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Literature DB >> 26034061

Ambra1 at a glance.

Valentina Cianfanelli¹, Daniela De Zio², Sabrina Di Bartolomeo³, Francesca Nazio³, Flavie Strappazzon³, Francesco Cecconi⁴.

Abstract

The activating molecule in Beclin-1-regulated autophagy (Ambra1), also known as autophagy/Beclin-1 regulator 1, is a highly intrinsically disordered and vertebrate-conserved adapter protein that is part of the autophagy signaling network. It acts in an early step of mammalian target of rapamycin complex 1 (mTORC1)-dependent autophagy by favouring formation of the autophagosome core complex. However, recent studies have revealed that Ambra1 can also coordinate a cell response upon starvation or other stresses that involve translocation of the autophagosome core complex to the endoplasmic reticulum (ER), regulative ubiquitylation and stabilization of the kinase ULK1, selective mitochondria removal and cell cycle downregulation. Moreover, Ambra1 itself appears to be targeted by a number of regulatory processes, such as cullin-dependent degradation, caspase cleavage and several modifications, ranging from phosphorylation to ubiquitylation. Altogether, this complex network of regulation highlights the importance of Ambra1 in crucial physiological events, including metabolism, cell death and cell division. In addition, Ambra1 is an important regulator of embryonic development, and its mutation or inactivation has been shown to correlate with several pathologies of the nervous system and to be involved in carcinogenesis. In this Cell Science at a Glance article and the accompanying poster, we discuss recent advances in the Ambra1 field, particularly the role of this pro-autophagic protein in cellular pathophysiology.

Entities: Chemical

Keywords: Autophagy; Cancer biology; Cell cycle; Mitochondria; Nervous system

Mesh：

Substances：

Year: 2015 PMID： 26034061 DOI： 10.1242/jcs.168153

Source DB: PubMed Journal: J Cell Sci ISSN： 0021-9533 Impact factor: 5.285

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Cited

35 in total

Review 1. Conformational flexibility of BECN1: Essential to its key role in autophagy and beyond.

Authors: Yang Mei; Karen Glover; Minfei Su; Sangita C Sinha
Journal: Protein Sci Date: 2016-08-13 Impact factor: 6.725

Review 2. Autophagy in animal development.

Authors: Elizabeth A Allen; Eric H Baehrecke
Journal: Cell Death Differ Date: 2020-01-27 Impact factor: 15.828

3. Local detection of PtdIns3P at autophagosome biogenesis membrane platforms.

Authors: Anna Chiara Nascimbeni; Patrice Codogno; Etienne Morel
Journal: Autophagy Date: 2017-08-16 Impact factor: 16.016

4. FoxO1-AMPK-ULK1 Regulates Ethanol-Induced Autophagy in Muscle by Enhanced ATG14 Association with the BECN1-PIK3C3 Complex.

Authors: Ly Q Hong-Brown; C Randell Brown; Maithili Navaratnarajah; Charles H Lang
Journal: Alcohol Clin Exp Res Date: 2017-04-05 Impact factor: 3.455

Review 5. Ambra1 in cancer: implications for clinical oncology.

Authors: Yan-Qiu Qin; Si-Yu Liu; Mei-Ling Lv; Wei-Liang Sun
Journal: Apoptosis Date: 2022-08-22 Impact factor: 5.561

Review 6. Autophagy in colorectal cancer: An important switch from physiology to pathology.

Authors: Florin Burada; Elena Raluca Nicoli; Marius Eugen Ciurea; Daniel Constantin Uscatu; Mihai Ioana; Dan Ionut Gheonea
Journal: World J Gastrointest Oncol Date: 2015-11-15

7. Oncolytic Reovirus (pelareorep) Induces Autophagy in KRAS-mutated Colorectal Cancer.

Authors: Jeeshan Jiffry; Thongthai Thavornwatanayong; Sanjay Goel; Radhashree Maitra; Devika Rao; Elisha J Fogel; Durvanand Saytoo; Rishika Nahata; Hillary Guzik; Imran Chaudhary; Titto Augustine
Journal: Clin Cancer Res Date: 2020-11-09 Impact factor: 12.531

8. AMBRA1 regulates cyclin D to guard S-phase entry and genomic integrity.

Authors: Emiliano Maiani; Giacomo Milletti; Francesca Nazio; Søs Grønbæk Holdgaard; Jirina Bartkova; Salvatore Rizza; Valentina Cianfanelli; Mar Lorente; Daniele Simoneschi; Miriam Di Marco; Pasquale D'Acunzo; Luca Di Leo; Rikke Rasmussen; Costanza Montagna; Marilena Raciti; Cristiano De Stefanis; Estibaliz Gabicagogeascoa; Gergely Rona; Nélida Salvador; Emanuela Pupo; Joanna Maria Merchut-Maya; Colin J Daniel; Marianna Carinci; Valeriana Cesarini; Alfie O'sullivan; Yeon-Tae Jeong; Matteo Bordi; Francesco Russo; Silvia Campello; Angela Gallo; Giuseppe Filomeni; Letizia Lanzetti; Rosalie C Sears; Petra Hamerlik; Armando Bartolazzi; Robert E Hynds; David R Pearce; Charles Swanton; Michele Pagano; Guillermo Velasco; Elena Papaleo; Daniela De Zio; Apolinar Maya-Mendoza; Franco Locatelli; Jiri Bartek; Francesco Cecconi
Journal: Nature Date: 2021-04-14 Impact factor: 49.962

9. Loss of Ambra1 promotes melanoma growth and invasion.

Authors: Luca Di Leo; Valérie Bodemeyer; Francesca M Bosisio; Giuseppina Claps; Marco Carretta; Salvatore Rizza; Fiorella Faienza; Alex Frias; Shawez Khan; Matteo Bordi; Maria P Pacheco; Julie Di Martino; Jose J Bravo-Cordero; Colin J Daniel; Rosalie C Sears; Marco Donia; Daniel H Madsen; Per Guldberg; Giuseppe Filomeni; Thomas Sauter; Caroline Robert; Daniela De Zio; Francesco Cecconi
Journal: Nat Commun Date: 2021-05-05 Impact factor: 14.919

10. Targeting cancer stem cells in medulloblastoma by inhibiting AMBRA1 dual function in autophagy and STAT3 signalling.

Authors: Francesca Nazio; Francesco Cecconi; Agnese Po; Luana Abballe; Claudio Ballabio; Francesca Diomedi Camassei; Matteo Bordi; Antonio Camera; Simona Caruso; Ignazio Caruana; Marco Pezzullo; Caterina Ferraina; Giacomo Milletti; Matteo Gianesello; Sofia Reddel; Carmen Dolores De Luca; Donatella Ceglie; Sara Marinelli; Silvia Campello; Elena Papaleo; Evelina Miele; Antonella Cacchione; Andrea Carai; Maria Vinci; Enrico Velardi; Biagio De Angelis; Luca Tiberi; Concetta Quintarelli; Angela Mastronuzzi; Elisabetta Ferretti; Franco Locatelli
Journal: Acta Neuropathol Date: 2021-07-24 Impact factor: 17.088