DJ-1 binds to Rubicon to Impair LC-3 Associated Phagocytosis

Sahil Gupta; Hajera Amatullah; James N. Tsoporis; Kuiru Wei; Ana Paula Teixeira Monteiro; Amin M. Ektesabi; Amir K. Varkouhi; Chirag M. Vaswani; Amanda Formosa; Alexandre T. Fabro; Sri Nagarjun Batchu; Chris Fjell; James A. Russell; Keith R. Walley; Andrew Advani; Thomas G. Parker; John C. Marshall; Patricia R.M. Rocco; Gregory D. Fairn; Tak Wah Mak; Claudia C. dos Santos

doi:10.1038/s41418-022-00993-2

DJ-1 binds to Rubicon to Impair LC-3 Associated Phagocytosis

Sahil Gupta, Hajera Amatullah, James N. Tsoporis, Kuiru Wei, Ana Paula Teixeira Monteiro, Amin M. Ektesabi, Amir K. Varkouhi, Chirag M. Vaswani, Amanda Formosa, Alexandre T. Fabro, Sri Nagarjun Batchu, Chris Fjell, James A. Russell, Keith R. Walley, Andrew Advani, Thomas G. Parker, John C. Marshall, Patricia R.M. Rocco, Gregory D. Fairn, Tak Wah MakClaudia C. dos Santos

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

The ability to effectively clear infection is fundamental to host survival. Sepsis, defined as dysregulated host response to infection, is a heterogenous clinical syndrome that does not uniformly clear intact bacterial or sterile infection (i.e., lipopolysaccharide). These findings were further associated with increased survival in DJ-1 deficient animals exposed to intact bacteria relative to DJ-1 deficient challenged with lipopolysaccharide. We analyzed bacterial and lipopolysaccharide clearance in bone marrow macrophages (BMM) cultured ex vivo from wild-type and DJ-1 deficient mice. Importantly, we demonstrated that DJ-1 deficiency in BMM promotes Rubicon-dependent increase in L3C-associated phagocytosis, non-canonical autophagy pathway used for xenophagy, during bacterial but not lipopolysaccharide infection. In contrast to DJ-1 deficient BMM challenged with lipopolysaccharide, DJ-1 deficient BMM exposed to intact bacteria showed enhanced Rubicon complexing with Beclin-1 and UVRAG and consistently facilitated the assembly of complete autophagolysosomes that were decorated with LC3 molecules. Our data shows DJ-1 impairs or/and delays bacterial clearance and late autophagolysosome formation by binding to Rubicon resulting in Rubicon degradation, decreased L3C-associated phagocytosis, and decreased bacterial clearance in vitro and in vivo - implicating Rubicon and DJ-1 as critical regulators of bacterial clearance in experimental sepsis.

Original language	English
Journal	Cell Death and Differentiation
DOIs	https://doi.org/10.1038/s41418-022-00993-2
Publication status	Accepted/In press - 2022
Externally published	Yes

Bibliographical note

Funding Information:
We thank Dr. David Park from the University of Ottawa for providing the control and DJ-1 adenovirus vectors. Secondly, we thank Drs. Caterina Di Ciano-Oliveira and Yuexin Shan from St. Michael’s Hospital (Unity Health) for their support and technical assistance with the experiments. This work was supported by the Canadian Institutes of Health Research (Grant # MOP-130331 to CCDS) and the Ontario Research Fund (Grant # RE07-086 to CCDS).

Publisher Copyright:
© 2022, The Author(s), under exclusive licence to ADMC Associazione Differenziamento e Morte Cellulare.

ASJC Scopus Subject Areas

Molecular Biology
Cell Biology

PubMed: MeSH publication types

Journal Article
Research Support, Non-U.S. Gov't

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10.1038/s41418-022-00993-2

Cite this

Gupta, S., Amatullah, H., Tsoporis, J. N., Wei, K., Monteiro, A. P. T., Ektesabi, A. M., Varkouhi, A. K., Vaswani, C. M., Formosa, A., Fabro, A. T., Batchu, S. N., Fjell, C., Russell, J. A., Walley, K. R., Advani, A., Parker, T. G., Marshall, J. C., Rocco, P. R. M., Fairn, G. D., ... dos Santos, C. C. (Accepted/In press). DJ-1 binds to Rubicon to Impair LC-3 Associated Phagocytosis. Cell Death and Differentiation. https://doi.org/10.1038/s41418-022-00993-2

Gupta, S, Amatullah, H, Tsoporis, JN, Wei, K, Monteiro, APT, Ektesabi, AM, Varkouhi, AK, Vaswani, CM, Formosa, A, Fabro, AT, Batchu, SN, Fjell, C, Russell, JA, Walley, KR, Advani, A, Parker, TG, Marshall, JC, Rocco, PRM, Fairn, GD, Mak, TW & dos Santos, CC 2022, 'DJ-1 binds to Rubicon to Impair LC-3 Associated Phagocytosis', Cell Death and Differentiation. https://doi.org/10.1038/s41418-022-00993-2

@article{0737090b083647cb927e06557034552a,

title = "DJ-1 binds to Rubicon to Impair LC-3 Associated Phagocytosis",

abstract = "The ability to effectively clear infection is fundamental to host survival. Sepsis, defined as dysregulated host response to infection, is a heterogenous clinical syndrome that does not uniformly clear intact bacterial or sterile infection (i.e., lipopolysaccharide). These findings were further associated with increased survival in DJ-1 deficient animals exposed to intact bacteria relative to DJ-1 deficient challenged with lipopolysaccharide. We analyzed bacterial and lipopolysaccharide clearance in bone marrow macrophages (BMM) cultured ex vivo from wild-type and DJ-1 deficient mice. Importantly, we demonstrated that DJ-1 deficiency in BMM promotes Rubicon-dependent increase in L3C-associated phagocytosis, non-canonical autophagy pathway used for xenophagy, during bacterial but not lipopolysaccharide infection. In contrast to DJ-1 deficient BMM challenged with lipopolysaccharide, DJ-1 deficient BMM exposed to intact bacteria showed enhanced Rubicon complexing with Beclin-1 and UVRAG and consistently facilitated the assembly of complete autophagolysosomes that were decorated with LC3 molecules. Our data shows DJ-1 impairs or/and delays bacterial clearance and late autophagolysosome formation by binding to Rubicon resulting in Rubicon degradation, decreased L3C-associated phagocytosis, and decreased bacterial clearance in vitro and in vivo - implicating Rubicon and DJ-1 as critical regulators of bacterial clearance in experimental sepsis.",

author = "Sahil Gupta and Hajera Amatullah and Tsoporis, {James N.} and Kuiru Wei and Monteiro, {Ana Paula Teixeira} and Ektesabi, {Amin M.} and Varkouhi, {Amir K.} and Vaswani, {Chirag M.} and Amanda Formosa and Fabro, {Alexandre T.} and Batchu, {Sri Nagarjun} and Chris Fjell and Russell, {James A.} and Walley, {Keith R.} and Andrew Advani and Parker, {Thomas G.} and Marshall, {John C.} and Rocco, {Patricia R.M.} and Fairn, {Gregory D.} and Mak, {Tak Wah} and {dos Santos}, {Claudia C.}",

note = "Funding Information: We thank Dr. David Park from the University of Ottawa for providing the control and DJ-1 adenovirus vectors. Secondly, we thank Drs. Caterina Di Ciano-Oliveira and Yuexin Shan from St. Michael{\textquoteright}s Hospital (Unity Health) for their support and technical assistance with the experiments. This work was supported by the Canadian Institutes of Health Research (Grant # MOP-130331 to CCDS) and the Ontario Research Fund (Grant # RE07-086 to CCDS). Publisher Copyright: {\textcopyright} 2022, The Author(s), under exclusive licence to ADMC Associazione Differenziamento e Morte Cellulare.",

year = "2022",

doi = "10.1038/s41418-022-00993-2",

language = "English",

journal = "Cell Death and Differentiation",

issn = "1350-9047",

publisher = "Nature Publishing Group",

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T1 - DJ-1 binds to Rubicon to Impair LC-3 Associated Phagocytosis

AU - Gupta, Sahil

AU - Amatullah, Hajera

AU - Tsoporis, James N.

AU - Wei, Kuiru

AU - Monteiro, Ana Paula Teixeira

AU - Ektesabi, Amin M.

AU - Varkouhi, Amir K.

AU - Vaswani, Chirag M.

AU - Formosa, Amanda

AU - Fabro, Alexandre T.

AU - Batchu, Sri Nagarjun

AU - Fjell, Chris

AU - Russell, James A.

AU - Walley, Keith R.

AU - Advani, Andrew

AU - Parker, Thomas G.

AU - Marshall, John C.

AU - Rocco, Patricia R.M.

AU - Fairn, Gregory D.

AU - Mak, Tak Wah

AU - dos Santos, Claudia C.

N1 - Funding Information: We thank Dr. David Park from the University of Ottawa for providing the control and DJ-1 adenovirus vectors. Secondly, we thank Drs. Caterina Di Ciano-Oliveira and Yuexin Shan from St. Michael’s Hospital (Unity Health) for their support and technical assistance with the experiments. This work was supported by the Canadian Institutes of Health Research (Grant # MOP-130331 to CCDS) and the Ontario Research Fund (Grant # RE07-086 to CCDS). Publisher Copyright: © 2022, The Author(s), under exclusive licence to ADMC Associazione Differenziamento e Morte Cellulare.

PY - 2022

Y1 - 2022

N2 - The ability to effectively clear infection is fundamental to host survival. Sepsis, defined as dysregulated host response to infection, is a heterogenous clinical syndrome that does not uniformly clear intact bacterial or sterile infection (i.e., lipopolysaccharide). These findings were further associated with increased survival in DJ-1 deficient animals exposed to intact bacteria relative to DJ-1 deficient challenged with lipopolysaccharide. We analyzed bacterial and lipopolysaccharide clearance in bone marrow macrophages (BMM) cultured ex vivo from wild-type and DJ-1 deficient mice. Importantly, we demonstrated that DJ-1 deficiency in BMM promotes Rubicon-dependent increase in L3C-associated phagocytosis, non-canonical autophagy pathway used for xenophagy, during bacterial but not lipopolysaccharide infection. In contrast to DJ-1 deficient BMM challenged with lipopolysaccharide, DJ-1 deficient BMM exposed to intact bacteria showed enhanced Rubicon complexing with Beclin-1 and UVRAG and consistently facilitated the assembly of complete autophagolysosomes that were decorated with LC3 molecules. Our data shows DJ-1 impairs or/and delays bacterial clearance and late autophagolysosome formation by binding to Rubicon resulting in Rubicon degradation, decreased L3C-associated phagocytosis, and decreased bacterial clearance in vitro and in vivo - implicating Rubicon and DJ-1 as critical regulators of bacterial clearance in experimental sepsis.

AB - The ability to effectively clear infection is fundamental to host survival. Sepsis, defined as dysregulated host response to infection, is a heterogenous clinical syndrome that does not uniformly clear intact bacterial or sterile infection (i.e., lipopolysaccharide). These findings were further associated with increased survival in DJ-1 deficient animals exposed to intact bacteria relative to DJ-1 deficient challenged with lipopolysaccharide. We analyzed bacterial and lipopolysaccharide clearance in bone marrow macrophages (BMM) cultured ex vivo from wild-type and DJ-1 deficient mice. Importantly, we demonstrated that DJ-1 deficiency in BMM promotes Rubicon-dependent increase in L3C-associated phagocytosis, non-canonical autophagy pathway used for xenophagy, during bacterial but not lipopolysaccharide infection. In contrast to DJ-1 deficient BMM challenged with lipopolysaccharide, DJ-1 deficient BMM exposed to intact bacteria showed enhanced Rubicon complexing with Beclin-1 and UVRAG and consistently facilitated the assembly of complete autophagolysosomes that were decorated with LC3 molecules. Our data shows DJ-1 impairs or/and delays bacterial clearance and late autophagolysosome formation by binding to Rubicon resulting in Rubicon degradation, decreased L3C-associated phagocytosis, and decreased bacterial clearance in vitro and in vivo - implicating Rubicon and DJ-1 as critical regulators of bacterial clearance in experimental sepsis.

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U2 - 10.1038/s41418-022-00993-2

DO - 10.1038/s41418-022-00993-2

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SN - 1350-9047

JO - Cell Death and Differentiation

JF - Cell Death and Differentiation

ER -

DJ-1 binds to Rubicon to Impair LC-3 Associated Phagocytosis

Abstract

Bibliographical note

ASJC Scopus Subject Areas

PubMed: MeSH publication types

Access to Document

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