CD8+ T Cell Serotype-Cross-Reactivity is a Predominant Feature of Dengue Virus Infections in Humans: A Dissertation

Friberg-Robertson, Heather L.

30 November 2010

The four serotypes of dengue virus (DENV 1-4) have a significant and growing impact on global health. Dengue disease encompasses a wide range of clinical symptoms, usually presenting as an uncomplicated febrile illness lasting 5-7 days; however, a small percentage of infections are associated with plasma leakage and bleeding tendency (called dengue hemorrhagic fever, DHF), which can result in shock. Epidemiological studies indicate that severe dengue disease most often occurs during secondary heterotypic DENV infection. Additionally, plasma leakage (the hallmark of DHF) coincides with defervescence and viral clearance, suggesting that severe disease arises from the immune response to infection rather than a direct effect of the virus. A number of studies have found increased levels of markers of immune cell activation in patients with DHF compared to patients with the less severe form of disease (DF). These markers include IFNγ, TNFα, soluble CD8, soluble IL-2 receptor, soluble TNF receptor, and CD69, which support a role for T cells in mediating immunopathology. Because of the high homology of DENV 1-4, some degree of serotype-cross-reactivity is seen for most T cell epitopes. A high percentage of DENV-specific T cells recognize multiple DENV serotypes, as demonstrated by peptide-MHC (pMHC) tetramer binding and in vitro functional assays performed on PBMC from subjects vaccinated with an experimental DENV vaccine or naturally-infected subjects with secondary (>1) DENV infection. This thesis sought to address several gaps in the literature, specifically whether T cell responses differ in primary versus secondary (natural) infection. We studied the frequency, phenotype, and function of DENV-specific T cells. We demonstrated substantial serotype-cross-reactivity of antigen-specific T cells generated in response to naturally-acquired primary as well as secondary DENV infection. The frequency of A11-NS3133 epitope-specific T cells during acute infection did not correlate with disease severity. However, the peak frequency occurred earlier in primary infection while the frequency of CD45RA+ T cells declined quicker in secondary infection, suggesting the expansion of DENV-specific memory T cells. DENV-immune T cells exhibited different functional capabilities that were dependent on the particular serotype of infection. Specifically, DENV-1 or -3 stimulation of A11-NS3133 epitope-specific T cell lines resulted in robust function that included IFNγ production, whereas DENV-2 stimulation resulted in limited function that often included MIP-1β but not IFNγ production. These data support a role for T cells in DENV infection and offer new insights into their potential contribution to dengue pathology.

Dengue Virus

Dengue

Dengue Hemorrhagic Fever

CD8-Positive T-Lymphocytes

Cross Reactions

Cells

Hemic and Immune Systems

Immunology and Infectious Disease

Pathology

Public Health

Virus Diseases

Viruses

Distinct Behaviors of Infected and Bystander Dendritic Cells Following Exposure to Dengue Virus: A Dissertation

Nightingale, Zachary Davis

17 September 2007

Dengue viruses (DV) are re-emerging mosquito-borne pathogens for which four distinct lineages, grouped based on serology and referred to as serotypes 1-4 (DIV-D4V), have been described. Epidemiological data imply that re-infection with a "heterologous" serotype, i.e, one other than that to which the individual was originally exposed, enhances the risk for development of severe disease, dengue hemorrhagic fever (DHF). The hallmark of DHF is a transient capillary leakage syndrome of rapid onset, temporally associated with the resolution of fever and viremia. In its most grave form, the vascular permeability phenomenon in DHF may progress to dengue shock syndrome (DSS), which is often fatal in the absence of appropriate medical care. Despite the fulminant nature of vascular leakage during DHF/DSS, this phenomenon does not appear to be due to direct cytopathic effects of DV. Rather, inappropriate reactivation and/or regulation of dengue-specific memory are the prevailing theorized (immunopathological) etiologies. Traditional vaccine development techniques have proven insufficient for DV, since any vaccine must offer complete protection against all four serotypes to avoid enhanced pathology on natural viral challenge. Understanding the underlying mechanisms that contribute to dengue disease, particularly the development of dengue-specific memory, is therefore of critical importance. Dengue immunopathology and the specific aspects of immunological memory that determine disease severity are heatedly debated. Previous research in our lab has suggested that T cell responses contribute to the severity of dengue illness. Clinical data indicate enhanced immune activation in more grave cases of DV infection, and serotype cross-reactive T cells from multiple individuals are present after both primary and secondary dengue infections. However, little is known about the conditions under which T cells are primed and dengue-specific memory is generated. Dendritic cells (DCs) are bone marrow-derived cells that play a central role in directing activity within the immune system. DCs shape quantitative and qualitative aspects of adaptive immunity, and therefore the intrinsic characteristics of host memory to a pathogen. DCs are essential in generating primary immune responses, due to their particular effectiveness in stimulating naïve T cells. DCs also play important roles in the reactivation of memory to an infectious agent, and as reservoirs for the dissemination of invading microorganisms. Exposure to pathogens or their products initiates a series of phenotypic and functional changes in DCs, termed maturation. DC maturation involves a coordinated response of immunomodulatory surface molecule elaboration and cytokine production, culminating in antigen presentation to, and co-stimulation of, T cells specific for the invading agent. The DC response is ostensibly tailored to facilitate effective elimination by regulating effective downstream interactions of the DC with T cells. A number of viruses have evolved to infect DCs and alter their functional behavior, facilitating their own survival within the host, and the herd. DV readily infects DCs both in primary cell cultures and in vivo. However, reports on the effects of DV infection on DC maturation vary both with regard to some of the cytokines produced, and the phenotypes of infected versus bystander cells. Although DCs appear to be activated following DV exposure, responses on the single-cell level appear to depend on the infection state of the cell, hypothetically driven by intracellular virus-mediated effects. Therefore, downstream responses to these divergent populations - i.e., actively infected cells versus uninfected bystander cells - are likely to be the consequence of at least two modes of DC behavior. Because DCs play a pivotal role in adaptive immune development, and because the resulting memory response appears to be critical in affecting disease pathology after heterologous DV re-infection, I sought to explore the phenomena of DC maturation in response to dengue exposure, and to begin to answer the question of how active infection alters the functional capabilities of DCs. Notably, primary dengue infection is generally well-controlled with minimal pathology. Therefore, this thesis addresses the hypothesis that DV infection of DCs results in cellular activation and stimulation of antiviral immunity, despite virus-mediated alteration of DC maturation. In order to address this hypothesis, I examined both DV infection-dependent and independent effects on DC functional responses including surface molecule regulation secretory activity, and CD4 T cell allostimulatory priming. DCs derived from human peripheral blood monocytes were readily infected with multiple strains of DV. DV infection of DCs derived from separate donors was dose-dependent, with substantial variability in DC susceptibility to infection. Exposure to live DV activated surface molecule expression in DCs, similar to the effects of defined maturation stimuli including a combination of TNF-α and IFN-α, or LPS. In addition, UV-inactivated DV induced expression of cell surface molecules, albeit to a lesser extent than did live virus demonstrating inherent stimulatory properties of DV particles. Using intracellular staining for DV envelope (E) protein, I detected increased surface molecule expression on both infected DCs and uninfected bystander DCs from the same culture, as compared to mock-infected DCs. These data indicate that activation was not prevented in cells undergoing active viral replication. However, the degree of surface molecule induction depended on the infection state of the cell. Infected DCs had enhanced PD-L2 and MHC II expression relative to uninfected bystander cells, while PD-L1, CD80, CD86, and MHC I expression were suppressed with active infection. Therefore, intracellular DV replication altered the process of cell surface molecule regulation within these cells. DV infection of DCs also resulted in the secretion of a broad array of cytokines and chernokines. These included the antiviral cytokine IFN-α, inflammatory cytokines TNF-α, IL-6, and IL-1α, and inflammatory chemokines IP10, MCP-1, MIP-1α, and RANTES. DV infection did not induce DC production of the IL-12 p70 heterodimer, and secretion of the immunosuppressive cytokine IL-10 was low in most experiments. Similar to the results seen with surface molecule induction, UV inactivation of DV reduced, but did not eliminate, cytokine and chemokine responses. At the single-cell level, TNF-α and IP10 production profiles of infected DCs and uninfected bystander DCs were distinct. DV infection in DCs reduced production of IP10, but stimulated TNF-α as compared to uninfected bystander cells in the same culture. Blocking experiments demonstrated that IFN-α/β produced by DCs in response to infection actively inhibited viral protein expression and drove IP10, but not TNF-α, production. DV infection of DCs did not consistently suppress DC stimulation of allogeneic CD4 T cell proliferation. In cases where infection enhanced DC stimulatory function, T cell proliferation was less pronounced than that induced by DCs activated with exogenous TNF-α plus IFN-α. Increasing multiplicity of infection (MOI) of DCs with DV resulted in increasing DC infection rates, but a statistically significant trend at the highest MOIs for decreased T cell alloproliferation, suggesting that direct infection of DCs reduces their CD4 T cell priming function. MOI-dependent reduction in DC stimulatory function depended on replication-competent virus. Increased MOIs during DV infection of DCs did not cause an elevation in detectable IL-10 in supernatants derived from T-DC co-cultures. In addition, increased DV MOI of DCs was not associated with increased levels of either IL-13 or IFN-γ in supernatants from T-DC co-culture, suggesting that actively infected DC do not skew CD4 T cells towards a specific Th phenotype. These data demonstrate that DV infection induces functional maturation of DCs that is modified by the presence of virus through both IFN-dependent and independent mechanisms. However, the allostimulatory phenotype of DCs was not universally enhanced, nor was it skewed towards antiviral (Th1)-type responses. These data suggest a model whereby dengue infection during primary illness results in controlled immune stimulation through activation of bystander DCs, and the generation of mixed Th-type responses. Direct DV infection of DCs appears to attenuate activation of, and potentially clearance by, antiviral mechanisms. During secondary infection, reduced IP10 production and enhanced TNF-α secretion by infected cells coupled with MHC I downregulation and enhanced PD-L2 expression, would subvert both Th1 CD4 T cell recruitment and result in CD8 T cell suppression and death. Furthermore, DV-specific effects on DCs would allow for continued viral replication in the absence of effective clearance. These DV-mediated effects would modify T cell memory responses to infected DC, and potentially facilitate the expansion of pathologic T cell subsets. Contributing to this pathological cascade, antibody-dependent enhancement of infection in monocytic cells and macrophages would shift antigen presentation and cytokine production paradigms, increasing the risk of DHF.

Dengue Virus

Dendritic Cells

Dengue Hemorrhagic Fever

Tumor Necrosis Factors

Interleukins

Interferons

Amino Acids, Peptides, and Proteins

Biological Factors

Cells

Virus Diseases

Viruses

Développement d’un vaccin à ADN optimisé contre le virus de la fièvre de la vallée du Rift chez le mouton / Development of an optimized DNA vaccination against the Rift valley fever virus in sheep

Chrun, Tiphany

20 March 2018

Transmis par les moustiques, le virus de la fièvre de la vallée du Rift (vFVR) est un virus zoonotique qui affecte principalement les ruminants en Afrique et conduit à des pertes économiques importantes. Il n’existe actuellement pas de traitements et les seuls vaccins disponibles sont à usage vétérinaire. Le développement de nouveaux vaccins plus sûrs contre le vFVR est une priorité de l’OMS en raison du risque d’émergence de cet arbovirus dans d’autres continents. Dans cette étude, nous avons développé une vaccination à ADN optimisée contre le vFVR qui consiste à administrer par voie cutanée un plasmide codant pour l’ectodomaine de la glycoprotéine de surface Gn du vFVR (eGn) en présence d’un plasmide adjuvant codant le GM-CSF et combinée avec une électroporation. De plus, nous avons également optimisé la vaccination à ADN en l’associant à la stratégie de ciblage des cellules dendritiques (DCs) via un plasmide qui code des fragments d’anticorps scFv fusionnés avec l’eGn dirigés contre les récepteurs DEC205 et CD11c exprimés à la surface des DCs. Les vaccins ont été testés chez le mouton, hôte naturel du virus et dans le modèle murin pour étudier les mécanismes de protection. Dans nos deux modèles d’études, l’immunisation par le plasmide codant l’eGn confère une meilleure protection après une épreuve virale ainsi qu’une forte production d’anticorps non neutralisants par rapport au ciblage des DCs. En revanche, le ciblage d’eGn vers des récepteurs de DCs protège partiellement contre une épreuve virale et induit une immunogénicité différente dans les deux espèces. Nous avons confirmé le rôle protecteur de ces anticorps anti-eGn par un transfert passif dans le modèle murin et le mécanisme d’action de ces anticorps protecteurs reste encore à être déterminé. Notre étude montre pour la première fois la protection par un vaccin à ADN contre le vFVR chez le mouton. / The Rift valley fever virus (RVFV) is a mosquito-borne virus that mainly affect ruminants in Africa, resulting in economic burden. There is currently no treatment and only vaccine for veterinary use against the RVFV are available. The development of new and safer vaccine is urgently needed due to the risk of introduction of this arbovirus to other continents. In the present work, we developed an optimized DNA vaccination against RVFV using a plasmid encoding the ectodomain of surface glycoprotein Gn (eGn) of RVFV into the skin with plasmid adjuvant encoding GM-CSF and electroporation in sheep. We further optimized the DNA vaccination using dendritic cell targeting strategy with a plasmid encoding a single chain fragment variable (scFv) fused with eGn directed to two DC receptors, DEC205 and CD11c. The efficacy of the vaccines were tested in the sheep, the natural host and in the mouse model to investigate the mechanism of protection. In both models non-targeted eGn vaccine confer a better clinical protection and higher non-neutralizing antibody production than DC-targeted vaccine. However, in both models eGn targeting to DEC205 differentially affected the immune response and induced a partial protection after a challenge. We further demonstrated that non-neutralizing antibodies induced by native eGn protect mice by passive transfer. The mechanism mediated by these antibodies remains to be investigated. Overall, this work indicates the proof of concept that DNA vaccine can confer protection against the RVFV in the sheep.

Fièvre de la vallée Rift

Vaccination à ADN

Cellules dendritiques

ScFv

Dec205

CD11c

Rift valley fever

DNA vaccination

Dendritic cell

ScFv

Dec205

CD11c

636.308 9

Elucidating the interaction of Borrelia burgdorferi OspC with phagocytes in the establishment of lyme borreliosis

Carrasco, Sebastian Eduardo

20 March 2015

Indiana University-Purdue University Indianapolis (IUPUI) / Lyme disease, the most prevalent vector-borne illness in the United States, is a multisystem inflammatory disorder caused by infection with the spirochete Borrelia burgdorferi (Bb). This spirochete is maintained in nature through an enzootic cycle involving ticks and small mammals. The Bb genome encodes a large number of surface lipoproteins, many of which are expressed during mammalian infection. One of these lipoproteins is the major outer surface protein C (OspC) whose production is induced during transmission as spirochetes transition from ticks to mammals. OspC is required for Bb to establish infection in mice and has been proposed to facilitate evasion of innate immunity. However, the exact biological function of OspC remains elusive. Our studies show the ospC-deficient spirochete could not establish infection in NOD-scid IL2rγnull mice that lack B cells, T cells, NK cells, and lytic complement, whereas the wild-type spirochete was fully infectious in these mice. The ospC mutant also could not establish infection in SCID and C3H mice that were transiently neutropenic during the first 48 h post-challenge. However, depletion of F4/80+ phagocytes at the skin-site of inoculation in SCID mice allowed the ospC mutant to establish infection in vivo. In phagocyte-depleted SCID mice, the ospC mutant was capable to colonize the joints and triggered neutrophilia during dissemination in a similar pattern as wild-type bacteria. We then constructed GFP-expressing Bb strains to evaluate the interaction of the ospC mutant with phagocytes. Using flow cytometry and fluorometric assay for phagocytosis, we found that phagocytosis of GFP-expressing ospC mutant spirochetes by murine peritoneal macrophages and human THP-1 cells was significantly higher than parental wild-type Bb strains, suggesting that OspC has an anti-phagocytic property. This enhancement in phagocytosis was not mediated by MARCO and CD36 scavenger receptors and was not associated with changes in mRNA levels of TNFα, IL-1β, and IL-10. Phagocytosis assays with HL60 neutrophil-like cells showed that uptake of Bb strains was independent to OspC. Together, our findings reveal that F4/80+ phagocytes are important for clearance of the ospC mutant, and suggest that OspC promotes spirochetes' evasion of macrophages in the skin of mice during early Lyme borreliosis.

Borrelia burgdorferi

EF-Tu

Infection

Lyme disease

OspC

Phagocytes

Lyme disease

Borrelia burgdorferi -- Research

Protein C

Lyme disease -- Molecular aspects

Relapsing fever

Spirochetes -- Molecular aspects

Bacteria

Obraz těla a nemoci v léčebných rituálech Mezopotámie 1. tis. př.n.l.: Příklad horečky / The Notion of Body and Illness in the Healing Rituals of the 1st Millennium BCE Mesopotamia: The Case of Fever

Loulová, Petra

January 2021

Body is a biological system, but also a medium, through which an individual as well as their culture are actualized in the world. Both the individual and culture conceptualize the body in notions that, together with physical perceptions, constitute bodily experience. In studying ancient cultures, such as Mesopotamia, the actual bodily experience is lost for us, but the cultural notions can be reconstructed. The present thesis focuses on the notions of body and disease in Mesopotamian healing practice recorded in professional medical literature that was being canonized and copied since the late second millennium BCE. The collections of prescriptions called "therapeutic texts" are of main interest, since they present the healing procedure itself. In these texts, I analyzed the verbal descriptions of disease and healing as well as the physical treatment of the body with regard to general context and with focus on cases of fever. The thesis concludes, that the texts present the interaction between the body and the disease as spatial and physical, in their metaphors as well as in the prescribed treatment of the body and of surrounding space. Fever entered from outer space, attached itself to the body, it "seized" or "took hold" of the person, and needed to be removed. Its independent agency, the way...

Fever and Diarrhea Incidence in a Daycare Setting

Cox, Jeremiah L.

27 October 2022

No description available.

Epidemiology

Public Health

fever

diarrhea

infant

daycare

childcare

SARS-CoV-2

COVID

COVID-19

norovirus

caliciviruses

sapovirus

enteric disease

disease transmission

pandemic

shutdown

Typhoid Fever InAthens County, OhioFrom 1867-1903:Mortality, Social NetworksAnd Cultural Status

Cromwell, Natasha Renée

15 July 2015

No description available.

Cultural Anthropology

Demographics

Health

History

Mining

Physical Anthropology

Social Structure

Social Research

Virology

typhoid

fever

medical

Athens County

Ohio

anthropology

medical anthropology

rural health

Appalachia

Pine Barrens Wildlife Management: Exploring the Impact of a Stressor and Active Management on Two Taxa at Camp Edwards

Gordon, Andrew B, Jr

01 September 2023

Mandated by the Sikes Act of 1960, natural resource managers work to manage the habitats and wildlife that are found on military installations in the United States and Territories. At Camp Edwards Military Training Reservation (hereby abbreviated to Camp Edwards), (Bourne, MA), such wildlife includes the state-protected eastern box turtle (Terrapene carolina carolina) and the declining prairie warbler (Setophaga discolor), which both occupy pine barrens. In 2020, natural resource managers at Camp Edwards noticed that eastern box turtles were being infected by myiasis, which occurs when flesh flies deposit larvae into the living tissue of a vertebrate host. In the literature, it has been documented that several ectothermic hosts respond to disease or parasite infection through a phenomenon referred to as ‘behavioral fever’ by moving to warmer locations to raise their internal temperature. Behavioral fever may clear the infection faster because higher body temperatures can induce parasite mortality or prevent secondary infections. However, it is unclear if myiasis induces behavioral fever in eastern box turtles or impacts other aspects of their behavior, such as habitat use. In Chapter 1, I compare behavior and habitat characteristics of myiasis infected and noninfected eastern box turtles at Camp Edwards. I radio-tracked 48 turtles weekly from May to August 2022. Upon capture, I recorded their infection status, shell surface temperature, and capture location habitat characteristics: understory vegetation, basal area, and canopy closure. I used generalized linear models and linear models to compare body condition indexes, shell temperatures, habitat use, and movement distances between infection statuses, sexes, and age classes. I found that myiasis infection had no significant effect on any variable other than shell surface temperature, which suggests infected turtles may be exhibiting behavioral fever. A second species of great concern at Camp Edwards are prairie warblers. Prairie warblers occupy early successional forests, which means that habitat management could have a direct impact on the distribution and abundance of this species. Despite declining populations regionally, prairie warbler populations at Camp Edwards have increased in the last few years. In Chapter 2, I analyze the effect of management projects (i.e., prescribed fire and mechanical projects) on prairie warbler colonization, extinction, and detection probabilities at Camp Edwards. I found that colonization was significantly predicted by the number of years since management and the proportion of the following vegetation cover types at a site: grassland, disturbed land, pitch pine – oak forest, and pitch pine – scrub oak community. I also found that extinction was significantly predicted by the proportion of pitch pine – scrub oak community at a site. Lastly, I found that detection probability was significantly predicted by the year of observation and the proportion of the following vegetation cover types: grassland, pitch pine – oak forest, and pitch pine – scrub oak community. These results can help managers predict how prairie warbler populations respond to management projects at Camp Edwards.

parasitism

macroparasite

behavioral fever

dynamic occupancy model

habitat management

military installation

Behavior and Ethology

Ecology and Evolutionary Biology

Forest Management

Parasitology

Population Biology

[pt] FEBRE E SUAS DIMENSÕES: APROXIMAÇÕES E TRAVESSIAS DO SIGNO FEBRIL / [en] FEVER AND ITS DIMENSIONS: APPROACHING AND CROSSING THE FEVERISH SIGN

CAROLINE FACANHA DOS SANTOS MATHIAS

24 January 2020

[pt] A partir da proposição de Virginia Woolf em seu ensaio Sobre estar doente, a dissertação investe numa experiência de imersão na figura da febre em fragmentos, manifestações artísticas e teórico-críticas. Vozes como a do filósofo alemão Walter Benjamin e a do teórico estadunidense Jonathan Crary comparecem à pesquisa, nos convidando a uma dimensão específica da febre, ora morosa, ora efervescente; ora humana, ora maquinal; ora furiosa; ora amortecida. No âmbito do estudo, cabe se perguntar: que dimensões políticas poderiam ser mobilizadas a partir do estado do convalescente que observa o mundo de sua cama? Poderia tal ação oferecer um desconcerto à ordem utilitária e hegemônica que se instaurou como consequência direta do modelo econômico vigente? A dissertação endereça tais questões, ao introduzir uma nova qualidade de olhar, um estado que, mesmo em meio à ferocidade de informação e demanda do capitalismo tardio, possibilita um recuo das coisas do mundo para que os detalhes e os fragmentos, esquecidos debaixo da cama, se tornem visíveis mais uma vez. / [en] Having Virginia Woolf s proposition in her essay On being ill as a starting point, this dissertation focus on an immersive experience of the fever imagery lived by both artistic and theoretical critical manifestations. Theories from Walter Benjamin, the german philosopher, and Jonathan Crary, the north-american scholar, are present in this research, inviting us to a specific dimension of the fever, slow and effervescent; human and mechanical; infuriated and dampened. Regarding the study of this paper, it is necessary to ponder: what political dimensions could be mobilized from the state of convalescence of someone who observes the world from their bed? Could such action disturb the practical and hegemonic orders that have been installed as a direct consequence of the current economic model? This paper addresses these questions by introducing a new way of seeing things, a state in which, even among the ferocity of information demanded by late capitalism, allows a depart from the things of the world so the details and fragments, forgotten under the bed, may be seen once again.

[pt] WALTER BENJAMIN

[pt] JONATHAN CRARY

[pt] VIRGINIA WOOLF

[pt] FEBRE

[pt] CAPITALISMO TARDIO

[en] WALTER BENJAMIN

[en] JONATHAN CRARY

[en] VIRGINIA WOOLF

[en] FEVER

Ultrastructure of Cimex lectularius L. (Hemiptera: Cimicidae) salivary glands after a blood meal infected with Bartonella henselae (Hyphomicrobiales: Bartonellaceae)

Sabet, Afsoon

13 May 2022

Bed bugs (Hemiptera:Cimicidae) are a common, hematophagous ectoparasite of humans and other animals, and are experiencing an international resurgence. Cimicids have been implicated in the transmission many disease agents, including various Bartonella species, however disease transmission has not yet been confirmed. Bartonella spp. are transmitted by a variety of arthropods, including fleas, lice and sand flies, and it is speculated that bed bugs may also serve as a potential vector. In this study, we used an artificial membrane to feed two groups of adult Cimex lectularius rabbit blood, either infected or uninfected with Bartonella henselae. After two weeks, the presence of Bartonella henselae was assessed via PCR, and salivary glands from infected and uninfected bed bugs were dissected and processed for transmission electron microscopy. We were unable to visually identify Bartonella henselae in the images, and therefore unable to confirm the role of bed bugs in B. henselae transmission.

bed bugs

Bartonella henselae

disease transmission

medical entomology

vector biology

vector-borne disease

cat scratch fever

TEM

transmission electron microscopy

Entomology