滴答声
免疫系统
免疫学
脂毒素
敏化
抗体
生物
病毒学
TRPV1型
瞬时受体电位通道
受体
生物化学
作者
Johannes S. P. Doehl,Tiago D. Serafim,Serena Doh,Charles S. Grugan,Eva Iniguez,Luana Aparecida Rogerio,Ronja Frigard,Ranadhir Dey,Pedro Cecílio,Xinglong Gu,Pang‐Yen Tseng,Aline da Silva Moreira,Mahnaz Minai,James Oristian,Hans Ackerman,Samuel H. Brooks,Caroline M. Percopo,S. Y. C. Ng,Derron A. Alves,Lucas Tirloni
出处
期刊:
[Cold Spring Harbor Laboratory]
日期:2025-08-28
被引量:1
标识
DOI:10.1101/2025.08.22.671835
摘要
Acquired tick resistance (ATR) is well characterized in tick-exposed animals, compromising tick fitness through antibody-mediated activation of basophils. Yet, anti-tick vaccines inducing ATR have had limited success. Here, we describe a neuroimmune event preceding ATR that leads to rapid host-mediated tick removal. Tick-sensitized guinea pigs mechanically remove ticks within 3-6 hours via an acquired neuroimmune-induced itch response that correlates with increased dermal expression of itch-associated genes like OSM and skin infiltration by T cells and macrophages, independently of IgG and IgE antibodies. When we expose humans to ticks, a similar immune response is observed. Blocking T cells before tick sensitization prevents immune cell infiltration to bite sites and abrogates scratching and tick removal. This neuroimmune response is independent of Trpv1 as tick-sensitized guinea pigs treated with resiniferatoxin remove ticks effectively. Itch-induced tick removal or IITR offers a novel approach to tick-borne disease prevention through early tick detection and removal.
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