Myeloid cell evolution uncovered by shrimp immune cell analysis at single-cell resolution

Abstract

How myeloid cells evolved from invertebrate to vertebrate is still a mystery. Here we collected circulating hemocytes from a marine invertebrate-Penaeus vannamei via gradient centrifugation and identified prohemocyte, monocytic hemocyte and granulocyte as three major types of cells in shrimp hemolymph by single-cell mRNA sequencing. Additional pseudotime trajectory analysis revealed that shrimp monocytic hemocytes and granulocytes were differentiated from a common progenitor which was similar with that of human myeloid cells. More interestingly, we identified that MH2, a terminal differentiated monocytic hemocyte, was a macrophage-like phagocytic cell which could engulf fluorescein labelled Vibrio parahaemolyticus and shared nine marker genes including inflammasome components Nlrp3 and Casp1 with human macrophage. After that, we compared our classification with traditional shrimp hemocytes classification and found that hyalinocyte included both prohemocyte and monocytic hemocyte while semi-granulocyte included both monocytic hemocyte and granulocyte. In general, our results redefine shrimp hemocyte classification based on functional marker genes and unveil evolutionary trace of myeloid cells in marine invertebrate.