Jenny A. Nguyen scite author profile

Jenny A. Nguyen

4Publications

53Citation Statements Received

401Citation Statements Given

How they've been cited

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284

393

Affiliations

University of Calgary

Publications

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Better Together: Current Insights Into Phagosome-Lysosome Fusion

Nguyen

Yates

2021

Front. Immunol.

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Following phagocytosis, the nascent phagosome undergoes maturation to become a phagolysosome with an acidic, hydrolytic, and often oxidative lumen that can efficiently kill and digest engulfed microbes, cells, and debris. The fusion of phagosomes with lysosomes is a principal driver of phagosomal maturation and is targeted by several adapted intracellular pathogens. Impairment of this process has significant consequences for microbial infection, tissue inflammation, the onset of adaptive immunity, and disease. Given the importance of phagosome-lysosome fusion to phagocyte function and the many virulence factors that target it, it is unsurprising that multiple molecular pathways have evolved to mediate this essential process. While the full range of these pathways has yet to be fully characterized, several pathways involving proteins such as members of the Rab GTPases, tethering factors and SNAREs have been identified. Here, we summarize the current state of knowledge to clarify the ambiguities in the field and construct a more comprehensive phagolysosome formation model. Lastly, we discuss how other cellular pathways help support phagolysosome biogenesis and, consequently, phagocyte function.

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Macrophages disseminate pathogen associated molecular patterns through the direct extracellular release of the soluble content of their phagolysosomes

et al. 2022

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Recognition of pathogen-or-damage-associated molecular patterns is critical to inflammation. However, most pathogen-or-damage-associated molecular patterns exist within intact microbes/cells and are typically part of non-diffusible, stable macromolecules that are not optimally immunostimulatory or available for immune detection. Partial digestion of microbes/cells following phagocytosis potentially generates new diffusible pathogen-or-damage-associated molecular patterns, however, our current understanding of phagosomal biology would have these molecules sequestered and destroyed within phagolysosomes. Here, we show the controlled release of partially-digested, soluble material from phagolysosomes of macrophages through transient, iterative fusion-fission events between mature phagolysosomes and the plasma membrane, a process we term eructophagy. Eructophagy is most active in proinflammatory macrophages and further induced by toll like receptor engagement. Eructophagy is mediated by genes encoding proteins required for autophagy and can activate vicinal cells by release of phagolysosomally-processed, partially-digested pathogen associated molecular patterns. We propose that eructophagy allows macrophages to amplify local inflammation through the processing and dissemination of pathogen-or-damage-associated molecular patterns.

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Eructophagy: macrophages use autophagic machinery to burp out parts of their meal

2022

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Multiplexed Phagosomal Assays for the Detection and Quantification of Bidirectional Exchange Between the Phagolysosomal Lumen and Extracellular Space

Nguyen

Greene

Cheung

et al. 2023

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Jenny A. Nguyen

Better Together: Current Insights Into Phagosome-Lysosome Fusion

Macrophages disseminate pathogen associated molecular patterns through the direct extracellular release of the soluble content of their phagolysosomes

Eructophagy: macrophages use autophagic machinery to burp out parts of their meal

Multiplexed Phagosomal Assays for the Detection and Quantification of Bidirectional Exchange Between the Phagolysosomal Lumen and Extracellular Space

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