Warning: Undefined array key "mm" in /www/wwwroot/www.ai-bt.com/si.php on line 10 Deprecated: trim(): Passing null to parameter #1 ($string) of type string is deprecated in /www/wwwroot/www.ai-bt.com/si.php on line 10 NIPSNAP1 and NIPSNAP2 act as "eat me" signals to allow sustained recruitment of autophagy receptors during mitophagy.

Literature DB >> 31251109

NIPSNAP1 and NIPSNAP2 act as "eat me" signals to allow sustained recruitment of autophagy receptors during mitophagy.

Yakubu Princely Abudu¹, Serhiy Pankiv², Benan John Mathai², Trond Lamark¹, Terje Johansen¹, Anne Simonsen².

Abstract

Removal of damaged mitochondria is vital for cellular homeostasis especially in non-dividing cells, like neurons. Damaged mitochondria that cannot be repaired by the ubiquitin-proteasomal system are cleared by a form of selective autophagy known as mitophagy. Following damage, mitochondria become labelled with 'eat-me' signals that selectively determine their degradation. Recently, we identified the mitochondrial matrix proteins, NIPSNAP1 (nipsnap homolog 1) and NIPSNAP2 as 'eat-me' signals for damaged mitochondria. NIPSNAP1 and NIPSNAP2 accumulate on the mitochondrial outer membrane following mitochondrial depolarization, recruiting autophagy receptors and adaptors, as well as human Atg8 (autophagy-related 8)-family proteins to facilitate mitophagy. The NIPSNAPs allow a sustained recruitment of SQSTM1-like receptors (SLRs) to ensure efficient mitophagy. Zebrafish lacking Nipsnap1 show decreased mitophagy in the brain coupled with increased ROS production, loss of dopaminergic neurons and strongly reduced locomotion.

Entities: Chemical Gene Species

Keywords: Atg8; NIPSNAP1; NIPSNAP2; PINK1/Parkin; SLRs; mitophagy; ‘eat me’ signal

Year: 2019 PMID： 31251109 PMCID： PMC6735490 DOI： 10.1080/15548627.2019.1637642

Source DB: PubMed Journal: Autophagy ISSN： 1554-8627 Impact factor: 16.016

1 in total

1. NIPSNAP1 and NIPSNAP2 Act as "Eat Me" Signals for Mitophagy.

Authors: Yakubu Princely Abudu; Serhiy Pankiv; Benan John Mathai; Alf Håkon Lystad; Christian Bindesbøll; Hanne Britt Brenne; Matthew Yoke Wui Ng; Bernd Thiede; Ai Yamamoto; Thaddaeus Mutugi Nthiga; Trond Lamark; Camila V Esguerra; Terje Johansen; Anne Simonsen
Journal: Dev Cell Date: 2019-04-11 Impact factor: 12.270

1 in total

11 in total

NIPSNAP1 and NIPSNAP2 act as "eat me" signals to allow sustained recruitment of autophagy receptors during mitophagy.

1. NIPSNAP1 and NIPSNAP2 Act as "Eat Me" Signals for Mitophagy.

1. GLIDER: Function Prediction from GLIDE-based Neigborhoods.

2. Knockdown of GBAS regulates esophageal cancer cell viability and apoptosis.

Review 3. Selective autophagy as a therapeutic target for neurological diseases.

4. Similar neuronal imprint and no cross-seeded fibrils in α-synuclein aggregates from MSA and Parkinson's disease.

Review 5. Disruption of Mitochondrial Homeostasis: The Role of PINK1 in Parkinson's Disease.

6. GBAS Regulates the Proliferation and Metastasis of Ovarian Cancer Cells by Combining with eEF1A1.

Review 7. Mitophagy and Neurodegeneration: Between the Knowns and the Unknowns.

Review 8. Role and Mechanisms of Mitophagy in Liver Diseases.

Review 9. Mitophagy in the Pathogenesis of Liver Diseases.

Review 10. Mitophagy in Diabetic Kidney Disease.