Abstract
AbstractTrypanosoma brucei, an etiological agent of African trypanosomiasis, colonizes the interstitial spaces of the adipose tissue in disproportionately high numbers, inducing a robust local immune response. Loss of body weight, including loss of adipose mass, is a hallmark symptom of African trypanosomiasis. Nevertheless, it is unclear which molecular mechanisms drive this loss of adipose mass and in turn whether it contributes to pathology. Here we show that lipolysis is activated early in infection in adipose tissue ofT. brucei-infected mice. This activation is dependent on immune activation, as mice deficient for both B and T lymphocytes failed to upregulated adipocyte lipolysis upon infection and retained higher fat mass. Genetic ablation of the rate limiting adipose triglyceride lipase specifically from adipocytes in mice (AdipoqCre/+-Atglfl/fl) prevented the upregulation of adipocyte lipolysis during infection, leading to reduced loss of fat mass and adipocyte volume. Surprisingly infectedAdipoqCre/+-Atglfl/flmice succumbed earlier to infection and presented a higher parasite burden in the gonadal adipose tissue, indicating that lipolysis limits the growth of the parasite population. Collectively, this work provides molecular mechanistic insight into the loss of fat mass in African trypanosomiasis and identifies adipocyte lipolysis as a host-protective mechanism during aT. bruceiinfection.
Publisher
Cold Spring Harbor Laboratory