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Literature DB >> 20886756

Autophagy and longevity: lessons from C. elegans.

Abstract

Aging is a process in which individuals undergo an exponential decline in vitality, leading to death. In the last two decades, the study of the molecular regulation of aging in model organisms, particularly in C. elegans, has greatly expanded our knowledge of aging. Multiple longevity pathways, such as insulin-like growth factor signaling, TOR signaling, dietary restriction and mitochondrial activity, control aging in C. elegans. Recent genetic studies indicate that autophagy, an evolutionary conserved lysosomal degradation pathway, interacts with various longevity signals in the regulation of C. elegans life span. Here, we review the current progress in understanding the role of autophagy in the regulation of C. elegans life span.

Entities: Disease Species

Mesh：

Substances：
Insulin

Year: 2010 PMID： 20886756 DOI： 10.1007/978-1-4419-7002-2_5

Source DB: PubMed Journal: Adv Exp Med Biol ISSN： 0065-2598 Impact factor: 2.622

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Cited

12 in total

Review 1. Autophagy: regulation and role in development.

Authors: Amber N Hale; Dan J Ledbetter; Thomas R Gawriluk; Edmund B Rucker
Journal: Autophagy Date: 2013-07 Impact factor: 16.016

2. Advancing age is associated with gene expression changes resembling mTOR inhibition: evidence from two human populations.

Authors: Lorna W Harries; Alexander D Fellows; Luke C Pilling; Dena Hernandez; Andrew Singleton; Stefania Bandinelli; Jack Guralnik; Jonathan Powell; Luigi Ferrucci; David Melzer
Journal: Mech Ageing Dev Date: 2012-07-16 Impact factor: 5.432

3. Basic Caenorhabditis elegans methods: synchronization and observation.

Authors: Montserrat Porta-de-la-Riva; Laura Fontrodona; Alberto Villanueva; Julián Cerón
Journal: J Vis Exp Date: 2012-06-10 Impact factor: 1.355

4. A critical role for TLR4 induction of autophagy in the regulation of enterocyte migration and the pathogenesis of necrotizing enterocolitis.

Authors: Matthew D Neal; Chhinder P Sodhi; Mitchell Dyer; Brian T Craig; Misty Good; Hongpeng Jia; Ibrahim Yazji; Amin Afrazi; Ward M Richardson; Donna Beer-Stolz; Congrong Ma; Thomas Prindle; Zachary Grant; Maria F Branca; John Ozolek; David J Hackam
Journal: J Immunol Date: 2013-03-01 Impact factor: 5.422

5. Mitochondrial endonuclease G mediates breakdown of paternal mitochondria upon fertilization.

Authors: Qinghua Zhou; Haimin Li; Hanzeng Li; Akihisa Nakagawa; Jason L J Lin; Eui-Seung Lee; Brian L Harry; Riley Robert Skeen-Gaar; Yuji Suehiro; Donna William; Shohei Mitani; Hanna S Yuan; Byung-Ho Kang; Ding Xue
Journal: Science Date: 2016-06-23 Impact factor: 47.728

Review 6. Epidermal growth factor and aging: a signaling molecule reveals a new eye opening function.

Authors: Christopher Rongo
Journal: Aging (Albany NY) Date: 2011-09 Impact factor: 5.682

7. Enhanced autophagy in Becn1^F121A/F121A knockin mice counteracts aging-related neural stem cell exhaustion and dysfunction.

Authors: Chenran Wang; Michael Haas; Syn Kok Yeo; Salwa Sebti; Álvaro F Fernández; Zhongju Zou; Beth Levine; Jun-Lin Guan
Journal: Autophagy Date: 2021-06-08 Impact factor: 13.391

Review 8. Role of protein misfolding and proteostasis deficiency in protein misfolding diseases and aging.

Authors: Karina Cuanalo-Contreras; Abhisek Mukherjee; Claudio Soto
Journal: Int J Cell Biol Date: 2013-11-17

Review 9. Lipid rafts participate in aberrant degradative autophagic-lysosomal pathway of amyloid-beta peptide in Alzheimer's disease.

Authors: Xin Zhou; Chun Yang; Yufeng Liu; Peng Li; Huiying Yang; Jingxing Dai; Rongmei Qu; Lin Yuan
Journal: Neural Regen Res Date: 2014-01-01 Impact factor: 5.135

10. Suppression of MAPK/JNK-MTORC1 signaling leads to premature loss of organelles and nuclei by autophagy during terminal differentiation of lens fiber cells.

Authors: Subhasree Basu; Suren Rajakaruna; Beverly Reyes; Elisabeth Van Bockstaele; A Sue Menko
Journal: Autophagy Date: 2014-05-09 Impact factor: 16.016