Internalization and survival mechanisms of human ehrlichiosis agents ehrlichia chaffeensis and anaplasma phagocytophilum in host cells

Lin, Mingqun

06 August 2003

No description available.

Human Ehrlichiosis

Ehrlichia chaffeensis

Anaplasma phagocytophilum

Entry and proliferation

Transglutaminase

Protein tyrosine kinase

Phospholipase C

Calcium

Caveolae

GPI-anchored proteins

Cholesterol

Lipopolysaccharide

Toll-like receptors

MAPK

Éco-épidémiologie de la maladie de Lyme dans le Sud-Ouest du Québec : étude des facteurs environnementaux associés à son établissement.

Bouchard, Catherine

09 1900

Depuis les années 90, les études réalisées au Canada ont permis d’identifier de nouvelles zones endémiques de l’agent de la maladie de Lyme, Borrelia burgdorferi, ou de sa tique vectrice, Ixodes scapularis. Ces régions représentent des zones privilégiées pour étudier le cycle de transmission dans son contexte environnemental. L’objectif principal de ce projet est d’étudier les relations spirochètes – tiques - hôtes et les facteurs environnementaux impliqués dans le cycle de transmission à partir des données du vecteur et de l’agent pathogène recueilli dans le Sud-Ouest du Québec de 2007 à 2008. Tout d’abord sera décrite la saisonnalité des tiques et des associations entre le vecteur et les hôtes rongeurs capturés. En effet, l’identification de la saisonnalité spécifique à chaque stade de la tique I. scapularis permet d’établir quels seront les mois propices pour effectuer les futures collectes de tiques. La saisonnalité synchrone des tiques immatures en quête peut également être un indicateur de la nature ou des souches de B. burgdorferi retrouvées. L’association des tiques immatures à différentes espèces ou à différentes classes d’hôtes (c.-à-d. âge, sexe, statut reproductif) a également été explorée. Nos résultats montrent que les souris du genre Peromyscus, principalement les mâles adultes, contribuent significativement à la survie et au développement du complexe I. scapularis - B. burgdorferi. Les tamias et les écureuils contribuent aussi à la survie et au développement des populations de la tique I. scapularis. Ensuite les associations entre le vecteur et les hôtes cervidés ont été examinées en tenant compte des facteurs environnementaux associés à leur niveau d’infestation. Ceci a permis d’évaluer l’utilisation des cerfs à titre de sentinelles pour le vecteur et les agents pathogènes. D’après nos résultats, bien qu’ils soient des sentinelles efficaces pour détecter Anaplasma phagocytophilum, les cerfs semblent des sentinelles inefficaces pour détecter les zones d’établissement du complexe I. scapularis-B. burgdorferi. Enfin, une analyse de l’impact de la diversité des hôtes et de l’habitat sur l’abondance de la tique I. scapularis et la prévalence de B. burgdorferi a été effectuée et ce, en tenant compte d’autres facteurs environnementaux. Ces analyses ont permis de déterminer les facteurs critiques pour l’établissement du complexe I. scapularis – B. burgdorferi et d’explorer la contribution relative de diverses espèces d’hôtes. D’après nos études, la diversité de la communauté d’hôte et la diversité de l’habitat influencent le complexe I. scapularis - B. burgdorferi. De plus, le climat (la température et les précipitations) joue un rôle significatif dans l’établissement, la survie et le développement des populations d’I. scapularis. Ce projet de recherche a permis d’explorer et d’identifier divers facteurs environnementaux biotiques et abiotiques influençant l’établissement du complexe I. scapularis - B. burgdorferi dans le Sud-Ouest du Québec. Ceux-ci pourraient être utilisés à titre d’indicateurs environnementaux du risque de la maladie de Lyme au Québec et possiblement ailleurs au Canada. / Since the 90s in Canada, studies have identified new endemic areas for the agent of Lyme disease, Borrelia burgdorferi and the tick vector, Ixodes scapularis. These newly endemic areas for complex I. scapularis - B. burgdorferi are prime areas to study the transmission cycle in its environmental context. The main objective of this project is to study the spirochete-tick-host relationships and environmental factors involved in the transmission cycle from the data of the vector and the pathogen collected in southwestern Quebec, 2007 to 2008. First, a description of the seasonality of ticks and associations between the vector and captured rodent hosts was performed. The identification of specific seasonality at each stage of the tick I. scapularis establishes months conducive to make the future collections of ticks. Synchronous seasonality of questing immature ticks may also be an indicator of the nature or strain of B. burgdorferi found. In addition, the association of immature ticks in different species or different classes of hosts (i.e. age, sex, reproductive status) was explored. The Peromyscus mice and adult males in particular contributed significantly to the survival and development of complex I. scapularis-B. burgdorferi. Chipmunks and squirrels also contributed to the survival and development of I. scapularis populations. Second, the associations between vector and examined deer was described taking into account the environmental factors associated with the level of infestation and the use of deer as sentinels for the vector and the pathogen was evaluated. According to our results, the deer are effective sentinels to detect Anaplasma phagocytophilum, but seem ineffective or imprecise to detect endemic areas for complex I. scapularis-B. burgdorferi. Finally, an analysis of the impact of the host diversity and habitat on the abundance of I. scapularis and prevalence of B. burgdorferi considering other environmental factors was performed. These analyzes were used to determine the critical factors in the establishment of complex I. scapularis-B. burgorferi and explore the relative contribution of various host species. According to our studies, the diversity of the host community and habitat influences the complex I. scapularis-B. burgdorferi. On the other hand, the climate (temperature and precipitation) plays a significant role in the establishment, survival and development of the I. scapularis populations. This study allowed us to explore and identify various biotic and abiotic environmental factors influencing the establishment of complex I. scapularis-B. burgdorferi in southwestern Quebec. These environmental factors could be used as environmental indicators of the risk of Lyme disease in Quebec and possibly elsewhere in Canada.

maladie de Lyme

éco-épidémiologie

facteurs environnementaux

borrelia burgdorferi

anaplasma phagocytophilum

Québec

Lyme disease

eco-epidemiology

environmental factors

rodents

deer

cerfs

micromammifères

Quebec

ixodes scapularis

Éco-épidémiologie de la maladie de Lyme dans le Sud-Ouest du Québec : étude des facteurs environnementaux associés à son établissement

Bouchard, Catherine

09 1900

No description available.

maladie de Lyme

éco-épidémiologie

facteurs environnementaux

borrelia burgdorferi

anaplasma phagocytophilum

Québec

Lyme disease

eco-epidemiology

environmental factors

rodents

deer

cerfs

micromammifères

Quebec

ixodes scapularis

The Spatial and Molecular Epidemiology of Lyme Disease in Eastern Ontario

Slatculescu, Andreea M.

11 August 2023

Lyme disease is an emerging tick-borne illness in Canada, with human case numbers increasing 15- to 20-fold since Lyme disease became nationally notifiable in 2009 until the present. In Ontario, Canada's largest province by population, average Lyme disease incidence across the province is similar to that of national estimates. However, in eastern Ontario, which is near tick endemic regions in the northeastern Unites States, Lyme disease incidence is disproportionately higher compared to the rest of the province. The objectives of this thesis are to identify environmental Lyme disease risk areas in Ontario, to explore spatiotemporal trends in Lyme disease emergence, and to identify neighbourhood-level socioecological risk factors for Lyme disease. In addition, this thesis also aims to assess the risk of other tick-borne illnesses that are transmitted by the blacklegged tick, Ixodes scapularis, which is also the main vector for Lyme disease in Canada. Using maximum entropy species distribution modelling to correlate blacklegged tick occurrence data with environmental variables, predictive risk models for I. scapularis and the Lyme disease pathogen, Borrelia burgdorferi, were developed. The model prediction was used to classify low and high environment risk areas and, using a case-control epidemiological study, we assessed that residence in risk areas was a strong predictor of Lyme disease. However, this relationship was modulated by socioecological factors linked to higher overall rurality of the locality of home residence. Spatial cluster analyses further revealed that human Lyme disease cases clustered in regions with the high numbers of reported B. burgdorferi-infected ticks in the environment. Many individuals residing in large metropolitan regions, like the City of Ottawa, reported tick exposures outside their public health unit of residence; however, local clusters of Lyme disease were also detected in suburban regions near conservation areas, trails, and urban woodlands. The prevalence of other tick-borne pathogens was low, although several pathogens of public health significance including Borrelia miyamotoi and Anaplasma phagocytophilum were detected at multiple sites surveyed for ticks between 2017-2021. Overall, this thesis identify patterns in Lyme disease emergence (and potentially other tick-borne illnesses), defines environmental risk areas for Lyme disease in Ontario, and highlights important socioecological risk factors for Lyme disease in eastern Ontario.

Lyme disease

Blacklegged tick

Ixodes scapularis

Borrelia burgdorferi

Borrelia miyamotoi

Anaplasma phagocytophilum

Babesia microti

Powassan virus

Species distribution modelling

Maximum entropy (Maxent)

Kulldorff spatial scan statistic

Case-control study

Socioeconomic risk factors

Multi-locus sequence typing

Infection Prevalence in a Novel Ixodes scapularis Population in Northern Wisconsin

Westwood, Mary Lynn

30 August 2017

No description available.

Biology

Ecology

Epidemiology

Public Health

Ixodes scapularis

ticks

diseases

Anaplasma phagocytophilum

Babesia microti

blacklegged tick

deer tick

vector

Ixodes

Anaplasma

Babesia

Borrelia burgdorferi

Borrelia

disease ecology

vector

vector-borne

zoonoses

zoonotic disease

Lyme