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TNFRSF13B genotypes control immune-mediated pathology by regulating the functions of innate B cells
Mayara Garcia de Mattos Barbosa, Adam R. Lefferts, Daniel Huynh, Hui Liu, Yu Zhang, Beverly Fu, Jenna Barnes, Milagros Samaniego, Richard J. Bram, Raif S. Geha, Ariella Shikanov, Eline T. Luning Prak, Evan A. Farkash, Jeffrey L. Platt, Marilia Cascalho
Mayara Garcia de Mattos Barbosa, Adam R. Lefferts, Daniel Huynh, Hui Liu, Yu Zhang, Beverly Fu, Jenna Barnes, Milagros Samaniego, Richard J. Bram, Raif S. Geha, Ariella Shikanov, Eline T. Luning Prak, Evan A. Farkash, Jeffrey L. Platt, Marilia Cascalho
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Research Article Genetics Inflammation

TNFRSF13B genotypes control immune-mediated pathology by regulating the functions of innate B cells

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Abstract

Host genes define the severity of inflammation and immunity but specific loci doing so are unknown. Here we show that TNF receptor superfamily member 13B (TNFRSF13B) variants, which enhance defense against certain pathogens, also control immune-mediated injury of transplants, by regulating innate B cells’ functions. Analysis of TNFRSF13B in human kidney transplant recipients revealed that 33% of those with antibody-mediated rejection (AMR) but fewer than 6% of those with stable graft function had TNFRSF13B missense mutations. To explore mechanisms underlying aggressive immune responses, we investigated alloimmunity and rejection in mice. Cardiac allografts in Tnfrsf13b-mutant mice underwent early and severe AMR. The dominance and precocity of AMR in Tnfrsf13b-deficient mice were not caused by increased alloantibodies. Rather, Tnfrsf13b mutations decreased “natural” IgM and compromised complement regulation, leading to complement deposition in allografted hearts and autogenous kidneys. Thus, WT TNFRSF13B and Tnfrsf13b support innate B cell functions that limit complement-associated inflammation; in contrast, common variants of these genes intensify inflammatory responses that help clear microbial infections but allow inadvertent tissue injury to ensue. The wide variation in inflammatory reactions associated with TNFRSF13B diversity suggests polymorphisms could underlie variation in host defense and explosive inflammatory responses that sometimes enhance morbidity associated with immune responses.

Authors

Mayara Garcia de Mattos Barbosa, Adam R. Lefferts, Daniel Huynh, Hui Liu, Yu Zhang, Beverly Fu, Jenna Barnes, Milagros Samaniego, Richard J. Bram, Raif S. Geha, Ariella Shikanov, Eline T. Luning Prak, Evan A. Farkash, Jeffrey L. Platt, Marilia Cascalho

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Figure 6

Tnfrsf13b controls immune and inflammatory injury.

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Tnfrsf13b controls immune and inflammatory injury.
(A) Native kidneys w...
(A) Native kidneys were harvested from naive mice (pre) or mice immunized with 5 × 107 BALB/c splenocytes and thymocytes by intraperitoneal injection (post). Glomerular C3d deposits were identified with anti–mouse C3d immunostaining in frozen native kidney sections pre- or 8 days after allogeneic stimulation. The dashed outline represents the glomeruli area as identified with aid of the tissue green autofluorescence and the differential interference contrast in stacked images. Scale bar: 25 μm. Graphs show mean ± SEM calculated from analysis of 5–7 fields with 3 or more glomeruli per mouse per group. Open shapes represent data from naive mice (pre), and filled shapes represent data of mice 8 days postimmunization (post). (B and C) Blood samples were collected from patients who underwent kidney transplantation. The patients’ TNFRSF13B gene exons were sequenced, and the patients were classified according to the absence or presence of missense mutations, as TNFRSF13B WT or mutant (MT), respectively, independently of transplantation outcome (B) or according to the transplant outcome (C). The concentrations of natural LPS-binding IgM and C3 in sera were measured by ELISA. Graphs show mean ± SEM of 8–14 individuals per group. Kruskal-Wallis with Dunn’s multiple comparison test (A), Mann-Whitney test (B and C): *P ≤ 0.05; **P ≤ 0.01; ***P ≤ 0.001; in relation to WT control.

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