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Tick hemocytes have a pleiotropic role in microbial infection and arthropod fitness.

Agustin RolandelliHanna J Laukaitis-YouseyHaikel N BogaleNisha SinghSourabh SamaddarAnya J O'NealCamila Rodrigues FerrazMatthew ButnaruEnzo MameliBaolong XiaMaria Tays MendesL Rainer ButlerLiron MarninFrancy E Cabrera PazLuisa M ValenciaVipin S RanaCiaran SkerryUtpal PalStephanie E MohrNorbert PerrimonDavid SerreJoao H F Pedra
Published in: Nature communications (2024)
Uncovering the complexity of systems in non-model organisms is critical for understanding arthropod immunology. Prior efforts have mostly focused on Dipteran insects, which only account for a subset of existing arthropod species in nature. Here we use and develop advanced techniques to describe immune cells (hemocytes) from the clinically relevant tick Ixodes scapularis at a single-cell resolution. We observe molecular alterations in hemocytes upon feeding and infection with either the Lyme disease spirochete Borrelia burgdorferi or the rickettsial agent Anaplasma phagocytophilum. We reveal hemocyte clusters exhibiting defined signatures related to immunity, metabolism, and proliferation. Depletion of phagocytic hemocytes affects hemocytin and astakine levels, two I. scapularis hemocyte markers, impacting blood-feeding, molting behavior, and bacterial acquisition. Mechanistically, astakine alters hemocyte proliferation, whereas hemocytin affects the c-Jun N-terminal kinase (JNK) signaling pathway in I. scapularis. Altogether, we discover a role for tick hemocytes in immunophysiology and provide a valuable resource for comparative biology in arthropods.
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