Complement C3 and marginal zone B cells promote IgG-mediated enhancement of RBC alloimmunization in mice
Arijita Jash, … , Chance John Luckey, James C. Zimring
Arijita Jash, … , Chance John Luckey, James C. Zimring
Published April 15, 2024
Citation Information: J Clin Invest. 2024;134(8):e167665. https://doi.org/10.1172/JCI167665.
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Research Article Immunology

Complement C3 and marginal zone B cells promote IgG-mediated enhancement of RBC alloimmunization in mice

Abstract

Administration of anti-RhD immunoglobulin (Ig) to decrease maternal alloimmunization (antibody-mediated immune suppression [AMIS]) was a landmark clinical development. However, IgG has potent immune-stimulatory effects in other settings (antibody-mediated immune enhancement [AMIE]). The dominant thinking has been that IgG causes AMIS for antigens on RBCs but AMIE for soluble antigens. However, we have recently reported that IgG against RBC antigens can cause either AMIS or AMIE as a function of an IgG subclass. Recent advances in mechanistic understanding have demonstrated that RBC alloimmunization requires the IFN-α/-β receptor (IFNAR) and is inhibited by the complement C3 protein. Here, we demonstrate the opposite for AMIE of an RBC alloantigen (IFNAR is not required and C3 enhances). RBC clearance, C3 deposition, and antigen modulation all preceded AMIE, and both CD4+ T cells and marginal zone B cells were required. We detected no significant increase in antigen-specific germinal center B cells, consistent with other studies of RBC alloimmunization that show extrafollicular-like responses. To the best of our knowledge, these findings provide the first evidence of an RBC alloimmunization pathway which is IFNAR independent and C3 dependent, thus further advancing our understanding of RBCs as an immunogen and AMIE as a phenomenon.

Authors

Arijita Jash, Thomas Pridmore, James B. Collins, Ariel M. Hay, Krystalyn E. Hudson, Chance John Luckey, James C. Zimring

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Figure 1

General experimental design.

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General experimental design. General schema of the experimental design u...
General schema of the experimental design used throughout this study. For IgG2c-induced AMIE, anti-Kpb (α-Kpb) was infused 2 hours prior to transfusion. Transfusion consisted of DiO-labeled KEL-K2lo RBCs mixed at a 1:1 ratio with transgenic mCherry–expressing RBCs. Blood samples were taken at the indicated time points. Serum was analyzed for anti-KEL IgM and anti-KEL IgG, while RBCs were monitored for post-transfusion survival, antibody binding to the RBC, antigen modulation, and C3 deposition (methods for each analysis are presented in subsequent sections; Figures 24, Figure 6, A, B, D, and E, and Figure 7, B, C, E, and F). Representative flow cytometric plots are shown to indicate the empty gates in untransfused (naive) mice and the visualized DiO+ and mCherry+ cell populations in transfusion recipients. This figure was prepared with BioRender.com.