NADPH Oxidase Deficiency Regulates Th Lineage Commitment and Modulates Autoimmunity

Tse, Hubert M.; Thayer, Terri C.; Steele, Chad; Cuda, Carla M.; Morel, Laurence; Piganelli, Jon D.; Mathews, Clayton E.

doi:10.4049/jimmunol.1001472

Cited by 126 publications

(185 citation statements)

References 66 publications

(81 reference statements)

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“…Some investigators have argued for a critical role, in particular in later, effector processes (36)(37)(38), although others have cautioned about possible misinterpretations of findings from Th17 transfer experiments because of the conversion to or expansion of Th1 cells (39,40). In clear contradiction, IL-17-producing cells were found either to inhibit diabetes in NOD mice, as well as in BioBreeding rats, in several experimental contexts (41)(42)(43) or to have no effect (44). These divergent conclusions likely reflect multiple complexities: that different Th subsets may play variable roles according to the particular disease stage; that multiple cell types can produce IL-17; and that Th17 cells produce cytokines other than IL-17.…”

Section: Discussionmentioning

confidence: 91%

Naturally transmitted segmented filamentous bacteria segregate with diabetes protection in nonobese diabetic mice

Kriegel

Sefik

Hill

et al. 2011

Proc. Natl. Acad. Sci. U.S.A.

373

345

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Vertebrates typically harbor a rich gastrointestinal microbiota, which has coevolved with the host over millennia and is essential for several host physiological functions, in particular maturation of the immune system. Recent studies have highlighted the importance of a single bacterial species, segmented filamentous bacteria (SFB), in inducing a robust T-helper cell type 17 (Th17) population in the small-intestinal lamina propria (SI-LP) of the mouse gut. Consequently, SFB can promote IL-17-dependent immune and autoimmune responses, gut-associated as well as systemic, including inflammatory arthritis and experimental autoimmune encephalomyelitis. Here, we exploit the incomplete penetrance of SFB colonization of NOD mice in our animal facility to explore its impact on the incidence and course of type 1 diabetes in this prototypical, spontaneous model. There was a strong cosegregation of SFB positivity and diabetes protection in females, but not in males, which remained relatively disease-free regardless of the SFB status. In contrast, insulitis did not depend on SFB colonization. SFBpositive, but not SFB-negative, females had a substantial population of Th17 cells in the SI-LP, which was the only significant, repeatable difference in the examined T-cell compartments of the gut, pancreas, or systemic lymphoid tissues. Th17-signature transcripts dominated the very limited SFB-induced molecular changes detected in SI-LP CD4 + T cells. Thus, a single bacterium, and the gut immune system alterations associated with it, can either promote or protect from autoimmunity in predisposed mouse models, probably reflecting their variable dependence on different Th subsets.gender | microbiome | T lymphocyte | autoimmune disease

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Section: Discussionmentioning

confidence: 91%

Naturally transmitted segmented filamentous bacteria segregate with diabetes protection in nonobese diabetic mice

Kriegel

Sefik

Hill

et al. 2011

Proc. Natl. Acad. Sci. U.S.A.

373

345

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“…A small induction of ROS has been detected earlier in blood granulocytes of BQ.Ncf1 m1J/m1J mice [22], and residual PMA-induced ROS production was also observed in neutrophils and macrophages of NOD.Ncf1 m1J mice [7]. Combined with the observation that the mutant protein is completely defective in activating NOX2, we conclude that the small inducible ROS production is not dependent on p47phox but can be derived from NOX2 activated by other mechanisms or cellular sources other than the NOX2 complex.…”

Section: Discussionmentioning

confidence: 99%

“…The size of the detected p47phox protein corresponded to the mRNA splice variant, which lacked 24 nt in the beginning of Exon 8, and this mRNA variant was concluded to be the only one expressed as protein, although at very low levels. A similar low-level expression of p47phox has since been reported in bone marrow macrophages of NOD.Ncf1 m1J mice [7]. NOX2-derived ROS are multifaceted regulators of the immune system [8].…”

Section: Introductionmentioning

confidence: 88%

“…A spontaneous single intronic nucleotide change in mouse Ncf1 has been reported to lead to decreased ROS production [4], which is clearly reduced in Ncf1 m1J/m1J mice, irrespective of the genetic background [5][6][7], but it is not known whether NOX2-dependent ROS production is blocked completely or just decreased to a background level of ROS from other cellular sources.…”

Section: Introductionmentioning

confidence: 99%

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Identification of a region in p47phox/NCF1 crucial for phagocytic NADPH oxidase (NOX2) activation

Sareila

Jaakkola

Olofsson

et al. 2012

Journal of Leukocyte Biology

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A point mutation in the mouse Ncf1 m1J gene decreases production of ROS by the phagocytic NOX2 complex. Three mRNA splice variants are expressed, but only one is expressed as a protein, although at lower levels than the WT NCF1 (also known as p47phox). Our aim was to investigate whether the mutant p47phox, lacking 8 aa, is active, but as a result of its low expression, ROS production is decreased in Ncf1 m1J mice, or whether the mutant p47phox completely lacks the capability to activate the NOX2 complex. The p47phox mutant (⌬228 -235), which was equal to the protein in Ncf1 m1J mice, failed to activate the NOX2 complex. When the deleted region was narrowed down to 2 aa, the p47phox protein remained inactive and failed to translocate to the membrane upon activation. Single amino acid substitutions revealed Thr233 to be vital for ROS production. Residues Tyr231 and Val232 also seemed to be important for p47phox function, as p47phox_Y231G and p47phox_V232G resulted in a Ͼ50% decrease in ROS production by the NOX2 complex. In addition, we identified the epitope of the D-10 anti-p47phox mAb. In conclusion, the p47phox protein variant expressed in Ncf1 m1J mice is completely defective in activating the NOX2 complex to produce ROS, and the effect is dependent on SH3 region amino acids at positions 231-233, which are vital for the proper assembly of the NOX2 complex.

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“…In parallel, using NADPH oxidase deficient NOD mice, Tse et al showed that the lack of NADPH oxidase resulted in protection against T1D. The mechanism involved in this protection was the polarization of T cells to Th17 phenotype instead of Th1 pattern in NOD mice NADPH oxidase deficient, suggesting that Th1 cells are more pathogenic than Th17 cells in promoting T1D [78].…”

Section: A Protective Role Of Th17 Cells/il-17 In Experimental T1d Dementioning

confidence: 99%

Th17 cell-Mediated Responses in Type 1 Diabetes Pathogenesis

J.N.U¹

2013

J Clin Cell Immunol

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Type 1 diabetes (T1D) is an autoimmune disease characterized by a selective destruction of insulin-producing pancreatic beta cells. In general, Th1 cytokines are involved in the development of autoimmune diseases, whereas Th2 and regulatory cytokines result in disease prevention. More recently, a new population of IL-17-producing CD4+ T cells has been proposed to represent a distinct T helper cell lineage, named Th17 cells. Th17 cells are critically involved in the development of many autoimmune diseases; however, the exact role of this T cell subset in T1D pathogenesis remains controversial. Here, we review the conflicting evidences about a possible participation of Th17 cells in T1D development and progression, both in diabetic patients and experimental diabetes models.

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NADPH Oxidase Deficiency Regulates Th Lineage Commitment and Modulates Autoimmunity

Cited by 126 publications

References 66 publications

Naturally transmitted segmented filamentous bacteria segregate with diabetes protection in nonobese diabetic mice

Naturally transmitted segmented filamentous bacteria segregate with diabetes protection in nonobese diabetic mice

Identification of a region in p47phox/NCF1 crucial for phagocytic NADPH oxidase (NOX2) activation

Th17 cell-Mediated Responses in Type 1 Diabetes Pathogenesis

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