Generation of plasma cells and CD27

Objective Human hantavirus infections can cause haemorrhagic fever with renal syndrome (HFRS). The pathogenic mechanisms are not fully understood, nor if they affect the humoral immune system. The objective of this study was to investigate humoral immune responses to hantavirus infection and to correlate them to the typical features of HFRS: thrombocytopenia and transient kidney dysfunction. Methods We performed a comprehensive characterisation of longitudinal antiviral B‐cell responses of 26 hantavirus patients and combined this with paired clinical data. In addition, we measured extracellular adenosine triphosphate (ATP) and its breakdown products in circulation and performed in vitro stimulations to address its effect on B cells. Results We found that thrombocytopenia was correlated to an elevated frequency of plasmablasts in circulation. In contrast, kidney dysfunction was indicative of an accumulation of CD27−IgD− B cells and CD27−/low plasmablasts. Finally, we provide evidence that high levels of extracellular ATP and matrix metalloproteinase 8 can contribute to shedding of CD27 during human hantavirus infection. Conclusion Our findings demonstrate that thrombocytopenia and kidney dysfunction associate with distinctly different effects on the humoral immune system. Moreover, hantavirus‐infected individuals have significantly elevated levels of extracellular ATP in circulation.
We show a comprehensive study to correlate two pathologies associated with haemorrhagic fever with renal syndrome (HFRS), thrombocytopenia and kidney dysfunction, with changes in the circulating B‐cell compartment (cells and antibodies). We show that thrombocytopenia is associated with mobilization of both activated and resting plasmablasts and plasma cells in circulation. However, the level of kidney dysfunction associated with longitudinal development of neutralizing antibodies in patients and associated with the reduction of surface CD27 expression on both plasmablasts and B cells in circulation. The low CD27 expression might be explained by elevated levels of ATP that could contribute to shedding of CD27 from B cells by a MMP‐8‐dependent mechanism.