Abstract
Antibody-mediated parasite killing is considered the most effective host immune response against extracellular trypanosome parasites. However, due to host-parasite co-evolution pressure, these parasites have “learned” how to hijack the host immune system via the development of immune evasion strategies. Hereby they prevent elimination and promote transmission. In the past, our group has shown that African trypanosome parasites are able to “shut down” the host B cell compartment, via the abolishment of the homeostatic B cell compartment. In line with this, we have reported that trypanosome infections result in detrimental outcomes on auto-reactive and cancer B cells. To unravel the immune mechanisms involved in these processes we adopted here a well-defined B cell vaccine model, i.e. the thymo-dependent hapten-carrier NP-CGG (4-Hydroxy-3-nitrophenylacetyl-Chicken Gamma Globulin) emulsified in Alum adjuvant. Results show that T. brucei infections abrogate the circulating titres of vaccine-induced CGG-specific as well as NP-specific IgG1+ antibodies, a hallmark of memory B cell responses in this model. This happens independently of their affinity and IFNɣ signalling. Next, we demonstrate that T. brucei infections also induce a decrease of anti-NP IgG3+ antibodies induced by the administration of NP coupled to Ficoll, a thymo-independent antigen. Confirming the non-specificity of the infection-associated immunopathology, this report also shows that trypanosome infections abolish vaccine-induced memory response against malaria parasite in BALB/c mice. Together, these data indicates that T. brucei infections impair every stages of B cell development, including effector plasma B cells, independently of their specificity and affinity as well as the host genetic background.
Highlights
Extracellular protozoan African trypanosomes (AT) parasites are the causative agent of the Sleeping Sickness in humans and Nagana in cattle and livestock [1,2]
African trypanosomiasis is a fatal infectious disease caused by an extracellular parasite of the Trypanosoma brucei species affecting both human and livestock
The most effective immune response against this pathogen involves the production of antibodies by B cells
Summary
Extracellular protozoan African trypanosomes (AT) parasites are the causative agent of the Sleeping Sickness in humans and Nagana in cattle and livestock [1,2]. B cells start their development in the bone marrow from the common lymphoid progenitor stage, which further give rise to several developmental stages of pre-pro-B, pro-B, pre-B and eventually immature B cells [4]. At this stage, immature B cells migrate out of the bone marrow and arrive via the circulation in the spleen as transitional B cells. AT parasites are able to abolish B cell homeostasis in lymphoid organs, such as the bone marrow and spleen They cause the downregulation of detrimental B cell responses, e.g. autoimmune and malignant B cells [6,7,8]
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