Echinococcus multilocularis: Inflammatory and regulatory chemokine responses in patients with progressive, stable and cured alveolar echinococcosis

Abstract

The progressive growth of Echinococcus multilocularis metacestodes and their tissue infiltration will cause organ malfunction and finally failure. In few patients, E. multilocularis metacestode proliferation will spontaneously regress, but little is known about the determinants which may restrain metacestode survival and growth. In this study, chemokine responses were investigated in E. multilocularis patients at different states of infection, i.e. with progressive, stable and cured alveolar echinococcosis (AE). Characteristic chemokine profiles and changes in their production were observed in AE patients and infection-free controls when their peripheral blood cells were cultured with E. multilocularis antigens. The production of CC and CXC chemokines which associate with inflammation (MIP-1α/CCL3, MIP-1β/CCL4, RANTES/CCL5 and GRO-α/CXCL1) was constitutively larger in AE patients than in controls; and the elevated chemokine releases were equal in patients with progressive, stable or cured AE . Cluster analyses identified three distinct chemokine response profiles; chemokines were enhanced, depressed or produced in similar quantities in AE patients and controls. A disparate cellular responsiveness was observed in AE patients to viable E. multilocularis vesicles; cluster 1 (GRO-α/CXCL1, MCP-3/CCL7, MCP-4/CCL13, TARC/CCL17, LARC/CCL20) and cluster 2 chemokines (PARC/CCL18, MDC/CCL22, MIG/CXCL9) were clearly diminished, while cluster 3 chemokines (MIP-1α/CCL3, MIP-1β/CCL4, RANTES/CCL5) augmented. The increased production of inflammatory chemokines in patients even with cured AE could be induced by residual E. multilocularis metacestode lesions which continuously stimulate production of inflammatory chemokines. E. multilocularis metacestodes also suppressed cellular chemokine production in AE patients, and this may constitute an immune escape mechanism which reduces inflammatory host responses, prevents tissue destruction and organ damage, but may also facilitate parasite persistence.