescent cells and their secretions. [ABSTRACT FROM AUTHOR]

Published

2023

44. Invariant natural killer T cells coordinate removal of senescent cells

Author

Arora, Shivani, Thompson, Peter J, Wang, Yao, Bhattacharyya, Aritra, Apostolopoulou, Hara, Hatano, Rachel, Naikawadi, Ram P, Shah, Ajit, Wolters, Paul J, Koliwad, Suneil, Bhattacharya, Mallar, and Bhushan, Anil

Subjects

Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Biological Sciences, Immunology, Nutrition, Cancer, Animals, Cellular Senescence, Diet, High-Fat, Lymphocyte Count, Mice, Natural Killer T-Cells, Fibrosis, IPF, Metabolic dysfunction, Senescence, iNKT cells, senolytic

Abstract

BackgroundThe failure of immune surveillance to remove senescent cells drive age-related diseases. Here, we target an endogenous immune surveillance mechanism that can promote elimination of senescent cells and reverse disease progression.MethodsWe identify a class of lipid-activated T cells, invariant natural killer T cells (iNKTs) are involved in the removal of pathologic senescent cells. We use two disease models in which senescent cells accumulate to test whether activation of iNKT cells was sufficient to eliminate senescent cells in vivo.FindingsSenescent preadipocytes accumulate in white adipose tissue of chronic high-fat diet (HFD) fed mice, and activation of iNKT cells with the prototypical glycolipid antigen alpha-galactosylceramide (αGalCer) led to a reduction of these cells with improved glucose control. Similarly, senescent cells accumulate within the lungs of mice injured by inhalational bleomycin, and αGalCer-induced activation of iNKT cells greatly limited this accumulation, decreased the lung fibrosis and improved survival. Furthermore, co-culture experiments showed that the preferential cytotoxic activity of iNKT cells to senescent cells is conserved in human cells.ConclusionsThese results uncover a senolytic capacity of tissue-resident iNKT cells and pave the way for anti-senescence therapies that target these cells and their mechanism of activation.

Published

2021

45. Paradigms of Rapid Induction and Reduction of Senescence and Aging

Author

Robinson, Zachery Ryen

Subjects

Aging, Cellular biology, Bioengineering, Aging, Senescence, Senolytic

Abstract

Aging is the process of the decline of the physiological function of organs, which is thought to arise from both endogenous (i.e., cellular metabolism) and exogenous factors (i.e., air pollutants) that eventually lead to death. However, the exact spatiotemporal mechanisms that cause the decline in organisms are still unknown. Fortunately, extensive research has been done to elucidate how the decline happens and the biological cues that drive the aging process. A common convergence in the field of geroscience is the factors found in the circulatory system and their regenerative and, more commonly, deleterious effects. Pro-rejuvenating factors decline with age, and when replenished to youthful levels, they can restore function to the pathways that are dysregulated due to their depletion. Conversely, factors that have become deleterious due to deregulation can be reduced or inhibited to allow the organ's natural repair mechanisms to function to restore proper organ homeostasis. Both of these strategies may be used to reverse the age-associated decline of organ function and, ideally, extend both lifespan and healthspan, the time we live disease-free. However, considering the upregulation of many factors with age, and the even more numerous pathways disturbed by this upregulation, a more holistic approach would target these broader changes rather than merely attempting to restore, or more often, flood a single factor that decreases with age.Heterochronic blood exchange has emerged as a model to understand how the systemic milieu contributes to the aging process. Numerous individual factors have been discovered to contribute to the aging process when elevated, but the exact mechanism of how the old milieu exacerbates aging is largely unknown. By using a heterochronic blood exchange model, I showed an increase in senescent muscle stem cells in young mice after blood exchange with old mice. Moreover, after delivery of navitoclax, a common senolytic, to the old mouse prior to the blood exchange, the senescence transfer was no longer seen. This was verified using a second senolytic, dasatinib and quercetin. These results reinforce the idea that cellular senescence is not only a response to stress over a lifetime, but can be an immediate response from other senescent cells. Pharmacological approaches for targeting pathogenic cells, such as cancer or senescent, have the capacity to revolutionize biomedicine, but these cells resist apoptosis, and high doses of drugs also harm healthy cells in a patient. It would be very useful to simultaneously eliminate senescent and cancer cells because the senescent niche supports cancer progression, but drugs that target proliferating cells do not work against senescent cells. Approaches for energy starvation of cancer have not yet met with clinical success; moreover, senolytic attributes of this direction are largely unknown, and metabolic similarities between senescence and cancer are not well understood. Here I define the shared metabolic shifts in cancer and senescence, and develop a novel formulation of dichloroacetate, metformin, and 10-fold reduced dose of BCL-2 inhibitor that critically diminishes respiratory spare capacity for ATP synthesis only in the senescent and cancerous cells, allowing their simultaneous targeting without damage to healthy cells. In vivo, this three-drug formulation, DMA, is rejuvenative in old mice, suggesting a broadly available solution to counteract senescence, cancer, and aging effectively and simultaneously without deleterious side effects.

Published

2024

46. The role of cellular senescence in metabolic diseases and the potential for senotherapeutic interventions

Author

Huantong Zhang, Han Zhou, Xin Shen, Xingchen Lin, Yuke Zhang, Yiyi Sun, Yi Zhou, Lei Zhang, and Dayong Zhang

Subjects

cellular senescence, metabolic disease, diabetes mellitus, SASP, senolytic, Biology (General), QH301-705.5

Abstract

Cellular senescence represents an irreversible state of cell cycle arrest induced by various stimuli strongly associated with aging and several chronic ailments. In recent years, studies have increasingly suggested that the accumulation of senescent cells is an important contributor to the decline of organ metabolism, ultimately resulting in metabolic diseases. Conversely, the elimination of senescent cells can alleviate or postpone the onset and progression of metabolic diseases. Thus, a close relationship between senescent cells and metabolic diseases is found, and targeting senescent cells has emerged as an alternative therapy for the treatment of metabolic diseases. In this review, we summarize the role of cellular senescence in metabolic diseases, explore relevant therapeutic strategies for metabolic diseases by removing senescent cells, and provide new insights into the treatment of metabolic diseases.

Published

2023

47. The Bcl-2/Bcl-xL Inhibitor ABT-263 Attenuates Retinal Degeneration by Selectively Inducing Apoptosis in Senescent Retinal Pigment Epithelial Cells.

Author

Wonseon Ryu, Chul-Woo Park, Junghoon Kim, Hyungwoo Lee, and Hyewon Chung

Abstract

Age-related macular degeneration (AMD) is one of the leading causes of blindness in elderly individuals. However, the currently used intravitreal injections of anti-vascular endothelial growth factor are invasive, and repetitive injections are also accompanied by a risk of intraocular infection. The pathogenic mechanism of AMD is still not completely understood, but a multifactorial mechanism that combines genetic predisposition and environmental factors, including cellular senescence, has been suggested. Cellular senescence refers to the accumulation of cells that stop dividing due to the presence of free radicals and DNA damage. Characteristics of senescent cells include nuclear hypertrophy, increased levels of cell cycle inhibitors such as p16 and p21, and resistance to apoptosis. Senolytic drugs remove senescent cells by targeting the main characteristics of these cells. One of the senolytic drugs, ABT-263, which inhibits the antiapoptotic functions of Bcl-2 and Bcl-xL, may be a new treatment for AMD patients because it targets senescent retinal pigment epithelium (RPE) cells. We proved that it selectively kills doxorubicin (Dox)-induced senescent ARPE-19 cells by activating apoptosis. By removing senescent cells, the expression of inflammatory cytokines was reduced, and the proliferation of the remaining cells was increased. When ABT-263 was orally administered to the mouse model of senescent RPE cells induced by Dox, we confirmed that senescent RPE cells were selectively removed and retinal degeneration was alleviated. Therefore, we suggest that ABT- 263, which removes senescent RPE cells through its senolytic effect, has the potential to be the first orally administered senolytic drug for the treatment of AMD. [ABSTRACT FROM AUTHOR]

Published

2023

48. Aging and chronic inflammation: highlights from a multidisciplinary workshop.

Author

Saavedra, Danay, Añé-Kourí, Ana Laura, Barzilai, Nir, Caruso, Calogero, Cho, Kyung-Hyun, Fontana, Luigi, Franceschi, Claudio, Frasca, Daniela, Ledón, Nuris, Niedernhofer, Laura J., Pereira, Karla, Robbins, Paul D., Silva, Alexa, Suarez, Gisela M., Berghe, Wim Vanden, von Zglinicki, Thomas, Pawelec, Graham, and Lage, Agustín

Subjects

*CELLULAR aging, *AGING, *OLDER people, *CYTOMEGALOVIRUS diseases, *BIOMARKERS

Abstract

Aging is a gradual, continuous series of natural changes in biological, physiological, immunological, environmental, psychological, behavioral, and social processes. Aging entails changes in the immune system characterized by a decrease in thymic output of naïve lymphocytes, an accumulated chronic antigenic stress notably caused by chronic infections such as cytomegalovirus (CMV), and immune cell senescence with acquisition of an inflammatory senescence-associated secretory phenotype (SASP). For this reason, and due to the SASP originating from other tissues, aging is commonly accompanied by low-grade chronic inflammation, termed "inflammaging". After decades of accumulating evidence regarding age-related processes and chronic inflammation, the domain now appears mature enough to allow an integrative reinterpretation of old data. Here, we provide an overview of the topics discussed in a recent workshop "Aging and Chronic Inflammation" to which many of the major players in the field contributed. We highlight advances in systematic measurement and interpretation of biological markers of aging, as well as their implications for human health and longevity and the interventions that can be envisaged to maintain or improve immune function in older people. [ABSTRACT FROM AUTHOR]

Published

2023

49. Senopathies—Diseases Associated with Cellular Senescence.

Author

Lushchak, Oleh, Schosserer, Markus, and Grillari, Johannes

Subjects

*CELLULAR aging, *HUMAN body, *DISEASE progression, *LUNG diseases, *CELL cycle

Abstract

Cellular senescence describes a stable cell cycle arrest state with a characteristic phenotype. Senescent cells accumulate in the human body during normal aging, limiting the lifespan and promoting aging-related, but also several non-related, pathologies. We propose to refer to all diseases whose pathogenesis or progression is associated with cellular senescence as "senopathies". Targeting senescent cells with senolytics or senomorphics is likely to mitigate these pathologies. Examples of senopathies include cardiovascular, metabolic, musculoskeletal, liver, kidney, and lung diseases and neurodegeneration. For all these pathologies, animal studies provide clear mechanistic evidence for a connection between senescent cell accumulation and disease progression. The major persisting challenge in developing novel senotherapies is the heterogeneity of senescence phenotypes, causing a lack of universal biomarkers and difficulties in discriminating senescent from non-senescent cells. [ABSTRACT FROM AUTHOR]

Published

2023

50. Dietary Curcumin Attenuates Hepatic Cellular Senescence by Suppressing the MAPK/NF-κB Signaling Pathway in Aged Mice.

Author

Lee, Da-Yeon, Lee, Su-Jeong, Chandrasekaran, Prabha, Lamichhane, Gopal, O'Connell, Jennifer F., Egan, Josephine M., and Kim, Yoo

Subjects

MITOGEN-activated protein kinases, CURCUMIN, CELLULAR signal transduction, MICE, GENE expression

Abstract

Dietary interventions with bioactive compounds have been found to suppress the accumulation of senescent cells and senescence-associated secretory phenotypes (SASPs). One such compound, curcumin (CUR), has beneficial health and biological effects, including antioxidant and anti-inflammatory properties, but its ability to prevent hepatic cellular senescence is unclear. The objective of this study was to investigate the effects of dietary CUR as an antioxidant on hepatic cellular senescence and determine its benefits on aged mice. We screened the hepatic transcriptome and found that CUR supplementation led to the downregulation of senescence-associated hepatic gene expressions in both usually fed and nutritionally challenged aged mice. Our results showed that CUR supplementation enhanced antioxidant properties and suppressed mitogen-activated protein kinase (MAPK) signaling cascades in the liver, particularly c-Jun N-terminal kinase (JNK) in aged mice and p38 in diet-induced obese aged mice. Furthermore, dietary CUR decreased the phosphorylation of nuclear factor-κB (NF-κB), a downstream transcription factor of JNK and p38, and inhibited the mRNA expression of proinflammatory cytokines and SASPs. The potency of CUR administration was demonstrated in aged mice via enhanced insulin homeostasis along with declined body weight. Taken together, these results suggest that CUR supplementation may be a nutritional strategy to prevent hepatic cellular senescence. [ABSTRACT FROM AUTHOR]

Published

2023