Your search keyword '"Tick microbiome"' showing total 34 results

1. Role of Tick Commensal Bacteria in the Propagation of Emerging Infectious Diseases: Data Gaps and One Health Implications.

Author

Turaga, Uday and Presley, Steven M.

Subjects

EMERGING infectious diseases, INTRODUCED species, DOMESTIC animals, BACTERIAL diversity, VECTOR control, COMMENSALISM, ACARICIDES, TICK infestations

Abstract

Simple Summary: All active life stages of ticks require a blood meal, including the larvae, nymphs and adults. Critical data gaps exist regarding the role of and influence of commensal bacteria on the ability of ticks to acquire, maintain and transmit pathogens that cause disease in humans, domestic animals and wildlife. Two factors facilitating the role of ticks in maintaining and transmitting pathogens are their potential for the development of resistance to acaricides and the expansion of tick species into new geographic regions. Acaricide-resistant tick populations are less susceptible to chemicals used for vector control programs. Expansion of the geographic distribution of tick populations increases the likelihood of access to new host species, changes in the composition of their microbiome, as well as exposure to new pathogens indigenous to the new habitat. This review attempts to use existing evidence to identify data gaps pertaining to the role of commensal bacteria in enabling habitat expansion and the imparting acaricide resistance in tick populations. In tandem, this results in ticks propagating infectious diseases in new regions while resistant to vector control programs. This would result in an increase in the threat of tick-transmitted emerging infectious diseases, truly a significant One Health concern. Ticks are obligate hematophagous ectoparasites notorious for their role as vectors of pathogens that affect humans and animals, particularly relative to the propagation of emerging infectious diseases (EIDs). Two important factors facilitating the role of ticks in the propagation of EIDs are their potential for the development of resistance to acaricides and the expansion of nonindigenous tick species into new geographic regions. The acquisition of acaricide resistance enables tick populations to be less susceptible to vector control programs. Expansion of the geographic distribution of tick populations increases the likelihood of access to new host species as well as new pathogens. Understanding of the microbiome of ticks continues to evolve, providing critical insights into tick biology. The tick microbiome largely comprises endosymbionts, pathogenic organisms, and commensal bacteria. Endosymbionts are highly preserved and vertically transmitted in ticks from mother to offspring, and their role in the survival of ticks is well recognized. Similarly, the role of ticks as vectors of pathogens is well established. However, commensal bacteria in ticks are acquired from the environment and while ingesting a blood meal. Because many tick species spend most of their lifetime off the hosts, it can be assumed that the richness and diversity of commensal bacteria are highly variable and dependent on the ecosystem in which the tick exists. This mini-review identifies some of the critical data gaps relevant to the role of and influence of commensal bacteria on the vectorial capacity of ticks. As ticks move into new habitats, are locally acquired commensal bacteria playing a role in adaptation to the new habitat? Apart from the conventionally understood mechanisms of acaricide resistance in ticks, are the commensal bacteria influencing the development of acaricide resistance at the population level? [ABSTRACT FROM AUTHOR]

Published

2024

2. The Tick Microbiome: The "Other Bacterial Players" in Tick Biocontrol.

Author

Maldonado-Ruiz, Paulina

Subjects

IXODIDAE, IXODES scapularis, FOOD allergy, ARTHROPOD vectors, LYME disease, BACILLUS thuringiensis

Abstract

Hard ticks (family Ixodidae) are one of the most predominant arthropod disease vectors worldwide, second only to mosquitoes. In addition to harboring animal and human pathogens, ticks are known to carry a microbial community constituted of non-pathogenic organisms, which includes maternally inherited intracellular endosymbionts and other environmentally acquired extracellular microorganisms. These microbial communities, which include bacteria, viruses, protozoans, and fungi—with often commensal, mutualistic, or parasitic associations with the tick—comprise the tick microbiome, bacteria being the most studied community. Many bacterial taxa frequently reported in ticks include soil, plant, and animal-associated microbes, suggesting many are environmentally acquired, including members with known entomopathogenic potential, such as Bacillus thuringiensis, Bacillus spp., and Pseudomonas spp. It has been reported that microbial community composition can impact pathogen persistence, dissemination, and fitness in ticks. In the United States, Ixodes scapularis (northeast) and I. pacificus (west) are the predominant vectors of Borrelia burgdorferi, the causal agent of Lyme disease. Amblyomma americanum is another important tick vector in the U.S. and is becoming an increasing concern as it is the leading cause of alpha-gal syndrome (AGS, or red meat allergy). This condition is caused by tick bites containing the galactose alpha 1,3 galactose (alpha-gal) epitope in their saliva. In this paper, we present a summary of the tick microbiome, including the endosymbiotic bacteria and the environmentally acquired (here referred to as the non-endosymbiotic community). We will focus on the non-endosymbiotic bacteria from Ixodes spp. and Amblyomma americanum and discuss their potential for novel biocontrol strategies. [ABSTRACT FROM AUTHOR]

Published

2024

3. Deciphering the microbial communities in ticks of Inner Mongolia: ecological determinants and pathogen profiles.

Author

Li, Chunfu, Ma, Rui, Gao, Ai, Jiang, Na, Sang, Chunli, Zhang, Yanli, Tian, Haoqiang, Li, Jian, Hu, Wei, and Feng, Xinyu

Subjects

*TICK-borne diseases, *DERMACENTOR, *MOLECULAR biology, *PATHOGENIC bacteria, *MICROBIAL communities, *RICKETTSIA

Abstract

Background: Ticks are vectors of numerous pathogens, with their bacterial composition, abundance, diversity, and interaction influencing both their growth and disease transmission efficiency. Despite the abundance of ticks in Inner Mongolia, China, comprehensive data on their microbial communities are lacking. This study aims to analyze the microbial communities within ticks from Inner Mongolia to inform innovative control strategies for interrupting pathogen transmission. Methods: Tick samples were collected from animals and vegetation in multiple locations across Inner Mongolia and stored at − 80 °C. Ticks were identified using morphological keys and molecular biology methods. Full-length 16S rRNA gene sequencing was performed on collected samples. Bacterial community composition and diversity were mainly analyzed using bioinformatic tools such as QIIME, phyloseq, and DESeq2. Alpha diversity was assessed using Chao1, ACE, and Shannon indices, while beta diversity was evaluated using Bray-Curtis dissimilarity matrices. LEfSe analysis was applied to identify taxa associated with ecological and biological variables. Results: A total of 5,048,137 high-quality read counts were obtained, forming an average of 789.3 OTUs per sample. Proteobacteria, Firmicutes, and Bacteroidetes were the most dominant phyla. Bacterial community composition varied significantly with geography, with Dermacentor nuttalli showing a higher abundance of Rickettsia in Xilingol League, while other regions had different dominant genera. The microbial community also differed based on the feeding status of ticks. Additionally, the microbiota of engorged ticks showed organ specificity. Pathogen detection efforts revealed the presence of nine pathogens across all three tick species. D. nuttalli was found to carry a significantly higher burden of pathogenic bacteria, making it the most potentially threatening tick species in Inner Mongolia. Conclusions: The study highlights significant variations in tick microbiomes influenced by geographic location, feeding status, and tick species. It underscores the importance of enhancing tick and tick-borne disease surveillance in Inner Mongolia for early detection and control of emerging pathogens. [ABSTRACT FROM AUTHOR]

Published

2024

4. Role of Tick Commensal Bacteria in the Propagation of Emerging Infectious Diseases: Data Gaps and One Health Implications

Author

Uday Turaga and Steven M. Presley

Subjects

tick microbiome, emerging infectious diseases, endosymbionts, commensal bacteria, habitat expansion, acaricide resistance, Animal biochemistry, QP501-801, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

Ticks are obligate hematophagous ectoparasites notorious for their role as vectors of pathogens that affect humans and animals, particularly relative to the propagation of emerging infectious diseases (EIDs). Two important factors facilitating the role of ticks in the propagation of EIDs are their potential for the development of resistance to acaricides and the expansion of nonindigenous tick species into new geographic regions. The acquisition of acaricide resistance enables tick populations to be less susceptible to vector control programs. Expansion of the geographic distribution of tick populations increases the likelihood of access to new host species as well as new pathogens. Understanding of the microbiome of ticks continues to evolve, providing critical insights into tick biology. The tick microbiome largely comprises endosymbionts, pathogenic organisms, and commensal bacteria. Endosymbionts are highly preserved and vertically transmitted in ticks from mother to offspring, and their role in the survival of ticks is well recognized. Similarly, the role of ticks as vectors of pathogens is well established. However, commensal bacteria in ticks are acquired from the environment and while ingesting a blood meal. Because many tick species spend most of their lifetime off the hosts, it can be assumed that the richness and diversity of commensal bacteria are highly variable and dependent on the ecosystem in which the tick exists. This mini-review identifies some of the critical data gaps relevant to the role of and influence of commensal bacteria on the vectorial capacity of ticks. As ticks move into new habitats, are locally acquired commensal bacteria playing a role in adaptation to the new habitat? Apart from the conventionally understood mechanisms of acaricide resistance in ticks, are the commensal bacteria influencing the development of acaricide resistance at the population level?

Published

2024

5. Microbiota‐driven vaccination in soft ticks: Implications for survival, fitness and reproductive capabilities in Ornithodoros moubata.

Author

Cano‐Argüelles, Ana Laura, Piloto‐Sardiñas, Elianne, Maitre, Apolline, Mateos‐Hernández, Lourdes, Maye, Jennifer, Wu‐Chuang, Alejandra, Abuin‐Denis, Lianet, Obregón, Dasiel, Bamgbose, Timothy, Oleaga, Ana, Cabezas‐Cruz, Alejandro, and Pérez‐Sánchez, Ricardo

Subjects

*AFRICAN swine fever, *RELAPSING fever, *KEYSTONE species, *DISEASE vectors, *SALIVARY glands

Abstract

The Ornithodoros moubata (Om) soft tick, a vector for diseases like tick‐borne human relapsing fever and African swine fever, poses challenges to conventional control methods. With diminishing insecticide efficacy, harnessing the tick's microbiota through innovative approaches like microbiota‐driven vaccination emerges as a promising strategy for sustainable and targeted disease control. This study investigated the intricate relationship between Pseudomonas, a keystone taxon in the Om microbiome, and its impact on tick fitness, microbiome structure and network dynamics. Utilizing in silico analyses and empirical vaccination experiments, the role of Pseudomonas within microbial networks in the tick midguts (MG) and salivary glands (SG) of Om was studied. Additionally, the consequences of anti‐microbiota vaccines targeting Pseudomonas and Lactobacillus on tick fitness, microbiome diversity and community assembly were explored. The result of the study shows that in Om, Pseudomonas plays a central role in microbial networks, influencing keystone species despite being categorized as peripheral (interacting with 47 different taxa, 13 of which are keystone species). Anti‐microbiota vaccination targeting Pseudomonas and Lactobacillus yields distinct effects on tick fitness, with Pseudomonas vaccination significantly impacting female tick survival, while Lactobacillus significantly reduced oviposition and fertility. Microbiome changes post‐vaccination reveal diversity alterations, emphasizing the impact of vaccine choice. Community assembly dynamics and network robustness analyses highlight Pseudomonas' pivotal role, in influencing topological features and network resilience. The findings of the study provide comprehensive insights into the intricate dynamics of Om microbial networks and the potential of targeted microbiota‐driven vaccines for tick control. [ABSTRACT FROM AUTHOR]

Published

2024

6. The Tick Microbiome: The 'Other Bacterial Players' in Tick Biocontrol

Author

Paulina Maldonado-Ruiz

Subjects

tick microbiome, bacillus, bacillus thuringiensis, tick biocontrol, amblyomma americanum, Ixodes spp., Biology (General), QH301-705.5

Abstract

Hard ticks (family Ixodidae) are one of the most predominant arthropod disease vectors worldwide, second only to mosquitoes. In addition to harboring animal and human pathogens, ticks are known to carry a microbial community constituted of non-pathogenic organisms, which includes maternally inherited intracellular endosymbionts and other environmentally acquired extracellular microorganisms. These microbial communities, which include bacteria, viruses, protozoans, and fungi—with often commensal, mutualistic, or parasitic associations with the tick—comprise the tick microbiome, bacteria being the most studied community. Many bacterial taxa frequently reported in ticks include soil, plant, and animal-associated microbes, suggesting many are environmentally acquired, including members with known entomopathogenic potential, such as Bacillus thuringiensis, Bacillus spp., and Pseudomonas spp. It has been reported that microbial community composition can impact pathogen persistence, dissemination, and fitness in ticks. In the United States, Ixodes scapularis (northeast) and I. pacificus (west) are the predominant vectors of Borrelia burgdorferi, the causal agent of Lyme disease. Amblyomma americanum is another important tick vector in the U.S. and is becoming an increasing concern as it is the leading cause of alpha-gal syndrome (AGS, or red meat allergy). This condition is caused by tick bites containing the galactose alpha 1,3 galactose (alpha-gal) epitope in their saliva. In this paper, we present a summary of the tick microbiome, including the endosymbiotic bacteria and the environmentally acquired (here referred to as the non-endosymbiotic community). We will focus on the non-endosymbiotic bacteria from Ixodes spp. and Amblyomma americanum and discuss their potential for novel biocontrol strategies.

Published

2024

7. Comparative microbiome analysis of Haemaphysalis longicornis ticks at the Korea Combat Training Center in 2022.

Author

Kim, Minsung, Oh, Singeun, Yi, Myung‐hee, Kim, Myungjun, Yun, Sohyeon, Choi, Jun Ho, Yoon, Moonsoo, Yong, Tai‐Soon, Lee, Buddle, Noh, Kyung Tae, Park, Quehn, Lee, Chanhee, and Kim, Ju Yeong

Subjects

*HEALTH of military personnel, *TICKS, *ENVIRONMENTAL research, *NUCLEOTIDE sequencing, *POLYMERASE chain reaction, *CHILDREN of military personnel

Abstract

The Korea Combat Training Center (KCTC), located in Gangwon Province, is a restricted military training facility where research on the environmental conditions and health risks to military personnel has been limited. In this study, using iSeq 100, we investigated the bacterial abundance and microbiome of Haemaphysalis longicornis specimens collected at the KCTC from June to August 2022, to assess current and potential public health risks to military personnel. Our results show that adult ticks had significantly greater species richness compared with larvae and nymphs, with no notable differences in diversity across developmental stages. Principal coordinate analysis of the microbial communities did not show differences attributable to any single factor, such as collection location or date. Coxiella‐like endosymbionts (AB001519) were identified in all 13 samples, and Jatrophihabitans, Sphingomonas, and Spirosoma were consistently found across all samples. In addition, iSeq 100 also identified Rickettsia rickettsii and Borrelia spp., which were not detected with conventional polymerase chain reaction (PCR). [ABSTRACT FROM AUTHOR]

Published

2023

8. Analysis of the bacterial community in female Rhipicephalus microplus ticks from selected provinces in Luzon, Philippines, using next-generation sequencing.

Author

Hernandez, Sheane Andrea V., Salamat, Saubel Ezrael A., and Galay, Remil L.

Subjects

BACTERIAL communities, CATTLE tick, NUCLEOTIDE sequencing, BOOPHILUS microplus, RHIPICEPHALUS, TICKS, TICK-borne diseases

Abstract

Analysis of the tick microbiome can help understand tick–symbiont interactions and identify undiscovered pathogens, which may aid in implementing control of ticks and tick-borne diseases. The tropical cattle tick Rhipicephalus microplus is a widespread ectoparasite of cattle in the Philippines, negatively affecting animal productivity and health. This study characterized the bacterial community of R. microplus from Luzon, Philippines, through next-generation sequencing of 16s rRNA. DNA was extracted from 45 partially engorged female ticks from nine provinces. The DNA samples were pooled per province and then sequenced and analyzed using an open-source bioinformatics platform. In total, 667 operational taxonomic units (OTUs) were identified. The ticks in all nine provinces were found to have Coxiella, Corynebacterium, Staphylococcus, and Acinetobacter. Basic local alignment search tool (BLAST) analysis revealed the presence of known pathogens of cattle, such as Bartonella, Ehrlichia minasensis, and Dermatophilus congolensis. The tick samples from Laguna, Quezon, and Batangas had the most diverse bacterial species, whereas the tick samples from Ilocos Norte had the lowest diversity. Similarities in the composition of the bacterial community in ticks from provinces near each other were also observed. This is the first study on metagenomic analysis of cattle ticks in the Philippines, providing new insights that may be useful for controlling ticks and tick-borne diseases. [ABSTRACT FROM AUTHOR]

Published

2023

9. Comparative Microbiome Analysis of Three Epidemiologically Important Tick Species in Latvia.

Author

Namina, Agne, Kazarina, Alisa, Lazovska, Marija, Akopjana, Sarmite, Ulanova, Viktorija, Kivrane, Agnija, Freimane, Lauma, Sadovska, Darja, Kimsis, Janis, Bormane, Antra, Capligina, Valentina, and Ranka, Renate

Subjects

CASTOR bean tick, TICKS, DERMACENTOR, SPECIES, MICROBIAL diversity

Abstract

(1) Background: Amplicon-based 16S rRNA profiling is widely used to study whole communities of prokaryotes in many niches. Here, we comparatively examined the microbial composition of three tick species, Ixodes ricinus, Ixodes persulcatus and Dermacentor reticulatus, which were field-collected in Latvia. (2) Methods: Tick DNA samples were used for microbiome analysis targeting bacterial 16S rDNA using next-generation sequencing (NGS). (3) Results: The results showed significant differences in microbial species diversity and composition by tick species and life stage. A close similarity between microbiomes of I. ricinus and I. persulcatus ticks was observed, while the D. reticulatus microbiome composition appeared to be more distinct. Significant differences in alpha and beta microbial diversity were observed between Ixodes tick life stages and sexes, with lower taxa richness indexes obtained for female ticks. The Francisella genus was closely associated with D. reticulatus ticks, while endosymbionts Candidatus Midichlorii and Candidatus Lariskella were associated with I. ricinus and I. persulcatus females, respectively. In I. ricinus females, the endosymbiont load negatively correlated with the presence of the Rickettsia genus. (4) Conclusions: The results of this study revealed important associations between ticks and their microbial community and highlighted the microbiome features of three tick species in Latvia. [ABSTRACT FROM AUTHOR]

Published

2023

10. New insights into the impact of microbiome on horizontal and vertical transmission of a tick-borne pathogen

Author

Li-Feng Du, Ming-Zhu Zhang, Ting-Ting Yuan, Xue-Bing Ni, Wei Wei, Xiao-Ming Cui, Ning Wang, Tao Xiong, Jie Zhang, Yu-Sheng Pan, Dai-Yun Zhu, Liang-Jing Li, Luo-Yuan Xia, Tian-Hong Wang, Ran Wei, Hong-Bo Liu, Yi Sun, Lin Zhao, Tommy Tsan-Yuk Lam, Wu-Chun Cao, and Na Jia

Subjects

Skin microbiome, Tick microbiome, Spotted fever group rickettsiae, Horizontal transmission, Vertical transmission, Microbial ecology, QR100-130

Abstract

Abstract Background The impact of host skin microbiome on horizontal transmission of tick-borne pathogens , and of pathogen associated transstadial and transovarial changes in tick microbiome are largely unknown, but are important to control increasingly emerging tick-borne diseases worldwide. Methods Focusing on a rickettsiosis pathogen, Rickettsia raoultii, we used R. raoultii-positive and R. raoultii-negative Dermacentor spp. tick colonies to study the involvement of skin microbiota in cutaneous infection with rickettsiae in laboratory mice, and the function of the tick microbiome on maintenance of rickettsiae through all tick developmental stages (eggs, larvae, nymphs, adults) over two generations. Results We observed changes in the skin bacteria community, such as Chlamydia, not only associated with rickettsial colonization but also with tick feeding on skin. The diversity of skin microbiome differed between paired tick-bitten and un-bitten sites. For vertical transmission, significant differences in the tick microbiota between pathogenic rickettsia-positive and -negative tick chorts was observed across all developmental stages at least over two generations, which appeared to be a common pattern not only for R. raoultii but also for another pathogenic species, Candidatus Rickettsia tarasevichiae. More importantly, bacterial differences were complemented by functional shifts primed for genetic information processing during blood feeding. Specifically, the differences in tick microbiome gene repertoire between pathogenic Rickettsia-positive and -negative progenies were enriched in pathways associated with metabolism and hormone signals during vertical transmission. Conclusions We demonstrate that host skin microbiome might be a new factor determining the transmission of rickettsial pathogens through ticks. While pathogenic rickettsiae infect vertebrate hosts during blood-feeding by the tick, they may also manipulate the maturation of the tick through changing the functional potential of its microbiota over the tick’s life stages. The findings here might spur the development of new-generation control methods for ticks and tick-borne pathogens. Video Abstract

Published

2023

11. Tick transmission of Borrelia burgdorferi to the murine host is not influenced by environmentally acquired midgut microbiota

Author

Sukanya Narasimhan, Nallakkandi Rajeevan, Morven Graham, Ming-Jie Wu, Kathleen DePonte, Solenne Marion, Orlanne Masson, Anya J. O’Neal, Joao H. F. Pedra, Daniel E. Sonenshine, and Erol Fikrig

Subjects

Ixodes scapularis, Tick microbiome, Tick innate immunity, Transmission, Borrelia burgdorferi, Microbial ecology, QR100-130

Abstract

Abstract Background Ixodes scapularis is the predominant tick vector of Borrelia burgdorferi, the agent of Lyme disease, in the USA. Molecular interactions between the tick and B. burgdorferi orchestrate the migration of spirochetes from the midgut to the salivary glands—critical steps that precede transmission to the vertebrate host. Over the last decade, research efforts have invoked a potential role for the tick microbiome in modulating tick-pathogen interactions. Results Using multiple strategies to perturb the microbiome composition of B. burgdorferi-infected nymphal ticks, we observe that changes in the microbiome composition do not significantly influence B. burgdorferi migration from the midgut, invasion of salivary glands, or transmission to the murine host. We also show that within 24 and 48 h of the onset of tick feeding, B. burgdorferi spirochetes are within the peritrophic matrix and epithelial cells of the midgut in preparation for exit from the midgut. Conclusions This study highlights two aspects of tick-spirochete interactions: (1) environmental bacteria associated with the tick do not influence spirochete transmission to the mammalian host and (2) the spirochete may utilize an intracellular exit route during migration from the midgut to the salivary glands, a strategy that may allow the spirochete to distance itself from microbiota in the midgut lumen effectively. This may explain in part, the inability of environment-acquired midgut microbiota to significantly influence spirochete transmission. Unraveling a molecular understanding of this exit strategy will be critical to gain new insights into the biology of the spirochete and the tick. Video Abstract

Published

2022

12. The Importance and Impact of Francisella -like Endosymbionts in Hyalomma Ticks in the Era of Climate Change.

Author

Sesmero-García, Celia, Cabanero-Navalon, Marta Dafne, and Garcia-Bustos, Victor

Subjects

*TICKS, *HYALOMMA, *HEMORRHAGIC fever, *TICK-borne diseases, *FRANCISELLA tularensis, *ANIMAL diseases, *MEDICAL climatology

Abstract

Ticks are obligatory hematophagous parasites that serve as vectors for a large amount of important human and livestock pathogens around the world, and their distribution and incidence of tick-associated diseases are currently increasing because of environmental biomass being modified by both climate change and other human activities. Hyalomma species are of major concern for public health, due to their important role as vectors of several diseases such as the Crimea–Congo hemorrhagic fever (CCHF) virus in humans or theileriosis in cattle. Characterizing the Hyalomma-associated microbiota and delving into the complex interactions between ticks and their bacterial endosymbionts for host survival, development, and pathogen transmission are fundamental, as it may provide new insights and spawn new paradigms to control tick-borne diseases. Francisella-like endosymbionts (FLEs) have recently gained importance, not only as a consequence of the public health concerns of the highly transmissible Francisella tularensis, but for the essential role of FLEs in tick homeostasis. In this comprehensive review, we discuss the growing importance of ticks associated with the genus Hyalomma, their associated tick-borne human and animal diseases in the era of climate change, as well as the role of the microbiome and the FLE in their ecology. We compile current evidence from around the world on FLEs in Hyalomma species and examine the impact of new molecular techniques in the study of tick microbiomes (both in research and in clinical practice). Lastly, we also discuss different endosymbiont-directed strategies for the control of tick populations and tick-borne diseases, providing insights into new evidence-based opportunities for the future. [ABSTRACT FROM AUTHOR]

Published

2023

13. New insights into the impact of microbiome on horizontal and vertical transmission of a tick-borne pathogen.

Author

Du, Li-Feng, Zhang, Ming-Zhu, Yuan, Ting-Ting, Ni, Xue-Bing, Wei, Wei, Cui, Xiao-Ming, Wang, Ning, Xiong, Tao, Zhang, Jie, Pan, Yu-Sheng, Zhu, Dai-Yun, Li, Liang-Jing, Xia, Luo-Yuan, Wang, Tian-Hong, Wei, Ran, Liu, Hong-Bo, Sun, Yi, Zhao, Lin, Lam, Tommy Tsan-Yuk, and Cao, Wu-Chun

Subjects

RICKETTSIA, TICK infestations, TICK-borne diseases, LABORATORY mice, DERMACENTOR, TICK control, RICKETTSIAL diseases

Abstract

Background: The impact of host skin microbiome on horizontal transmission of tick-borne pathogens , and of pathogen associated transstadial and transovarial changes in tick microbiome are largely unknown, but are important to control increasingly emerging tick-borne diseases worldwide. Methods: Focusing on a rickettsiosis pathogen, Rickettsia raoultii, we used R. raoultii-positive and R. raoultii-negative Dermacentor spp. tick colonies to study the involvement of skin microbiota in cutaneous infection with rickettsiae in laboratory mice, and the function of the tick microbiome on maintenance of rickettsiae through all tick developmental stages (eggs, larvae, nymphs, adults) over two generations. Results: We observed changes in the skin bacteria community, such as Chlamydia, not only associated with rickettsial colonization but also with tick feeding on skin. The diversity of skin microbiome differed between paired tick-bitten and un-bitten sites. For vertical transmission, significant differences in the tick microbiota between pathogenic rickettsia-positive and -negative tick chorts was observed across all developmental stages at least over two generations, which appeared to be a common pattern not only for R. raoultii but also for another pathogenic species, Candidatus Rickettsia tarasevichiae. More importantly, bacterial differences were complemented by functional shifts primed for genetic information processing during blood feeding. Specifically, the differences in tick microbiome gene repertoire between pathogenic Rickettsia-positive and -negative progenies were enriched in pathways associated with metabolism and hormone signals during vertical transmission. Conclusions: We demonstrate that host skin microbiome might be a new factor determining the transmission of rickettsial pathogens through ticks. While pathogenic rickettsiae infect vertebrate hosts during blood-feeding by the tick, they may also manipulate the maturation of the tick through changing the functional potential of its microbiota over the tick's life stages. The findings here might spur the development of new-generation control methods for ticks and tick-borne pathogens. BrauQCozpnNTXK3Qm2qXLR Video Abstract [ABSTRACT FROM AUTHOR]

Published

2023

14. A comparative study of the microbiomes of the ticks Rhipicephalus microplus and Hyalomma anatolicum

Author

Abbasi Adeel Mumtaz, Nasir Shiza, Bajwa Amna Arshad, Akbar Haroon, Ali Muhammad Muddassir, and Rashid Muhammad Imran

Subjects

tick microbiome, v3-v4 16s rrna sequencing, rhipicephalus microplus, hyalomma anatolicum, Infectious and parasitic diseases, RC109-216

Abstract

Hyalomma anatolicum and Rhipicephalus microplus are tick species that are important vectors of numerous pathogens affecting both humans and livestock. Endosymbionts, such as Coxiella-like endosymbionts (CLE), Francisella-like endosymbionts (FLE), and Candidatus Midichloria, play a crucial role in the physiology and vector competence of these ticks. In this study, we investigated the microbial composition of H. anatolicum and R. microplus from four geographically distinct regions of Pakistan to assess whether environmental differences influence their microbiomes. We analyzed the ticks’ gut microbiome targeting the V3-V4 hypervariable region of 16S rRNA for Illumina 16S metagenome NGS sequencing and processed overall 144 ticks. Analysis of gut bacterial composition resulted in observation of 1200 R. microplus and 968 H. anatolicum unique amplicon sequencing variants (ASVs). Relative abundance, Alpha diversity (Shannon, Faith’s phylogenetic distance) and beta diversity metrics (Bray–Curtis, Jaccard and UniFrac) were analyzed and revealed that H. anatolicum ticks have significantly unique and diverse microbial communities with Acinetobacter indicus and Francisella-like endosymbionts dominating as opposed to Candidatus Midichloria. Rhipicephalus microplus exhibited results consistent with the previous studies with no major changes in microbiome including Coxiella-like endosymbionts as the major contributor. These findings suggest that geographical and environmental factors play a significant role in shaping the tick microbiome, with potential consequences for disease transmission and tick survivability. Further research is needed to elucidate the functional roles of these microbial shifts and their impact on public health and livestock in affected regions.

Published

2024

15. Editorial: Biological drivers of vector–pathogen interactions – vol II

Author

Ryan O. M. Rego, Job E. Lopez, and Alejandro Cabesas-Cruz

Subjects

vector, pathogen, saliva, surveillance, tick microbe interactions, tick microbiome, Microbiology, QR1-502

Published

2023

16. Tick transmission of Borrelia burgdorferi to the murine host is not influenced by environmentally acquired midgut microbiota.

Author

Narasimhan, Sukanya, Rajeevan, Nallakkandi, Graham, Morven, Wu, Ming-Jie, DePonte, Kathleen, Marion, Solenne, Masson, Orlanne, O'Neal, Anya J., Pedra, Joao H. F., Sonenshine, Daniel E., and Fikrig, Erol

Subjects

IXODES scapularis, LYME disease, BORRELIA burgdorferi, TICKS, SALIVARY glands, SPIROCHETES, MOLECULAR interactions

Abstract

Background: Ixodes scapularis is the predominant tick vector of Borrelia burgdorferi, the agent of Lyme disease, in the USA. Molecular interactions between the tick and B. burgdorferi orchestrate the migration of spirochetes from the midgut to the salivary glands—critical steps that precede transmission to the vertebrate host. Over the last decade, research efforts have invoked a potential role for the tick microbiome in modulating tick-pathogen interactions. Results: Using multiple strategies to perturb the microbiome composition of B. burgdorferi-infected nymphal ticks, we observe that changes in the microbiome composition do not significantly influence B. burgdorferi migration from the midgut, invasion of salivary glands, or transmission to the murine host. We also show that within 24 and 48 h of the onset of tick feeding, B. burgdorferi spirochetes are within the peritrophic matrix and epithelial cells of the midgut in preparation for exit from the midgut. Conclusions: This study highlights two aspects of tick-spirochete interactions: (1) environmental bacteria associated with the tick do not influence spirochete transmission to the mammalian host and (2) the spirochete may utilize an intracellular exit route during migration from the midgut to the salivary glands, a strategy that may allow the spirochete to distance itself from microbiota in the midgut lumen effectively. This may explain in part, the inability of environment-acquired midgut microbiota to significantly influence spirochete transmission. Unraveling a molecular understanding of this exit strategy will be critical to gain new insights into the biology of the spirochete and the tick. 7AdntFwsX5JjuXz-jKBq7o Video Abstract [ABSTRACT FROM AUTHOR]

Published

2022

17. Comparative Microbiome Analysis of Three Epidemiologically Important Tick Species in Latvia

Author

Agne Namina, Alisa Kazarina, Marija Lazovska, Sarmite Akopjana, Viktorija Ulanova, Agnija Kivrane, Lauma Freimane, Darja Sadovska, Janis Kimsis, Antra Bormane, Valentina Capligina, and Renate Ranka

Subjects

tick microbiome, Ixodes ricinus, Ixodes persulcatus, Dermacentor reticulatus, Latvia, Biology (General), QH301-705.5

Abstract

(1) Background: Amplicon-based 16S rRNA profiling is widely used to study whole communities of prokaryotes in many niches. Here, we comparatively examined the microbial composition of three tick species, Ixodes ricinus, Ixodes persulcatus and Dermacentor reticulatus, which were field-collected in Latvia. (2) Methods: Tick DNA samples were used for microbiome analysis targeting bacterial 16S rDNA using next-generation sequencing (NGS). (3) Results: The results showed significant differences in microbial species diversity and composition by tick species and life stage. A close similarity between microbiomes of I. ricinus and I. persulcatus ticks was observed, while the D. reticulatus microbiome composition appeared to be more distinct. Significant differences in alpha and beta microbial diversity were observed between Ixodes tick life stages and sexes, with lower taxa richness indexes obtained for female ticks. The Francisella genus was closely associated with D. reticulatus ticks, while endosymbionts Candidatus Midichlorii and Candidatus Lariskella were associated with I. ricinus and I. persulcatus females, respectively. In I. ricinus females, the endosymbiont load negatively correlated with the presence of the Rickettsia genus. (4) Conclusions: The results of this study revealed important associations between ticks and their microbial community and highlighted the microbiome features of three tick species in Latvia.

Published

2023

18. Anti-tick microbiota vaccines: how can this actually work?

Author

Wu-Chuang, Alejandra, Obregon, Dasiel, Mateos-Hernández, Lourdes, and Cabezas-Cruz, Alejandro

Subjects

*TICKS, *TICK-borne diseases, *BACTERIAL proteins, *ARTHROPOD vectors, *TICK control, *ANIMAL diseases, *COMMENSALISM

Abstract

The main importance of ticks resides in their ability to harbor and transmit microorganisms that cause disease to animals and humans. In addition to pathogens, ticks coexist and interact with symbionts, and commensal bacteria that together form an ecological unit, the tick holobiont. The holobiont is an additional organismal level on which natural selection operates. The components of the tick hologenome, composed of host and microbiome genomes, are complimentary. In agreement with this proposition, antibiotic treatment produces disturbance of the tick-microbiota homeostasis which in turn decreases tick fitness and affects tick-pathogen interactions. Accordingly, we hypothesized that immune targeting of key members of the bacterial community of the tick microbiome by host antibodies could cause microbial dysbiosis with consequences for tick physiology and vector competence. Anti-tick microbiota vaccines were recently introduced as a tool to target the microbiota of vector arthropods by immunizing the vertebrate hosts against live keystone bacteria or tick microbiota bacterial proteins. This tool can also be used to target tick endosymbionts. Decreased abundance of selected keystone bacteria and/or endosymbionts may reshape the structure of tick microbial communities in a predictable manner. This tool can be used to manipulate the tick microbiome against ticks and transmitted pathogens. In this opinion, we explore the possibilities of this methodology for the control of ticks and tick-borne diseases. [ABSTRACT FROM AUTHOR]

Published

2022

19. Pathogenic and Endosymbiotic Bacteria and Their Associated Antibiotic Resistance Biomarkers in Amblyomma and Hyalomma Ticks Infesting Nguni Cattle (Bos spp.).

Author

Chigwada, Aubrey Dickson, Mapholi, Ntanganedzeni Olivia, Ogola, Henry Joseph Oduor, Mbizeni, Sikhumbuzo, and Masebe, Tracy Madimabi

Subjects

DRUG resistance in bacteria, AMBLYOMMA, HYALOMMA, PATHOGENIC bacteria, TICKS, MULTIDRUG resistance

Abstract

Deciphering the interactions between ticks and their microbiome is key to revealing new insights on tick biology and pathogen transmission. However, knowledge on tick-borne microbiome diversity and their contribution to drug resistance is scarce in sub–Saharan Africa (SSA), despite endemism of ticks. In this study, high-throughput 16S rRNA amplicon sequencing and PICRUSt predictive function profiling were used to characterize the bacterial community structure and associated antibiotic resistance markers in Amblyomma variegatum, A. hebraeum, and Hyalomma truncatum ticks infesting Nguni cattle (Bos spp.). Twenty-one (seven families and fourteen genera) potentially pathogenic and endosymbiotic bacterial taxa were differentially enriched in two tick genera. In H. truncatum ticks, a higher abundance of Corynebacterium (35.6%), Porphyromonas (14.4%), Anaerococcus (11.1%), Trueperella (3.7%), and Helcococcus (4.7%) was detected. However, Rickettsia (38.6%), Escherichia (7%), and Coxiellaceae (2%) were the major differentially abundant taxa in A. variegatum and A. hebraeum. Further, an abundance of 50 distinct antibiotic resistance biomarkers relating to multidrug resistance (MDR) efflux pumps, drug detoxification enzymes, ribosomal protection proteins, and secretion systems, were inferred in the microbiome. This study provides theoretical insights on the microbiome and associated antibiotic resistance markers, important for the design of effective therapeutic and control decisions for tick-borne diseases in the SSA region. [ABSTRACT FROM AUTHOR]

Published

2022

20. Grappling with the tick microbiome.

Author

Narasimhan, Sukanya, Swei, Andrea, Abouneameh, Selma, Pal, Utpal, Pedra, Joao H.F., and Fikrig, Erol

Subjects

*IXODES scapularis, *TICKS, *BORRELIA burgdorferi, *LYME disease, *HABITAT selection, *IMMUNE response

Abstract

Ixodes scapularis and Ixodes pacificus are the predominant vectors of multiple human pathogens, including Borrelia burgdorferi , one of the causative agents of Lyme disease in North America. Differences in the habitats and host preferences of these closely related tick species present an opportunity to examine key aspects of the tick microbiome. While advances in sequencing technologies have accelerated a descriptive understanding of the tick microbiome, molecular and mechanistic insights into the tick microbiome are only beginning to emerge. Progress is stymied by technical difficulties in manipulating the microbiome and by biological variables related to the life cycle of Ixodid ticks. This review highlights these challenges and examines avenues to understand the significance of the tick microbiome in tick biology. Ixodes scapularis and Ixodes pacificus harbor a simple primary microbiome composed predominantly of the endosymbiont Rickettsia buchneri. The tick microbiome also includes microbiota acquired from the environment and represents a transient microbiome. The tick microbiome composition is in a state of flux and is likely influenced by multiple biotic and abiotic factors. The microbiome composition is regulated by immune responses of the tick at the vector–host and environment–vector interfaces. Understanding the interactions between the tick microbiota, tick-borne pathogens and tick immune responses will reveal new insights in tick biology. [ABSTRACT FROM AUTHOR]

Published

2021

21. Species-Level Profiling of Ixodes pacificus Bacterial Microbiomes Reveals High Variability Across Short Spatial Scales at Different Taxonomic Resolutions.

Author

Socarras, Kayla M., Earl, Joshua P., Krol, Jaroslaw E., Bhat, Archana, Pabilonia, Max, Harrison, Meghan H., Lang, Steven P., Sen, Bhaswati, Ahmed, Azad, Hester, Michael, Mell, Joshua Chang, Vandegrift, Kurt, and Ehrlich, Garth D.

Subjects

*IXODES, *ANAPLASMA phagocytophilum, *TICK-borne diseases, *RICKETTSIA, *BORRELIA burgdorferi, *BACTERIAL genes, *MICROBIAL diversity

Abstract

Background and Aims: Outbreaks of severe and chronic tick-borne diseases (TBDs) are on the rise. This is through the transmission of infectious disease agents to humans during tick feeding. The transmission rate and extent of microbial exchange, however, vary based on the tick microbiome composition. While select microbes are determined to be members of the normal tick microbiome and others are clearly recognized mammalian and/or avian pathogens, the status of many other members of the tick microbiota with respect to human and alternate host pathogenesis remains unclear. Moreover, the species-level 16S microbiome of prominent TBD vectors, including Ixodes pacificus, have not been extensively studied. To elucidate the I. pacificus microbiome composition, we performed a pan-domain species-specific characterization of the bacterial microbiome on adult I. pacificus ticks collected from two regional parks within Western California. Our methods provide for characterizing nuances within cohort microbiomes and their relationships to geo-locale of origin, surrounding fauna, and prevalences of known and suspected pathogens in relation to current TBD epidemiological zones. Methods: Ninety-two adult I. pacificus bacterial microbiomes were characterized using a high-fidelity, pan-domain, species-specific, full-length 16S rRNA amplification method using circular consensus sequencing performed on the Pacific Biosciences Sequel platform. Data analyses were performed with the MCSMRT data analysis package and database. Results: The species-specific I. pacificus microbiome composition illustrates a complex assortment of microflora, including over 900 eubacterial species with high taxonomic diversity, which was revealed to vary by sex and geo-locale, though the use of full-length 16S gene sequencing. The TBD-associated pathogens, such as Borrelia burgdorferi, Anaplasma phagocytophilum, and Rickettsia monacensis, were identified along with a host of bacteria previously unassociated with ticks. Conclusion: Species-level taxonomic classification of the I. pacificus microbiome revealed that full-length bacterial 16S gene sequencing is required for the granularity to elucidate the microbial diversity within and among ticks based on geo-locale. [ABSTRACT FROM AUTHOR]

Published

2021

22. The scale affects our view on the identification and distribution of microbial communities in ticks

Author

Thomas Pollet, Hein Sprong, Emilie Lejal, Aleksandra I. Krawczyk, Sara Moutailler, Jean-Francois Cosson, Muriel Vayssier-Taussat, and Agustín Estrada-Peña

Subjects

Scales, Tick microbiome, Spatial, Temporal, Tick microbe interactions, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Ticks transmit the highest variety of pathogens impacting human and animal health worldwide. It is now well established that ticks also harbour a microbial complex of coexisting symbionts, commensals and pathogens. With the development of high throughput sequencing technologies, studies dealing with such diverse bacterial composition in tick considerably increased in the past years and revealed an unexpected microbial diversity. These data on diversity and composition of the tick microbes are increasingly available, giving crucial details on microbial communities in ticks and improving our knowledge on the tick microbial community. However, consensus is currently lacking as to which scales (tick organs, individual specimens or species, communities of ticks, populations adapted to particular environmental conditions, spatial and temporal scales) best facilitate characterizing microbial community composition of ticks and understanding the diverse relationships among tick-borne bacteria. Temporal or spatial scales have a clear influence on how we conduct ecological studies, interpret results, and understand interactions between organisms that build the microbiome. We consider that patterns apparent at one scale can collapse into noise when viewed from other scales, indicating that processes shaping tick microbiome have a continuum of variability that has not yet been captured. Based on available reports, this review demonstrates how much the concept of scale is crucial to be considered in tick microbial community studies to improve our knowledge on tick microbe ecology and pathogen/microbiota interactions.

Published

2020

23. Bacterial microbiomes of Ixodes scapularis ticks collected from Massachusetts and Texas, USA

Author

Santosh Thapa, Yan Zhang, and Michael S. Allen

Subjects

Tick microbiome, Ixodes scapularis, 16S rRNA, Microbial diversity, Blacklegged tick, Ecology, Microbiology, QR1-502

Abstract

Abstract Background The blacklegged tick, Ixodes scapularis, is the primary vector of the Lyme disease spirochete Borrelia burgdorferi in North America. Though the tick is found across the eastern United States, Lyme disease is endemic to the northeast and upper midwest and rare or absent in the southern portion of the vector’s range. In an effort to better understand the tick microbiome from diverse geographic and climatic regions, we analysed the bacterial community of 115 I. scapularis adults collected from vegetation in Texas and Massachusetts, representing extreme ends of the vector’s range, by massively parallel sequencing of the 16S V4 rRNA gene. In addition, 7 female I. scapularis collected from dogs in Texas were included in the study. Results Male I. scapularis ticks had a more diverse bacterial microbiome in comparison to the female ticks. Rickettsia spp. dominated the microbiomes of field-collected female I. scapularis from both regions, as well as half of the males from Texas. In addition, the male and female ticks captured from Massachusetts contained high proportions of the pathogens Anaplasma and Borrelia, as well as the arthropod endosymbiont Wolbachia. None of these were found in libraries generated from ticks collected in Texas. Pseudomonas, Acinetobacter and Mycobacterium were significantly differently abundant (p

Published

2019

24. Surface sterilization methods impact measures of internal microbial diversity in ticks

Author

Florian Binetruy, Marlène Dupraz, Marie Buysse, and Olivier Duron

Subjects

16S rRNA, Bacterial communities, Tick microbiome, Metabarcoding, Amblyomma, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Ticks are obligate blood feeders transmitting major pathogens worldwide. Over the past few years, considerable research efforts have focused on the diversity, distribution and impact of gut and intracellular bacterial symbionts on tick development and tick-borne pathogen transmission. The study of this internal microbiome requires the use of a sterilization method to remove external (i.e. cuticular) microbes present on the tick’s surface and to avoid any further contamination. Several sterilization methods exist, including ethanol- or bleach-based treatments that are both effective in killing microbes but with different potential effects on DNA denaturation. Methods We examined how these different sterilization methods impact the measure of internal microbial diversity hosted by the Cayenne tick Amblyomma cajennense (sensu stricto). Bacterial barcoding investigations based on 16S rRNA gene sequences were conducted on two batches of 50 individuals each: Ticks of the first batch were sterilized with bleach diluted at 1% and the second batch with 70% ethanol. Tick external microbiome was also determined from cuticle smearing and water samples used for tick washing. Results Bacterial barcoding investigations showed major differences between ethanol- and bleach-treated specimens. Both methods led to the detection of major intracellular bacteria associated with A. cajennense (s.s.) but ethanol-treated ticks always harbored a higher bacterial diversity than bleach-treated ticks. Further examinations of tick gut and tick external microbiome revealed that ethanol-based surface sterilization method is inefficient to eliminate the DNA of external bacteria. Conclusions We herein provide evidence that studies investigating the internal microbiome of ticks should consider bleach as the gold standard to efficiently remove cuticular bacterial DNA. Indeed, this method does not impact the internal bacterial diversity hosted by ticks and is thus a better method than the ethanol-based one for studying the internal microbiome.

Published

2019

25. Current debates and advances in tick microbiome research

Author

Alejandra Wu-Chuang, Adnan Hodžić, Lourdes Mateos-Hernández, Agustín Estrada-Peña, Dasiel Obregon, and Alejandro Cabezas-Cruz

Subjects

Tick microbiome, Tick-borne pathogens, Anti-tick microbiota vaccines, Tick-microbiome interaction, Infectious and parasitic diseases, RC109-216

Abstract

The main importance of ticks resides in their ability to harbor pathogens that can be transmitted to terrestrial vertebrates including humans. Recently, studies have focused on the taxonomic and functional composition of the tick microbiome, its microbial diversity and variation under different factors including tick species, sex, and environment among others. Of special interest are the interactions between the tick, the microbiome and pathogens since tick microbiome can influence pathogen colonization within the tick vector, and potentially, transmission to the vertebrate host. In this review, we tackled a synthesis on the growing field of tick microbiomes. We focus on the current state of tick microbiome research, addressing controversial and hotly debated topics and advances in the precise manipulation of tick microbiome. Furthermore, we discuss the innovative anti-tick microbiota vaccines as a possible tool for microbiome modulation and thus, control of tick-borne diseases. Deciphering tick-microbiome pathogen interactions can spur new strategies to control tick-borne diseases via modulation of tick microbiome.

Published

2021

26. Pathogenic and Endosymbiotic Bacteria and Their Associated Antibiotic Resistance Biomarkers in Amblyomma and Hyalomma Ticks Infesting Nguni Cattle (Bos spp.)

Author

Aubrey Dickson Chigwada, Ntanganedzeni Olivia Mapholi, Henry Joseph Oduor Ogola, Sikhumbuzo Mbizeni, and Tracy Madimabi Masebe

Subjects

Amblyomma, Hyalomma, tick microbiome, 16S rRNA, antibiotic resistance markers, Nguni cattle, Medicine

Abstract

Deciphering the interactions between ticks and their microbiome is key to revealing new insights on tick biology and pathogen transmission. However, knowledge on tick-borne microbiome diversity and their contribution to drug resistance is scarce in sub–Saharan Africa (SSA), despite endemism of ticks. In this study, high-throughput 16S rRNA amplicon sequencing and PICRUSt predictive function profiling were used to characterize the bacterial community structure and associated antibiotic resistance markers in Amblyomma variegatum, A. hebraeum, and Hyalomma truncatum ticks infesting Nguni cattle (Bos spp.). Twenty-one (seven families and fourteen genera) potentially pathogenic and endosymbiotic bacterial taxa were differentially enriched in two tick genera. In H. truncatum ticks, a higher abundance of Corynebacterium (35.6%), Porphyromonas (14.4%), Anaerococcus (11.1%), Trueperella (3.7%), and Helcococcus (4.7%) was detected. However, Rickettsia (38.6%), Escherichia (7%), and Coxiellaceae (2%) were the major differentially abundant taxa in A. variegatum and A. hebraeum. Further, an abundance of 50 distinct antibiotic resistance biomarkers relating to multidrug resistance (MDR) efflux pumps, drug detoxification enzymes, ribosomal protection proteins, and secretion systems, were inferred in the microbiome. This study provides theoretical insights on the microbiome and associated antibiotic resistance markers, important for the design of effective therapeutic and control decisions for tick-borne diseases in the SSA region.

Published

2022

27. The scale affects our view on the identification and distribution of microbial communities in ticks.

Author

Pollet, Thomas, Sprong, Hein, Lejal, Emilie, Krawczyk, Aleksandra I., Moutailler, Sara, Cosson, Jean-Francois, Vayssier-Taussat, Muriel, and Estrada-Peña, Agustín

Subjects

MICROBIAL communities, TICKS, MICROBIAL diversity

Abstract

Ticks transmit the highest variety of pathogens impacting human and animal health worldwide. It is now well established that ticks also harbour a microbial complex of coexisting symbionts, commensals and pathogens. With the development of high throughput sequencing technologies, studies dealing with such diverse bacterial composition in tick considerably increased in the past years and revealed an unexpected microbial diversity. These data on diversity and composition of the tick microbes are increasingly available, giving crucial details on microbial communities in ticks and improving our knowledge on the tick microbial community. However, consensus is currently lacking as to which scales (tick organs, individual specimens or species, communities of ticks, populations adapted to particular environmental conditions, spatial and temporal scales) best facilitate characterizing microbial community composition of ticks and understanding the diverse relationships among tick-borne bacteria. Temporal or spatial scales have a clear influence on how we conduct ecological studies, interpret results, and understand interactions between organisms that build the microbiome. We consider that patterns apparent at one scale can collapse into noise when viewed from other scales, indicating that processes shaping tick microbiome have a continuum of variability that has not yet been captured. Based on available reports, this review demonstrates how much the concept of scale is crucial to be considered in tick microbial community studies to improve our knowledge on tick microbe ecology and pathogen/microbiota interactions. [ABSTRACT FROM AUTHOR]

Published

2020

28. Bacterial microbiomes of Ixodes scapularis ticks collected from Massachusetts and Texas, USA.

Author

Thapa, Santosh, Zhang, Yan, and Allen, Michael S.

Subjects

IXODES scapularis, BORRELIA burgdorferi, TICKS, LYME disease, DISEASE vectors, BACTERIAL communities

Abstract

Background: The blacklegged tick, Ixodes scapularis, is the primary vector of the Lyme disease spirochete Borrelia burgdorferi in North America. Though the tick is found across the eastern United States, Lyme disease is endemic to the northeast and upper midwest and rare or absent in the southern portion of the vector's range. In an effort to better understand the tick microbiome from diverse geographic and climatic regions, we analysed the bacterial community of 115 I. scapularis adults collected from vegetation in Texas and Massachusetts, representing extreme ends of the vector's range, by massively parallel sequencing of the 16S V4 rRNA gene. In addition, 7 female I. scapularis collected from dogs in Texas were included in the study. Results: Male I. scapularis ticks had a more diverse bacterial microbiome in comparison to the female ticks. Rickettsia spp. dominated the microbiomes of field-collected female I. scapularis from both regions, as well as half of the males from Texas. In addition, the male and female ticks captured from Massachusetts contained high proportions of the pathogens Anaplasma and Borrelia, as well as the arthropod endosymbiont Wolbachia. None of these were found in libraries generated from ticks collected in Texas. Pseudomonas, Acinetobacter and Mycobacterium were significantly differently abundant (p < 0.05) between the male ticks from Massachusetts and Texas. Anaplasma and Borrelia were found in 15 and 63% of the 62 Massachusetts ticks, respectively, with a co-infection rate of 11%. Female ticks collected from Texas dogs were particularly diverse, and contained several genera including Rickettsia, Pseudomonas, Bradyrhizobium, Sediminibacterium, and Ralstonia. Conclusions: Our results indicate that the bacterial microbiomes of I. scapularis ticks vary by sex and geography, with significantly more diversity in male microbiomes compared to females. We found that sex plays a larger role than geography in shaping the composition/diversity of the I. scapularis microbiome, but that geography affects what additional taxa are represented (beyond Rickettsia) and whether pathogens are found. Furthermore, recent feeding may have a role in shaping the tick microbiome, as evident from a more complex bacterial community in female ticks from dogs compared to the wild-caught questing females. These findings may provide further insight into the differences in the ability of the ticks to acquire, maintain and transmit pathogens. Future studies on possible causes and consequences of these differences will shed additional light on tick microbiome biology and vector competence. [ABSTRACT FROM AUTHOR]

Published

2019

29. Editorial: Biological drivers of vector--pathogen interactions -- vol II.

Author

Rego, Ryan O. M., Lopez, Job E., and Cabesas-Cruz, Alejandro

Subjects

DENGUE, CASTOR bean tick, PATHOGENIC microorganisms, FAVA bean

Published

2023

30. Tick microbiome: the force within.

Author

Narasimhan, Sukanya and Fikrig, Erol

Subjects

*TICK-borne diseases, *VECTOR-pathogen relationships, *LIVESTOCK, *GENETIC vectors, *SCIENTIFIC observation, *INFECTIOUS disease transmission, *PREVENTION

Abstract

Ticks are obligate blood-feeders and serve as vectors of human and livestock pathogens worldwide. Defining the tick microbiome and deciphering the interactions between the tick and its symbiotic bacteria in the context of tick development and pathogen transmission will likely reveal new insights and spawn new paradigms to control tick-borne diseases. Descriptive observations on the tick microbiome that began almost a century ago serve as forerunners to the gathering momentum to define the tick microbiome in greater detail. This review will focus on the current efforts to address the microbiomes of diverse ticks, and the evolving understanding of tick microbiomes. There is hope that these efforts will bring a holistic understanding of pathogen transmission by ticks. [ABSTRACT FROM AUTHOR]

Published

2015

31. The scale affects our view on the identification and distribution of microbial communities in ticks

Subjects

Scales, Spatial, Temporal, Tick microbe interactions, Tick microbiome

Published

2020

32. The scale affects our view on the identification and distribution of microbial communities in ticks

Author

Jean-François Cosson, Agustín Estrada-Peña, Hein Sprong, Aleksandra I. Krawczyk, Sara Moutailler, Thomas Pollet, Emilie Lejal, Muriel Vayssier-Taussat, Biologie moléculaire et immunologie parasitaires et fongiques (BIPAR), École nationale vétérinaire d'Alfort (ENVA)-Laboratoire de santé animale, sites de Maisons-Alfort et de Dozulé, Agence nationale de sécurité sanitaire de l'alimentation, de l'environnement et du travail (ANSES)-Agence nationale de sécurité sanitaire de l'alimentation, de l'environnement et du travail (ANSES)-Université Paris-Est Créteil Val-de-Marne - Paris 12 (UPEC UP12)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), National Institute for Public Health and the Environment [Bilthoven] (RIVM), Laboratory of Entomology [Wageningen], Wageningen University and Research [Wageningen] (WUR), Département Santé Animale (DEPT SA), Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), University of Zaragoza - Universidad de Zaragoza [Zaragoza], Metaomics and microbial ecosystems' (MEM), Animal Health Department of the French National Institute for Agricultural Research (INRAE), and École nationale vétérinaire - Alfort (ENVA)-Laboratoire de santé animale, sites de Maisons-Alfort et de Dozulé

Subjects

0301 basic medicine, Entomology, Microbial diversity, 030231 tropical medicine, 030106 microbiology, Scales, Review, Biology, Tick, Temporal, lcsh:Infectious and parasitic diseases, 03 medical and health sciences, Spatio-Temporal Analysis, Ticks, 0302 clinical medicine, parasitic diseases, Animals, Humans, Spatial, lcsh:RC109-216, Microbiome, Laboratory of Entomology, Symbiosis, Temporal scales, Disease Reservoirs, Animal health, Ecology, Microbiota, Commensalism, biology.organism_classification, bacterial infections and mycoses, PE&RC, Tick microbe interactions, Tick microbiome, Laboratorium voor Entomologie, Infectious Diseases, [SDV.MP]Life Sciences [q-bio]/Microbiology and Parasitology, Microbial population biology, Tick-Borne Diseases, Host-Pathogen Interactions, Arachnid Vectors, Parasitology

Abstract

Ticks transmit the highest variety of pathogens impacting human and animal health worldwide. It is now well established that ticks also harbour a microbial complex of coexisting symbionts, commensals and pathogens. With the development of high throughput sequencing technologies, studies dealing with such diverse bacterial composition in tick considerably increased in the past years and revealed an unexpected microbial diversity. These data on diversity and composition of the tick microbes are increasingly available, giving crucial details on microbial communities in ticks and improving our knowledge on the tick microbial community. However, consensus is currently lacking as to which scales (tick organs, individual specimens or species, communities of ticks, populations adapted to particular environmental conditions, spatial and temporal scales) best facilitate characterizing microbial community composition of ticks and understanding the diverse relationships among tick-borne bacteria. Temporal or spatial scales have a clear influence on how we conduct ecological studies, interpret results, and understand interactions between organisms that build the microbiome. We consider that patterns apparent at one scale can collapse into noise when viewed from other scales, indicating that processes shaping tick microbiome have a continuum of variability that has not yet been captured. Based on available reports, this review demonstrates how much the concept of scale is crucial to be considered in tick microbial community studies to improve our knowledge on tick microbe ecology and pathogen/microbiota interactions.

Published

2020

33. Cross-kingdom analysis of nymphal-stage Ixodes scapularis microbial communities in relation to Borrelia burgdorferi infection and load.

Author

Landesman, William J, Mulder, Kenneth, Fredericks, L Page, and Allan, Brian F

Subjects

*IXODES scapularis, *ANAPLASMA phagocytophilum, *BORRELIA burgdorferi, *MICROBIAL communities, *COMMUNITY relations, *LYME disease

Abstract

The tick microbiota may influence the colonization of Ixodes scapularis by Borrelia burgdorferi , the Lyme disease bacterium. Using conserved and pathogen-specific primers we performed a cross-kingdom analysis of bacterial, fungal, protistan and archaeal communities of I. scapularis nymphs (N = 105) collected from southern Vermont, USA. The bacterial community was dominated by a Rickettsia and several environmental taxa commonly reported in I. scapularis , as well as the human pathogens B. burgdorferi and Anaplasma phagocytophilum , agent of human granulocytic anaplasmosis. With the fungal primer set we detected primarily plant- and litter-associated taxa and >18% of sequences were Malassezia , a fungal genus associated with mammalian skin. Two 18S rRNA gene primer sets, intended to target protistan communities, returned mostly Ixodes DNA as well as the wildlife pathogen Babesia odocoilei (7% of samples), a Gregarines species (14%) and a Spirurida nematode (18%). Data from pathogen-specific and conserved primers were consistent in terms of prevalence and identification. We measured B. burgdorferi presence/absence and load and found that bacterial beta diversity varied based on B. burgdorferi presence/absence. Load was weakly associated with bacterial community composition. We identified taxa associated with B. burgdorferi infection that should be evaluated for their role in vector colonization by pathogens. [ABSTRACT FROM AUTHOR]

Published

2019

34. Surface sterilization methods impact measures of internal microbial diversity in ticks.

Author

Binetruy, Florian, Dupraz, Marlène, Buysse, Marie, and Duron, Olivier

Subjects

MICROBIAL diversity, BACTERIAL communities, GENETIC barcoding, BACTERIAL DNA, AMBLYOMMA

Abstract

Background: Ticks are obligate blood feeders transmitting major pathogens worldwide. Over the past few years, considerable research efforts have focused on the diversity, distribution and impact of gut and intracellular bacterial symbionts on tick development and tick-borne pathogen transmission. The study of this internal microbiome requires the use of a sterilization method to remove external (i.e. cuticular) microbes present on the tick's surface and to avoid any further contamination. Several sterilization methods exist, including ethanol- or bleach-based treatments that are both effective in killing microbes but with different potential effects on DNA denaturation. Methods: We examined how these different sterilization methods impact the measure of internal microbial diversity hosted by the Cayenne tick Amblyomma cajennense (sensu stricto). Bacterial barcoding investigations based on 16S rRNA gene sequences were conducted on two batches of 50 individuals each: Ticks of the first batch were sterilized with bleach diluted at 1% and the second batch with 70% ethanol. Tick external microbiome was also determined from cuticle smearing and water samples used for tick washing. Results: Bacterial barcoding investigations showed major differences between ethanol- and bleach-treated specimens. Both methods led to the detection of major intracellular bacteria associated with A. cajennense (s.s.) but ethanol-treated ticks always harbored a higher bacterial diversity than bleach-treated ticks. Further examinations of tick gut and tick external microbiome revealed that ethanol-based surface sterilization method is inefficient to eliminate the DNA of external bacteria. Conclusions: We herein provide evidence that studies investigating the internal microbiome of ticks should consider bleach as the gold standard to efficiently remove cuticular bacterial DNA. Indeed, this method does not impact the internal bacterial diversity hosted by ticks and is thus a better method than the ethanol-based one for studying the internal microbiome. [ABSTRACT FROM AUTHOR]

Published

2019