Abstract
The medical and veterinary public health importance of ticks and tick-borne pathogens is increasing due to the expansion of the geographic ranges of both ticks and pathogens, increasing tick populations, growing incidence of tick-borne diseases, emerging tick transmitted pathogens, and continued challenges of achieving effective and sustained tick control. The past decades show an increasing interest in the immune-mediated control of tick infestations and pathogen transmission through the use of vaccines. Bovine tick resistance induced by repeated infestations was reported over a century ago. This review addresses the phenomena and immunological underpinning of resistance to tick infestation by livestock and laboratory animals; the scope of tick countermeasures to host immune defenses; and the impact of genomics, functional genomics, and proteomics on dissecting complex tick–host–pathogen interactions. From early studies utilizing tick tissue extracts to salivary gland derived molecules and components of physiologically important pathways in tick gut and other tissues, an increased understanding of these relationships, over time, impacted the evolution of anti-tick vaccine antigen selection. Novel antigens continue to emerge, including increased interest in the tick microbiome. Anti-tick and transmission blocking vaccines targeting pathogen reservoirs have the potential to disrupt enzootic cycles and reduce human, companion, domestic animal, and wildlife exposure to infected ticks.
Highlights
Among the arthropod disease vectors, ticks transmit the greatest variety of infectious agents to companion and domestic animals, wildlife, and humans [1]
This response pattern indicates that tick bite sites of humans would contain basophil mediators associated with pruritis as well as the emerging and diverse roles that basophils play in immune responses [105,106,107]
Basophil Response of Acquired Resistance. Both mast cell and basophil infiltrations have been documented in tick bites; several studies have shown that basophil influxes and derived mediators at tick attachment sites are integral to the phenomena of acquired host resistance to infestation (Table 3)
Summary
Among the arthropod disease vectors, ticks transmit the greatest variety of infectious agents to companion and domestic animals, wildlife, and humans [1]. Acquired bovine resistance to Rhipicephalus (Boophilus) microplus larval infestation was associated with cutaneous allergic hypersensitivity that resulted in reduced tick engorgement weight, development of fewer adult ticks, and smaller egg masses [44]. The importance of pruritus was determined by studying the relationship among tick feeding, host acquired tick resistance, and itch responses for cattle infested with Rhipicephalus (Boophilus) microplus [44,65,66,67,69]. Human hypersensitivity to tick bite correlates with reduced incidence of tick-borne infections
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