The BH3 only Bcl-2 family member BNIP3 regulates cellular proliferation

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Abstract

The BH3-only family member BNIP3 has been described as either promoting cell survival or cell death. This depends upon the level of BNIP3 expression and its cellular localization. Increased BNIP3 expression under hypoxia contributes to cell death through increased mitochondrial dysfunction. Furthermore, mice lacking BNIP3 show inhibition of ischemic cardiomyocyte apoptosis. In contrast, nuclear localization of BNIP3 contributes to blockage of apoptosis in glioma cells through repression of pro-apoptotic genes. We have discovered that mouse embryonic fibroblasts (MEFs) lacking BNIP3 expression show increased proliferation and cell number compared to wild-type cells. Furthermore, the cells lacking BNIP3 showed increased MAPK activation. Increased proliferation was not due to decreased cell death as oxidative stress induced cell death in BNIP3 null MEFs. In addition, we isolated astrocytes from wild-type or embryonic mice lacking expression of BNIP3. There was increased density and cell number in the astrocytes lacking BNIP3 expression. To confirm these results in human cells, we inducibly expressed BNIP3 in human embryonic kidney (HEK293) cells and found that induced BNIP3 reduced cell proliferation and failed to change background cell death levels. Transient over-expression of BNIP3 in the nucleus of HEK293 cells also reduced DNA synthesis. Finally, to determine whether this increased proliferation occurs in mice lacking BNIP3, we isolated brains from wild-type mice or those lacking BNIP3 expression. The mice lacking BNIP3 had increased cellularity in the brain of embryonic and adult mice. Taken together, our study describes a new function for BNIP3 in the regulation of cellular proliferation.

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The regulation of autophagy - unanswered questions.

Yongqiang Chen, Daniel Klionsky (2011)

Autophagy is an intracellular lysosomal (vacuolar) degradation process that is characterized by the formation of double-membrane vesicles, known as autophagosomes, which sequester cytoplasm. As autophagy is involved in cell growth, survival, development and death, the levels of autophagy must be properly regulated, as indicated by the fact that dysregulated autophagy has been linked to many human pathophysiologies, such as cancer, myopathies, neurodegeneration, heart and liver diseases, and gastrointestinal disorders. Substantial progress has recently been made in understanding the molecular mechanisms of the autophagy machinery, and in the regulation of autophagy. However, many unanswered questions remain, such as how the Atg1 complex is activated and the function of PtdIns3K is regulated, how the ubiquitin-like conjugation systems participate in autophagy and the mechanisms of phagophore expansion and autophagosome formation, how the network of TOR signaling pathways regulating autophagy are controlled, and what the underlying mechanisms are for the pro-cell survival and the pro-cell death effects of autophagy. As several recent reviews have comprehensively summarized the recent progress in the regulation of autophagy, we focus in this Commentary on the main unresolved questions in this field.

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Phase II and pharmacodynamic study of autophagy inhibition using hydroxychloroquine in patients with metastatic pancreatic adenocarcinoma.

Matthew Cleary, Jeffrey A. Meyerhardt, Kimmie Ng … (2014)

Autophagy is a catabolic pathway that permits cells to recycle intracellular macromolecules, and its inhibition reduces pancreatic cancer growth in model systems. We evaluated hydoxychloroquine (HCQ), an inhibitor of autophagy, in patients with pancreatic cancer and analyzed pharmacodynamic markers in treated patients and mice. Patients with previously treated metastatic pancreatic cancer were administered HCQ at 400 mg (n = 10) or 600 mg (n = 10) twice daily. The primary endpoint was 2-month progression-free survival (PFS). We analyzed peripheral lymphocytes from treated mice to identify pharmacodynamic markers of autophagy inhibition that were then assessed in peripheral lymphocytes from patients. Among 20 patients enrolled, 2 (10%) were without progressive disease at 2 months. Median PFS and overall survival were 46.5 and 69.0 days, respectively. Treatment-related grade 3/4 adverse events were lymphopenia (n = 1) and elevated alanine aminotransferase (n = 1). Tolerability and efficacy were similar at the two dose levels. Analysis of treated murine lymphocytes suggested that LC3-II expression by Western blot is a reliable marker for autophagy inhibition. Analysis of LC3-II in patient lymphocytes demonstrated inconsistent autophagy inhibition. Mouse studies identified LC3-II levels in peripheral lymphocytes as a potential pharmacodynamic marker of autophagy inhibition. In patients with previously treated metastatic pancreatic cancer, HCQ monotherapy achieved inconsistent autophagy inhibition and demonstrated negligible therapeutic efficacy. ©AlphaMed Press; the data published online to support this summary is the property of the authors.

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Mitochondrial autophagy: Origins, significance, and role of BNIP3 and NIX.

Paul A. Ney (2015)

Mitochondrial autophagy (mitophagy) is a core cellular activity. In this review, we consider mitophagy and related cellular processes and discuss their significance for human disease. Strong parallels exist between mitophagy and xenophagy employed in host defense. These mechanisms converge on receptors in the innate immune system in clinically relevant scenarios. Mitophagy is part of a cellular quality control mechanism, which is implicated in degenerative disease, especially neurodegenerative disease. Furthermore, mitophagy is an aspect of cellular remodeling, which is employed during development. BNIP3 and NIX are related multi-functional outer mitochondrial membrane proteins. BNIP3 regulates mitophagy during hypoxia, whereas NIX is required for mitophagy during development of the erythroid lineage. Recent advances in the field of BNIP3- and NIX-mediated mitophagy are discussed.

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Author and article information

Contributors

Amandeep Singh: Role: InvestigationRole: Methodology

Meghan Azad: Role: Data curationRole: Methodology

Miriam D. Shymko: Role: Data curationRole: Methodology

Elizabeth S. Henson: Role: Methodology

Sachin Katyal: Role: ConceptualizationRole: Methodology

David D. Eisenstat: Role: Conceptualization

Spencer B. Gibson:

ORCID: http://orcid.org/0000-0003-0119-732X

Role: Funding acquisitionRole: InvestigationRole: Project administrationRole: Supervision

Ilya Ulasov: Role: Editor

Journal

Journal ID (nlm-ta): PLoS One

Journal ID (iso-abbrev): PLoS ONE

Journal ID (publisher-id): plos

Journal ID (pmc): plosone

Title: PLoS ONE

Publisher: Public Library of Science (San Francisco, CA USA )

ISSN (Electronic): 1932-6203

Publication date (Electronic): 11 October 2018

Publication date Collection: 2018

Volume: 13

Issue: 10

Electronic Location Identifier: e0204792

Affiliations

[1 ] Research Institute in Oncology and Hematology, CancerCare Manitoba, University of Manitoba, Winnipeg, Manitoba, Canada

[2 ] Department of Biochemistry and Medical Genetics, University of Manitoba, Winnipeg, Manitoba, Canada

[3 ] Children Hospital Research Institute of Manitoba, Winnipeg, MB, Canada

[4 ] Departments of Pharmacology and Therapeutics, University of Manitoba, Winnipeg, MB, Canada

[5 ] Departments of Oncology, Medical Genetics and Pediatrics, University of Alberta, Edmonton, Canada

Northern University, UNITED STATES

Author notes

Competing Interests: The authors have declared that no competing interests exist.

* E-mail: spencer.gibson@ 123456umanitoba.ca

Author information

Spencer B. Gibson http://orcid.org/0000-0003-0119-732X

Article

Publisher ID: PONE-D-18-11226

DOI: 10.1371/journal.pone.0204792

PMC ID: 6181300

PubMed ID: 30307949

SO-VID: 236c5d31-1f55-46d9-b1bc-ce8a8f5a2fe3

License:

This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

History

Date received : 20 April 2018

Date accepted : 15 September 2018

Page count

Figures: 8, Tables: 1, Pages: 19

Funding

Funded by: funder-id http://dx.doi.org/10.13039/501100000038, Natural Sciences and Engineering Research Council of Canada;

Award Recipient :

ORCID: http://orcid.org/0000-0003-0119-732X

Spencer B. Gibson

This work was supported by a NSERC Discovery Grant to Dr. S. Gibson, Operating grant, Title: Role of BH3 only protein BNIP3 in regulating cell survival in the brain, Amount: $38,000/yr, 2015-2020.

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The BH3 only Bcl-2 family member BNIP3 regulates cellular proliferation

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Most cited references 19

The regulation of autophagy - unanswered questions.

Phase II and pharmacodynamic study of autophagy inhibition using hydroxychloroquine in patients with metastatic pancreatic adenocarcinoma.

Mitochondrial autophagy: Origins, significance, and role of BNIP3 and NIX.

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