Shawna McLetchie scite author profile

Cells utilize multiple autophagy pathways to sequester macromolecules, senescent organelles, and pathogens. Several conserved isoforms of the lysosome-associated membrane protein (LAMP)-2 regulate these pathways influencing immune recognition and responses. LAMP-2A is required for chaperone-mediated autophagy (CMA) which promotes Ag capture and MHC class II (MHCII) presentation in B cells and signaling in T cells. LAMP-2B regulates lysosome maturation to impact macroautophagy (MA) and phagocytosis. Yet, far less is known about LAMP-2C function. While LAMP2A and LAMP2B mRNA were broadly detected in human tissues, LAMP2C expression was more limited. Transcripts for the three LAMP2 isoforms increased with B cell activation, although specific gene induction varied depending on TLR versus BCR engagement. To examine LAMP-2C function in human B cells and specifically its role in Ag presentation, ectopic gene expression was used. Increased LAMP-2C expression in B cells did not alter MHCII expression or invariant chain processing, but did perturb cytoplasmic Ag presentation via CMA. MHCII presentation of epitopes from exogenous and membrane Ags was not affected by LAMP-2C expression in B cells. Similarly, changes in B cell LAMP-2C expression did not impact MA. The gene expression of other LAMP2 isoforms as well as the proteasome and lysosomal proteases activities were unperturbed by LAMP-2C ectopic expression. LAMP-2C levels modulated the steady-state expression of several cytoplasmic proteins which are targeted for degradation by CMA and diminished peptide translocation via this pathway. Thus, LAMP-2C serves as a natural inhibitor of CMA which can selectively skew MHCII presentation of cytoplasmic Ags.

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A Role for NADPH Oxidase in Antigen Presentation

Gardiner¹,

Deffit²,

McLetchie³

et al. 2013

Front. Immunol.

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The nicotinamide adenine dinucleotide phosphate (NADPH) oxidase expressed in phagocytes is a multi-subunit enzyme complex that generates superoxide (O2.−). This radical is an important precursor of hydrogen peroxide (H2O2) and other reactive oxygen species needed for microbicidal activity during innate immune responses. Inherited defects in NADPH oxidase give rise to chronic granulomatous disease (CGD), a primary immunodeficiency characterized by recurrent infections and granulomatous inflammation. Interestingly, CGD, CGD carrier status, and oxidase gene polymorphisms have all been associated with autoinflammatory and autoimmune disorders, suggesting a potential role for NADPH oxidase in regulating adaptive immune responses. Here, NADPH oxidase function in antigen processing and presentation is reviewed. NADPH oxidase influences dendritic cell (DC) crosspresentation by major histocompatibility complex class I molecules through regulation of the phagosomal microenvironment, while in B lymphocytes, NADPH oxidase alters epitope selection by major histocompatibility complex class II molecules.

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Hyper‐responsive Toll‐like receptor 7 and 9 activation in NADPH oxidase‐deficient B lymphoblasts

et al. 2015

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SummaryChronic granulomatous disease (CGD) is an inherited immunodeficiency linked with mutations in the multi-subunit leucocyte NADPH oxidase. Myeloid-derived phagocytic cells deficient in NADPH oxidase fail to produce sufficient levels of reactive oxygen species to clear engulfed pathogens. In this study we show that oxidase also influences B-cell functions, including responses to single-stranded RNA or unmethylated DNA by endosomal Toll-like receptors (TLRs) 7 and 9. In response to TLR7/9 ligands, B-cell lines derived from patients with CGD with mutations in either the NADPH oxidase p40 phox or p47 phox subunits produced only low levels of reactive oxygen species. Remarkably, cytokine secretion and p38 mitogen-activated protein kinase activation by these oxidase-deficient B cells was significantly increased upon TLR7/9 activation when compared with oxidase-sufficient B cells. Increased TLR responsiveness was also detected in B cells from oxidase-deficient mice. NADPH oxidase-deficient patient-derived B cells also expressed enhanced levels of TLR7 and TLR9 mRNA and protein compared with the same cells reconstituted to restore oxidase activity. These data demonstrate that the loss of oxidase function associated with CGD can significantly impact B-cell TLR signalling in response to nucleic acids with potential repercussions for auto-reactivity in patients.

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Hyper-responsive TLR7 and TLR9 activation in NADPH oxidase-deficient human B cells (HUM1P.272)

McLetchie

Gardiner

Blum

2015

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Chronic Granulomatous Disease (CGD) is an inherited immunodeficiency linked with mutations in the multi-component leukocyte NADPH oxidase. Phagocytic cells deficient in NADPH oxidase fail to produce sufficient levels of the reactive oxygen species (ROS) necessary to clear engulfed pathogens. Though the hyperactive immune response associated with CGD is widely described in phagocytes, the effects of oxidase-deficiency on B cell functions has not been well studied. In B cells, recognition of microbial single-stranded RNA or unmethylated DNA by intracellular toll-like receptors (TLR) 7 and 9, respectively leads to NADPH oxidase derived ROS production. Here, studies demonstrate hyperactive responses to endosomal TLR stimulation in B cell lines derived from patients with mutations in either the p40phox or p47phox subunits of the NADPH oxidase which compromise its function. NADPH oxidase-deficient B cell lines expressed enhanced levels of TLR7 and TLR9 mRNA compared to cells reconstituted to restore oxidase activity. TLR7/9 stimulation of oxidase-deficient B cells resulted in greater cytokine production and p38 MAP kinase activation than oxidase-sufficient B cells. These data are consistent with the autoimmune predisposition associated with CGD and suggest that B cells may also contribute to hyperactive immune responses detected in individuals with CGD.

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