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Complement serves as a switch between CD4+ T cell–independent and –dependent RBC antibody responses
Amanda Mener, Seema R. Patel, Connie M. Arthur, Satheesh Chonat, Andreas Wieland, Manjula Santhanakrishnan, Jingchun Liu, Cheryl L. Maier, Ryan P. Jajosky, Kathryn Girard-Pierce, Ashley Bennett, Patricia E. Zerra, Nicole H. Smith, Jeanne E. Hendrickson, Sean R. Stowell
Amanda Mener, Seema R. Patel, Connie M. Arthur, Satheesh Chonat, Andreas Wieland, Manjula Santhanakrishnan, Jingchun Liu, Cheryl L. Maier, Ryan P. Jajosky, Kathryn Girard-Pierce, Ashley Bennett, Patricia E. Zerra, Nicole H. Smith, Jeanne E. Hendrickson, Sean R. Stowell
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Research Article Hematology

Complement serves as a switch between CD4+ T cell–independent and –dependent RBC antibody responses

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Abstract

RBC alloimmunization represents a significant immunological challenge for patients requiring lifelong transfusion support. The majority of clinically relevant non-ABO(H) blood group antigens have been thought to drive antibody formation through T cell–dependent immune pathways. Thus, we initially sought to define the role of CD4+ T cells in formation of alloantibodies to KEL, one of the leading causes of hemolytic transfusion reactions. Unexpectedly, our findings demonstrated that KEL RBCs actually possess the ability to induce antibody formation independent of CD4+ T cells or complement component 3 (C3), two common regulators of antibody formation. However, despite the ability of KEL RBCs to induce anti-KEL antibodies in the absence of complement, removal of C3 or complement receptors 1 and 2 (CR1/2) rendered recipients completely reliant on CD4+ T cells for IgG anti-KEL antibody formation. Together, these findings suggest that C3 may serve as a novel molecular switch that regulates the type of immunological pathway engaged following RBC transfusion.

Authors

Amanda Mener, Seema R. Patel, Connie M. Arthur, Satheesh Chonat, Andreas Wieland, Manjula Santhanakrishnan, Jingchun Liu, Cheryl L. Maier, Ryan P. Jajosky, Kathryn Girard-Pierce, Ashley Bennett, Patricia E. Zerra, Nicole H. Smith, Jeanne E. Hendrickson, Sean R. Stowell

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Figure 6

C3 fixation levels correlate with anti-KEL antibody formation.

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C3 fixation levels correlate with anti-KEL antibody formation.
(A and B)...
(A and B) Baseline serum C3 levels were correlated to (A) anti-KEL IgM or (B) anti-KEL IgG in serum at 5 or 14 days (D5 or D14) after transfusion into WT B6 recipients. (C) Correlation between baseline serum C3 levels and C3 fixation on transfused KEL RBCs 5 days after transfusion. (D and E) Level of C3 fixation on transfused KEL RBCs correlated to (D) IgM or (E) IgG bound to transfused KEL RBCs 5 and 14 days after transfusion, respectively. (F and G) Correlation between baseline serum C3 levels and (F) IgM or (G) IgG binding to transfused KEL RBCs 5 and 14 days after transfusion, respectively. (H and I) Levels of C3 fixed on transfused KEL RBCs were correlated to (H) anti-KEL IgM or (I) anti-KEL IgG in serum at 5 and 14 days after transfusion, respectively. (J) Levels of C3 fixed on transfused KEL RBCs were correlated to anti-KEL IgG in serum at 14 days after transfusion into CD4+ T cell–depleted recipients. Statistics were generated using Spearman’s correlation test in all panels. There were 15 mice in each experimental group. All panels are representative of data from experiments reproduced 3 times. Positive correlations were observed for D (P < 0.0001), E (P < 0.05), H (P < 0.001), I (P < 0.001), and J (P < 0.05).

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