Tissue-specific localization of tick-borne pathogens in ticks collected from camels in Kenya: insights into vector competence

Khogali, Rua; Bastos, Armanda; Bargul, Joel L.; Getange, Dennis; Kabii, James; Masiga, Daniel; Villinger, Jandouwe

doi:10.3389/fcimb.2024.1382228

Front. Cell. Infect. Microbiol.

2024

DOI: 10.3389/fcimb.2024.1382228

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Tissue-specific localization of tick-borne pathogens in ticks collected from camels in Kenya: insights into vector competence

Rua Khogali,

Armanda Bastos,

Joel L. Bargul

et al.

Abstract: BackgroundTick-borne pathogen (TBP) surveillance studies often use whole-tick homogenates when inferring tick-pathogen associations. However, localized TBP infections within tick tissues (saliva, hemolymph, salivary glands, and midgut) can inform pathogen transmission mechanisms and are key to disentangling pathogen detection from vector competence.MethodsWe screened 278 camel blood samples and 504 tick tissue samples derived from 126 camel ticks sampled in two Kenyan counties (Laikipia and Marsabit) for Anapl… Show more

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Exploring the microbiomes of camel ticks to infer vector competence: Insights from tissue level symbiont-pathogen relationships

Khogali,

Bastos,

Getange

et al. 2024

Preprint

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Background Ticks are blood-feeding ectoparasites that harbor diverse pathogens and endosymbionts. Their microbial communities vary based on tick species, stage, sex, geographical location, surrounding environment, and tissue type. Understanding tick microbiota at the tissue level is crucial for unraveling how microbiomes are distributed in tick tissues and influence pathogen transmission. We used 16S rRNA gene sequencing to analyze tissue-specific bacterial compositions (hemolymph, saliva, salivary glands, and midgut) of Amblyomma gemma, Rhipicephalus pulchellus, Hyalomma dromedarii, and Hyalomma rufipes ticks collected from camels in Marsabit County, northern Kenya. Results The V1-V2 region of the 16S rRNA gene effectively differentiated Rickettsia africae and Rickettsia aeschlimannii from other rickettsial species, as well as Coxiella endosymbionts from Coxiella burnetii. In contrast, the V3-V4 region sequences of these species could not be clearly distinguished. Coxiella endosymbionts were most common in Am. gemma and Rh. pulchellus, while Francisella endosymbionts predominated in Hyalomma ticks; both were primarily localized in the salivary glands. High abundances of Coxiella endosymbionts, as well as Pseudomonas, were associated with the absence or low abundance of Rickettsia pathogens in both Am. gemma and Rh. pulchellus, suggesting competitive interactions between these microbes. Additionally, Proteus mirabilis, an opportunistic pathogen of the urinary tract in humans, was found predominantly in Hyalomma ticks, except for the salivary glands, which were most abundant with Francisella endosymbionts. Furthermore, we detected the Acinetobacter, Pseudomonas, and Corynebacterium genera in all the tick tissues, supporting the hypothesis that these bacteria might circulate between camel blood and ticks. Saliva and hemolymph generally harbored more extracellular bacteria than the salivary glands and midgut. Conclusions This study provides a new approach to unravel tick-endosymbiont-pathogen interactions by examining the tissue localization of tick-borne pathogens and symbionts in Am. gemma, Rh. pulchellus, Hy. dromedarii, and Hy. rufipes from camels in northern Kenya. Our findings establish a baseline for developing an understanding of the functional capacities of symbionts and for designing symbiont-based control strategies.

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Exploring the microbiomes of camel ticks to infer vector competence: Insights from tissue level symbiont-pathogen relationships

Khogali,

Bastos,

Getange

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

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Tissue-specific localization of tick-borne pathogens in ticks collected from camels in Kenya: insights into vector competence

Cited by 1 publication

References 88 publications

Exploring the microbiomes of camel ticks to infer vector competence: Insights from tissue level symbiont-pathogen relationships

Exploring the microbiomes of camel ticks to infer vector competence: Insights from tissue level symbiont-pathogen relationships

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