Divergent stage-specific regulation of neutrophil function by glucose transporter 1 in murine antibody-mediated glomerulonephritis
Hossein Rahimi, Wonseok Choi, Doureradjou Peroumal, Shuxia Wang, Partha S. Biswas
Hossein Rahimi, Wonseok Choi, Doureradjou Peroumal, Shuxia Wang, Partha S. Biswas
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Research Article Immunology Inflammation Nephrology

Divergent stage-specific regulation of neutrophil function by glucose transporter 1 in murine antibody-mediated glomerulonephritis

Abstract

Prolonged and dysregulated neutrophilic inflammation causes tissue damage in chronic inflammatory diseases, including antibody-mediated glomerulonephritis (AGN). An increase in glycolysis, supported by enhanced glucose uptake, is a hallmark of hyperneutrophilic inflammation. Neutrophils upregulate glucose transporter 1–mediated (Glut1-mediated) glucose incorporation for renal antimicrobial activities. However, little is known about the role of neutrophil-specific Glut1 function in the pathogenesis of AGN. Using a well-vetted mouse model of AGN, we show that neutrophils upregulate Glut1 expression and function in the nephritic kidney. We demonstrate that Glut1 function in the hematopoietic cells during the early stage of the disease is necessary for kidney pathology. Most importantly, neutrophil-intrinsic Glut1 function is critical for AGN. While neutrophil-specific Glut1 ablation diminished the expression of tissue-damaging effector molecules in both the early and late stages, renal cytokines’ and chemokines’ production were compromised only in the late stage of the disease. Consequently, Glut1 inhibitor treatment ameliorated renal pathology in AGN mice. These data identify a Glut1-driven inflammatory circuit in neutrophils, which is amenable to therapeutic targeting in AGN.

Authors

Hossein Rahimi, Wonseok Choi, Doureradjou Peroumal, Shuxia Wang, Partha S. Biswas

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Figure 2

Glut1 plays a role in the pathogenesis of AGN.

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Glut1 plays a role in the pathogenesis of AGN. (A) Schematic diagram of ...
(A) Schematic diagram of the experimental design. Briefly, ERT2Cre+ Slc2a1fl/fl and ERT2Cre– Slc2a1fl/fl mice were injected with tamoxifen (TAM) in corn oil for 4 consecutive days to delete the Slc2a1 gene before subjecting them to AGN. (B) Kidneys (n = 3) were evaluated for Glut1 expression following TAM injection by immunoblot analysis. Mice were assessed for serum (C) BUN and (D) creatinine levels following AGN. (E) Representative photographs of periodic acid–Schiff–stained (PAS-stained) renal histopathology of kidney sections. Data representative 1 of 5 mice/group. Renal pathology was blindly evaluated and scored for percentages of abnormal glomeruli, crescent formation, and tubular inflammation. Magnification: glomerular pathology: 600×; tubular inflammation: 400×. A small part (as indicated by dotted lines) of the original image was shown as inset panels. Black arrow: Bowman’s capsule detachment; black star: mesangial cell proliferation and slight increase in cellularity. (F) Schematic diagram of the experimental plan. ERT2Cre+ Slc2a1fl/fl and ERT2Cre– Slc2a1fl/fl mice were subjected to AGN. Mice received 4 consecutive injections of TAM during the early stage (days 0–3, relative to anti-GBM serum injection) or late stage (days 9–12, relative to anti-GBM serum injection) of the disease. Mice were evaluated for serum (G) BUN (n = 6) and (H) creatinine (n = 6) levels to measure kidney dysfunction. Data pooled from at least 2 independent studies (CE, G, and H). Representative image from 1 of 3 independent experiments (B). Each dot represents an individual mouse, and data are expressed as mean ± SD. Statistical analysis by 1-way ANOVA (BD, F, and G). *P < 0.05; **P < 0.01; ***P < 0.001; ****P < 0.0001.