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result(s) for
"Zoonotic Parasitic Pathogens"
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Proliferating toward sex: characterization of cell division of Toxoplasma gondii’s pre-sexual stages
by
Hakimi, Mohamed-Ali
,
Sena, Florencia
,
Francia, Maria E.
in
apicomplexan
,
cell division
,
Clinical Microbiology and Infectious Diseases
2026
Toxoplasmosis is a disease of worldwide distribution, causing high morbidity and mortality in humans, as well as heavily impacting animal health and the economy. Toxoplasma gondii, the causative agent, is an intracellular parasite with a complex life cycle whose completion entails asexual, pre-sexual, and sexual stage conversions. Pre-sexual and sexual differentiation take place only within the intestinal epithelium of felines. Recently, several transcriptional factors and epigenetic components crucial to trigger parasite stage transitions within the cat have been identified, allowing, through precise genetic manipulation, obtaining pre-sexual stages known as merozoites in vitro. Through conditional depletion of two pre-sexual stage-specific gene silencing transcription factors, AP2XII-1 and AP2XII-2, we have characterized the interplay between cell division and the sequence of events leading up to differentiation of tachyzoites into merozoites. We explored genome duplication, assembly of daughter cells, karyokinesis, and cytokinesis, characterizing the differential cell division modes and kinetics undergone by critical structures along the differentiation axis. Building onto the pre-existing body of knowledge, primarily describing the underpinnings of these forms of division by transmission electron microscopy, our work contributes previously unexplored temporal and spatial resolution to the transitions between endodyogeny and endopolygeny, providing a conceptual framework for understanding and exploring T. gondii’s route of sexual differentiation.IMPORTANCESexual development in Toxoplasma gondii is essential for transmission, but remains poorly understood, largely because pre-sexual stages are restricted to the feline intestine and have only recently become experimentally accessible. Here, we leverage an in vitro differentiation system to resolve how parasites transition toward merozoite formation at the cellular level. By combining expansion microscopy, stage-specific markers, and quantitative analyses, we define the temporal sequence of nuclear division and daughter cell assembly during merogony, addressing longstanding ambiguity regarding division modes in these stages. Our findings reveal that parasites can adopt alternative division strategies emerging from a polyploid intermediate, highlighting an unexpected degree of flexibility in how cell division is executed during differentiation. Beyond refining this developmental framework, this work establishes a foundation for future mechanistic studies of pre-sexual biology and provides broader insight into the diversity of eukaryotic cell division strategies.
Journal Article
A protein disulfide isomerase coordinates redox homeostasis and ER calcium regulation for optimal lytic cycle progression in Toxoplasma gondii
by
Moen, Katherine E.
,
Moreno, Silvia N. J.
in
Animals
,
Calcium - metabolism
,
calcium homeostasis
2026
The lytic cycle of Toxoplasma gondii is critical for parasite dissemination and disease progression in the host. Calcium signaling plays a crucial role in driving these processes; however, the molecules that control calcium storage and release remain poorly understood. The endoplasmic reticulum, likely the largest calcium reservoir in T. gondii , has been understudied in the context of calcium signaling. Here, we uncover a direct link between ER redox regulation and calcium homeostasis, showing that ER redox activity can influence calcium signaling events that govern microneme protein maturation and secretion, parasite invasion, and replication. Our findings indicate that redox-dependent calcium regulation in the ER contributes to control of the parasite lytic cycle and reveals a previously unrecognized mechanism that may influence parasite virulence.
Journal Article
TgJosephin and TgRad23 are important for anti-IFN-γ virulence via deubiquitination of SPM1 in Toxoplasma
2026
Toxoplasma gondii is an obligate parasite whose infection can be detrimental when combined with pregnancy or immunodeficiency. Studies on T. gondii virulence have revealed various secretory proteins that inhibit the host interferon-gamma (IFN-γ) immune response. However, much of the broader virulence landscape remains unclear. To explore the unknown molecular pathways of T. gondii virulence in mice, we searched for immunosuppressive functions in genes encoding non-secretory proteins, associated with fundamental cellular processes of the virulent type I strain. Here, we found that TgJosephin, a highly conserved deubiquitinase, was important for virulence in wild-type mice but not mice lacking the IFN-γ receptor (IFNγR). In addition, TgJosephin expression was dependent on TgRad23, and loss of TgJosephin led to increased ubiquitination of a microtubule protein SPM1. Our results suggest a novel anti-IFN-γ pathway of T. gondii mediated by TgJosephin and SPM1 deubiquitination.
Journal Article
Kiss and spit metabolomics highlight the role of host purine metabolism during pathogen infection
by
Gallego-Lopez, Gina M
,
Olson, William J
,
Contreras Guzman, Emmanuel
in
Clinical Microbiology and Infectious Diseases
,
Enzymes of Nucleotide Metabolism
,
Host Cell Invasion
2026
Intracellular bacteria and protists rely on the host cell to supply many metabolites, but the mechanisms through which pathogens manipulate host metabolism to their benefit are not understood. Here, we demonstrate that when the obligate intracellular parasite
secretes its rhoptry organelle contents into the host cytoplasm before invasion-a process called \"kiss and spit\"-host cell metabolite abundance is altered in nucleotide synthesis, the pentose phosphate pathway, glycolysis, and amino acid synthesis. U-13C6-labeling metabolomics confirmed that kiss and spit increased the flow of carbon through the pentose phosphate pathway and nucleotide synthesis. An increase in 2,3-bisphosphoglycerate abundance led us to investigate the activation of host cytosolic nucleosidase II (cN-II) to provide purines for the parasite. We found that
manipulates the host cN-II enzyme to dephosphorylate GMP and IMP that it needs for replication. Furthermore, we found that the approved anti-cancer drug fludarabine, which inhibits cN-II, also inhibits
replication. These results reveal
host cell manipulation and highlight potential therapies for toxoplasmosis.IMPORTANCEA fundamental challenge in parasitology is understanding how intracellular parasites rapidly reprogram host metabolism to support replication. This study reveals that
initiates profound metabolic reprogramming through a \"kiss-and-spit\" mechanism, secreting effector molecules without invasion. We demonstrate that
specifically hijacks host cytosolic 5'-nucleotidase II (cN-II) by elevating 2,3-bisphosphoglycerate levels, which allosterically activates this enzyme to generate purines essential for parasite survival. Genetic deletion of host cN-II significantly impairs parasite replication, establishing cN-II as a critical host dependency factor. These findings have important implications for antiparasitic drug development while advancing our understanding of purine metabolism in apicomplexan parasites. More broadly, elucidating the molecular mechanism linking parasite effector secretion to specific host enzyme activation provides a framework for understanding metabolic manipulation across other intracellular pathogens.
Journal Article
Cysteine-S-nitrosylation inhibits ROP5-mediated immune evasion in Toxoplasma gondii
by
Chaudhry, A.
,
Nichols, B.
,
Reese, M. L.
in
Host Immune Responses to Parasites
,
Host-Pathogen Interactions
,
Immune Evasion by Parasites
2026
RNS are necessary for cell-autonomous immunity to T. gondii infection; however, the molecular mechanisms by which RNS regulate parasite control remain poorly understood. Our findings support a model in which post-translational modification of ROP5 by RNS is a conserved mechanism of inhibiting the functions of divergent ROP5 paralogs. These data provide a specific example of how host RNS are used to counter T. gondii immune evasion effectors that can be applied to understand how nitrosylation regulates the function of other parasite effectors and the role of RNS in the control of other intracellular pathogens.
Journal Article
Nuclear, mitochondrial, and Wolbachia endosymbiont genomes of Onchocerca lupi , Portugal
by
Marzano, Marinella
,
Pesole, Graziano
,
Gissi, Carmela
in
Animal-Microbe Interactions
,
Animals
,
Canidae
2026
Onchocerca lupi , a zoonotic parasite, causes ocular onchocerciasis in both domestic and wild carnivores, as well as humans. Despite recent scientific advances, gaps remain in both the biology and genetic structure of this parasite. To date, two genotypes have been described (genotype 1 distributed in Europe, Asia, and the United States, and genotype 2 circulating in the Iberian Peninsula) based on mitochondrial gene analysis. This study provided three distinct genomes (nuclear, mitochondrial, and Wolbachia endosymbiont) of O. lupi isolated from a dog living in Portugal. Overall, the data presented here corroborate the divergence between the two genotypes and provide new insights into the identification of genes that could serve as novel therapeutic targets for this filarial disease.
Journal Article
Zoonotic pathogens identified in rodents and shrews from four provinces, China, 2015–2022
2023
Rodents and shrews are major reservoirs of various pathogens that are related to zoonotic infectious diseases. The purpose of this study was to investigate co-infections of zoonotic pathogens in rodents and shrews trapped in four provinces of China. We sampled different rodent and shrew communities within and around human settlements in four provinces of China and characterised several important zoonotic viral, bacterial, and parasitic pathogens by PCR methods and phylogenetic analysis. A total of 864 rodents and shrews belonging to 24 and 13 species from RODENTIA and EULIPOTYPHLA orders were captured, respectively. For viral pathogens, two species of hantavirus (Hantaan orthohantavirus and Caobang orthohantavirus) were identified in 3.47% of rodents and shrews. The overall prevalence of Bartonella spp., Anaplasmataceae, Babesia spp., Leptospira spp., Spotted fever group Rickettsiae, Borrelia spp., and Coxiella burnetii were 31.25%, 8.91%, 4.17%, 3.94%, 3.59%, 3.47%, and 0.58%, respectively. Furthermore, the highest co-infection status of three pathogens was observed among Bartonella spp., Leptospira spp., and Anaplasmataceae with a co-infection rate of 0.46%. Our results suggested that species distribution and co-infections of zoonotic pathogens were prevalent in rodents and shrews, highlighting the necessity of active surveillance for zoonotic pathogens in wild mammals in wider regions.
Journal Article
The Impact of Host Abundance on the Epidemiology of Tick-Borne Infection
2023
Tick-borne diseases are an increasing global public health concern due to an expanding geographical range and increase in abundance of tick-borne infectious agents. A potential explanation for the rising impact of tick-borne diseases is an increase in tick abundance which may be linked to an increase in density of the hosts on which they feed. In this study, we develop a model framework to understand the link between host density, tick demography and tick-borne pathogen epidemiology. Our model links the development of specific tick stages to the specific hosts on which they feed. We show that host community composition and host density have an impact on tick population dynamics and that this has a consequent impact on host and tick epidemiological dynamics. A key result is that our model framework can exhibit variation in host infection prevalence for a fixed density of one host type due to changes in density of other host types that support different tick life stages. Our findings suggest that host community composition may play a crucial role in explaining the variation in prevalence of tick-borne infections in hosts observed in the field.
Journal Article
High overlap of zoonotic helminths between wild mammalian predators and rural dogs – an emerging One Health concern?
by
Kaasiku, Triin
,
Rannap, Riinu
,
Valdmann, Harri
in
Animal human relations
,
Animals
,
Animals, Wild - parasitology
2022
The concept of One Health emphasizes the interdependence of human, animal and environmental health and is of growing significance, in part owing to the problems related to emerging infectious diseases of wildlife origin. Wild mammalian predators are a potential risk factor for transmission of zoonotic pathogens to domesticated animals and humans. This is especially relevant in rural areas, where transmission of zoonotic pathogens can occur particularly efficiently when free-ranging dogs are present. The main aim of this study was to determine helminth infections among wild mammalian predators and evaluate the overlap between helminth faunas of wild mammals and dogs. Scat samples of predators were collected in coastal areas of Western Estonia and genetic methodology applied for the correct identification of predator species from their scat. Parasitic helminths of mammalian predators in the scat samples were analysed and compared with dog data from a previous study. High helminth prevalence (~90%) was found in dominant predator species in the area, namely the red fox (Vulpes vulpes) and golden jackal (Canis aureus). Moreover, the helminth fauna of both wild species, including potentially zoonotic helminths, overlapped largely with that of rural dogs in the same area. The results, together with the ones from earlier parasitological studies among humans in Estonia, emphasize the potential risk of pathogen transmission from wild mammalian predators to dogs and from dogs to humans, making parasitic diseases of wildlife a One Health concern.
Journal Article
Molecular phylogeny based on six nuclear genes suggests that Echinococcus granulosus sensu lato genotypes G6/G7 and G8/G10 can be regarded as two distinct species
by
Romig, Thomas
,
Soriano, Silvia V.
,
Laurimäe, Teivi
in
Animal behavior
,
Animal biology
,
Animal health
2018
Tapeworms of the species complex of Echinococcus granulosus sensu lato (s. l.) are the cause of a severe zoonotic disease – cystic echinococcosis, which is listed among the most severe parasitic diseases in humans and is prioritized by the World Health Organization. A stable taxonomy of E. granulosus s. l. is essential to the medical and veterinary communities for accurate and effective communication of the role of different species in this complex on human and animal health. E. granulosus s. l. displays high genetic diversity and has been divided into different species and genotypes. Despite several decades of research, the taxonomy of E. granulosus s. l. has remained controversial, especially the species status of genotypes G6–G10. Here the Bayesian phylogeny based on six nuclear loci (7387 bp in total) demonstrated, with very high support, the clustering of G6/G7 and G8/G10 into two separate clades. According to the evolutionary species concept, G6/G7 and G8/G10 can be regarded as two distinct species. Species differentiation can be attributed to the association with distinct host species, largely separate geographical distribution and low level of cross-fertilization. These factors have limited the gene flow between genotypic groups G6/G7 and G8/G10, resulting in the formation of distinct species. We discuss ecological and epidemiological differences that support the validity of these species.
Journal Article