Microsporidia Ser/Thr Protein Phosphatase PP1 Targets DCs MAPK Pathway and Impairs Immune Functions

Microsporidia are difficult to completely eliminate. Their persistence may disrupt host cell functions. Here in this study, we aimed to elucidate the impairing effects and consequences of microsporidia infection upon dendritic cells (DCs). We used the zoonotic microsporidia species, Enterocytozoon hellem, in our studies. In vivo experiments showed that E. hellem-infected mice were more susceptible to further pathogenic challenges. DCs were identified as the most affected group of cells. In vitro assays revealed that E. hellem infection impaired the immune functions of DCs as reflected by down-regulation of cytokine expression, lower extent of maturation and antigen presentation. E. hellem infection decreased the ability of DCs to prime and stimulate T cells, thereby hampering host immune cell functions. We further demonstrate that E. hellem Ser/Thr protein phosphatase PP1 directly interacts with host p38(MAPK14) to manipulate the p38 (MAPK14)/NFAT-5 axis of the MAPK pathway. Our study is the first to elucidate the molecular mechanisms of the impairing effects of microsporidia on host DCs immune functions. The emerging of microsporidiosis may be great threat to public health. HighlightsO_LIPersistence of Microsporidia within host impairs dendritic cell functions such as phagocytosis, maturation, antigen presentation and T cell priming, thereby disrupting both innate and adaptive immunities and making the host more vulnerable to secondary infections C_LIO_LIMicrosporidia impairs DCs function via Serine/Threonine Protein Phosphatase PP1 directly targeting DCs p38/MAPK pathway C_LIO_LILatent Microsporidia infection and persistence is a great threat to public health when assessing acute and emerging pathogen risk C_LI