Antibodies control metabolism by regulating insulin homeostasis

Author:

Amendt Timm,Allies Gabriele,Nicolò Antonella,El Ayoubi Omar,Young Marc,Röszer Tamás,Setz Corinna S.,Warnatz Klaus,Jumaa Hassan

Abstract

SummaryHomeostasis of metabolism by hormone production is crucial to maintain physiological integrity and disbalance can cause severe metabolic disorders such as diabetes mellitus. Here, we show that antibodies recognizing insulin are key regulators of blood glucose and metabolism controlling insulin concentrations. In fact, antibody-deficient mice and immunodeficiency patients show sub-physiological blood glucose, which becomes normal after total IgG injection. We show that insulin-specific IgG antibodies found in the serum of wildtype mice or healthy individuals are responsible for this regulation. Interestingly, we identify two fractions of anti-insulin IgM which differ in their affinity to insulin. The low affinity IgM fraction (anti-insulin IgMlow) neutralizes insulin and leads to increased blood glucose while the high affinity IgM fraction (anti-insulin IgMhigh) protects insulin from neutralization by anti-insulin IgG thereby preventing blood glucose dysregulation. In contrast to anti-insulin IgMhigh, anti-insulin IgMlow binds to dsDNA suggesting that it is multi-specific. This multi-specificity mediates the formation of larger immune complexes containing insulin which results in increased uptake and degradation of insulin by macrophages in the presence of anti-insulin IgMlow as compared to anti-insulin IgMhigh. To demonstrate that high affinity anti-insulin IgM acts as protector of insulin and counteracts insulin neutralization by anti-insulin IgG, we expressed the variable regions of the same anti-insulin antibody as IgG or IgM. Strikingly, only the anti-insulin IgM regulated insulin function and prevented IgG-mediated neutralization of insulin and subsequent blood glucose dysregulation. Since anti-insulin IgMhigh is generated in the course of an immune response and affinity maturation, its protective role suggests that preventing autoimmune damage and maintaining physiological homeostasis requires adaptive tolerance mechanisms that generate protective IgM antibodies during memory responses.

Publisher

Cold Spring Harbor Laboratory

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