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Literature DB >> 32589933

Reducing Senescent Cell Burden in Aging and Disease.

Robert J Pignolo¹, João F Passos², Sundeep Khosla², Tamara Tchkonia², James L Kirkland².

Abstract

Cellular senescence is a primary aging process and tumor suppressive mechanism characterized by irreversible growth arrest, apoptosis resistance, production of a senescence-associated secretory phenotype (SASP), mitochondrial dysfunction, and alterations in DNA and chromatin. In preclinical aging models, accumulation of senescent cells is associated with multiple chronic diseases and disorders, geriatric syndromes, multimorbidity, and accelerated aging phenotypes. In animals, genetic and pharmacologic reduction of senescent cell burden results in the prevention, delay, and/or alleviation of a variety of aging-related diseases and sequelae. Early clinical trials have thus far focused on safety and target engagement of senolytic agents that clear senescent cells. We hypothesize that these pharmacologic interventions may have transformative effects on geriatric medicine.

Entities: Chemical Disease Gene Species

Year: 2020 PMID： 32589933 PMCID： PMC7857028 DOI： 10.1016/j.molmed.2020.03.005

Source DB: PubMed Journal: Trends Mol Med ISSN： 1471-4914 Impact factor: 11.951

108 in total

1. MTOR regulates the pro-tumorigenic senescence-associated secretory phenotype by promoting IL1A translation.

Authors: Remi-Martin Laberge; Yu Sun; Arturo V Orjalo; Christopher K Patil; Adam Freund; Lili Zhou; Samuel C Curran; Albert R Davalos; Kathleen A Wilson-Edell; Su Liu; Chandani Limbad; Marco Demaria; Patrick Li; Gene B Hubbard; Yuji Ikeno; Martin Javors; Pierre-Yves Desprez; Christopher C Benz; Pankaj Kapahi; Peter S Nelson; Judith Campisi
Journal: Nat Cell Biol Date: 2015-07-06 Impact factor: 28.824

Review 2. Cellular senescence and tumor suppressor gene p16.

Authors: Hani Rayess; Marilene B Wang; Eri S Srivatsan
Journal: Int J Cancer Date: 2011-12-05 Impact factor: 7.396

3. Identification of Senescent Cells in the Bone Microenvironment.

Authors: Joshua N Farr; Daniel G Fraser; Haitao Wang; Katharina Jaehn; Mikolaj B Ogrodnik; Megan M Weivoda; Matthew T Drake; Tamara Tchkonia; Nathan K LeBrasseur; James L Kirkland; Lynda F Bonewald; Robert J Pignolo; David G Monroe; Sundeep Khosla
Journal: J Bone Miner Res Date: 2016-10-24 Impact factor: 6.741

Review 4. The senescence-associated secretory phenotype: the dark side of tumor suppression.

Authors: Jean-Philippe Coppé; Pierre-Yves Desprez; Ana Krtolica; Judith Campisi
Journal: Annu Rev Pathol Date: 2010 Impact factor: 23.472

5. Genomes of replicatively senescent cells undergo global epigenetic changes leading to gene silencing and activation of transposable elements.

Authors: Marco De Cecco; Steven W Criscione; Edward J Peckham; Sara Hillenmeyer; Eliza A Hamm; Jayameenakshi Manivannan; Abigail L Peterson; Jill A Kreiling; Nicola Neretti; John M Sedivy
Journal: Aging Cell Date: 2013-01-30 Impact factor: 9.304

6. Genomic landscape of rat strain and substrain variation.

Authors: Roel Hermsen; Joep de Ligt; Wim Spee; Francis Blokzijl; Sebastian Schäfer; Eleonora Adami; Sander Boymans; Stephen Flink; Ruben van Boxtel; Robin H van der Weide; Tim Aitman; Norbert Hübner; Marieke Simonis; Boris Tabakoff; Victor Guryev; Edwin Cuppen
Journal: BMC Genomics Date: 2015-05-06 Impact factor: 3.969

Review 7. Exploring human disease using the Rat Genome Database.

Authors: Mary Shimoyama; Stanley J F Laulederkind; Jeff De Pons; Rajni Nigam; Jennifer R Smith; Marek Tutaj; Victoria Petri; G Thomas Hayman; Shur-Jen Wang; Omid Ghiasvand; Jyothi Thota; Melinda R Dwinell
Journal: Dis Model Mech Date: 2016-10-01 Impact factor: 5.758

8. Fibrates as drugs with senolytic and autophagic activity for osteoarthritis therapy.

Authors: Uxía Nogueira-Recalde; Irene Lorenzo-Gómez; Francisco J Blanco; María I Loza; Diego Grassi; Valery Shirinsky; Ivan Shirinsky; Martin Lotz; Paul D Robbins; Eduardo Domínguez; Beatriz Caramés
Journal: EBioMedicine Date: 2019-07-05 Impact factor: 8.143

Review 9. Cellular senescence: at the nexus between ageing and diabetes.

Authors: Allyson K Palmer; Birgit Gustafson; James L Kirkland; Ulf Smith
Journal: Diabetologia Date: 2019-08-27 Impact factor: 10.122

10. Senolytics decrease senescent cells in humans: Preliminary report from a clinical trial of Dasatinib plus Quercetin in individuals with diabetic kidney disease.

Authors: LaTonya J Hickson; Larissa G P Langhi Prata; Shane A Bobart; Tamara K Evans; Nino Giorgadze; Shahrukh K Hashmi; Sandra M Herrmann; Michael D Jensen; Qingyi Jia; Kyra L Jordan; Todd A Kellogg; Sundeep Khosla; Daniel M Koerber; Anthony B Lagnado; Donna K Lawson; Nathan K LeBrasseur; Lilach O Lerman; Kathleen M McDonald; Travis J McKenzie; João F Passos; Robert J Pignolo; Tamar Pirtskhalava; Ishran M Saadiq; Kalli K Schaefer; Stephen C Textor; Stella G Victorelli; Tammie L Volkman; Ailing Xue; Mark A Wentworth; Erin O Wissler Gerdes; Yi Zhu; Tamara Tchkonia; James L Kirkland
Journal: EBioMedicine Date: 2019-09-18 Impact factor: 8.143

35 in total

Review 1. Immunosenescence: a key player in cancer development.

Authors: Jingyao Lian; Ying Yue; Weina Yu; Yi Zhang
Journal: J Hematol Oncol Date: 2020-11-10 Impact factor: 17.388

2. Antidiabetic Effects of the Senolytic Agent Dasatinib.

Authors: Omid Salaami; Chia-Ling Kuo; Matthew T Drake; George A Kuchel; James L Kirkland; Robert J Pignolo
Journal: Mayo Clin Proc Date: 2021-11-09 Impact factor: 7.616

3. miR-146a-5p modulates cellular senescence and apoptosis in visceral adipose tissue of long-lived Ames dwarf mice and in cultured pre-adipocytes.

Authors: Allancer D C Nunes; Moritz Weigl; Augusto Schneider; Sarah Noureddine; Lin Yu; Collin Lahde; Tatiana Dandolini Saccon; Kunal Mitra; Esther Beltran; Johannes Grillari; James L Kirkland; Tamara Tchkonia; Paul D Robbins; Michal M Masternak
Journal: Geroscience Date: 2021-11-25 Impact factor: 7.713

Review 4. Recent advances in the discovery of senolytics.

Authors: Lei Zhang; Louise E Pitcher; Vaishali Prahalad; Laura J Niedernhofer; Paul D Robbins
Journal: Mech Ageing Dev Date: 2021-10-14 Impact factor: 5.432

5. Radiation-Induced Macrophage Senescence Impairs Resolution Programs and Drives Cardiovascular Inflammation.

Authors: Sudeshna Sadhu; Christa Decker; Brian E Sansbury; Michael Marinello; Allison Seyfried; Jennifer Howard; Masayuki Mori; Zeinab Hosseini; Thilaka Arunachalam; Aloke V Finn; John M Lamar; David Jourd'heuil; Liang Guo; Katherine C MacNamara; Matthew Spite; Gabrielle Fredman
Journal: J Immunol Date: 2021-08-30 Impact factor: 5.426

Review 6. Trimethylamine N-oxide: role in cell senescence and age-related diseases.

Authors: Lin Zhang; Fang Yu; Jian Xia
Journal: Eur J Nutr Date: 2022-10-11 Impact factor: 4.865

7. Metformin's Mechanisms in Attenuating Hallmarks of Aging and Age-Related Disease.

Authors: Fang-Fang Cheng; Yan-Li Liu; Jang Du; Jun-Tang Lin
Journal: Aging Dis Date: 2022-07-11 Impact factor: 9.968

8. Single-PanIN-seq unveils that ARID1A deficiency promotes pancreatic tumorigenesis by attenuating KRAS-induced senescence.

Authors: Shou Liu; Wenjian Cao; Yichi Niu; Jiayi Luo; Yanhua Zhao; Zhiying Hu; Chenghang Zong
Journal: Elife Date: 2021-05-13 Impact factor: 8.140

Review 9. The role of retrotransposable elements in ageing and age-associated diseases.

Authors: Vera Gorbunova; Andrei Seluanov; Paolo Mita; Wilson McKerrow; David Fenyö; Jef D Boeke; Sara B Linker; Fred H Gage; Jill A Kreiling; Anna P Petrashen; Trenton A Woodham; Jackson R Taylor; Stephen L Helfand; John M Sedivy
Journal: Nature Date: 2021-08-04 Impact factor: 49.962

Review 10. Senolytics: Potential for Alleviating Diabetes and Its Complications.

Authors: Allyson K Palmer; Tamar Tchkonia; James L Kirkland
Journal: Endocrinology Date: 2021-08-01 Impact factor: 4.736