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Your search keyword '"Olivera, Gabriela C."' showing total 22 results
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22 results on '"Olivera, Gabriela C."'

1. The Toxoplasma effector GRA28 promotes parasite dissemination by inducing dendritic cell-like migratory properties in infected macrophages

Author

Ten Hoeve, Arne L, Braun, Laurence, Rodriguez, Matias E, Olivera, Gabriela C, Bougdour, Alexandre, Belmudes, Lucid, Couté, Yohann, Saeij, Jeroen PJ, Hakimi, Mohamed-Ali, and Barragan, Antonio

Subjects
Medical Microbiology, Biomedical and Clinical Sciences, Biological Sciences, Prevention, Foodborne Illness, Infectious Diseases, Vaccine Related, Emerging Infectious Diseases, Biodefense, Aetiology, 2.1 Biological and endogenous factors, Infection, Mice, Animals, Toxoplasma, Parasites, Dendritic Cells, Cell Movement, Macrophages, apicomplexa, cell motility, chemokine receptor 7, chemotaxis, host-pathogen, immune evasion, intracellular parasitism, mononuclear phagocyte, protozoa, Microbiology, Immunology, Biochemistry and cell biology, Medical microbiology
Abstract

Upon pathogen detection, macrophages normally stay sessile in tissues while dendritic cells (DCs) migrate to secondary lymphoid tissues. The obligate intracellular protozoan Toxoplasma gondii exploits the trafficking of mononuclear phagocytes for dissemination via unclear mechanisms. We report that, upon T. gondii infection, macrophages initiate the expression of transcription factors normally attributed to DCs, upregulate CCR7 expression with a chemotactic response, and perform systemic migration when adoptively transferred into mice. We show that parasite effector GRA28, released by the MYR1 secretory pathway, cooperates with host chromatin remodelers in the host cell nucleus to drive the chemotactic migration of parasitized macrophages. During in vivo challenge studies, bone marrow-derived macrophages infected with wild-type T. gondii outcompeted those challenged with MYR1- or GRA28-deficient strains in migrating and reaching secondary organs. This work reveals how an intracellular parasite hijacks chemotaxis in phagocytes and highlights a remarkable migratory plasticity in differentiated cells of the mononuclear phagocyte system.

Published
2022

3. The Toxoplasma effector GRA28 promotes parasite dissemination by inducing dendritic cell-like migratory properties in infected macrophages

Author

ten Hoeve, Arne L., Braun, L., Rodriguez, Matias E., Olivera, Gabriela C., Bougdour, A., Belmudes, L., Couté, Y., Saeij, J. P. J., Hakimi, M.-A., Barragan, Antonio, ten Hoeve, Arne L., Braun, L., Rodriguez, Matias E., Olivera, Gabriela C., Bougdour, A., Belmudes, L., Couté, Y., Saeij, J. P. J., Hakimi, M.-A., and Barragan, Antonio

Abstract

Upon pathogen detection, macrophages normally stay sessile in tissues while dendritic cells (DCs) migrate to secondary lymphoid tissues. The obligate intracellular protozoan Toxoplasma gondii exploits the trafficking of mononuclear phagocytes for dissemination via unclear mechanisms. We report that, upon T. gondii infection, macrophages initiate the expression of transcription factors normally attributed to DCs, upregulate CCR7 expression with a chemotactic response, and perform systemic migration when adoptively transferred into mice. We show that parasite effector GRA28, released by the MYR1 secretory pathway, cooperates with host chromatin remodelers in the host cell nucleus to drive the chemotactic migration of parasitized macrophages. During in vivo challenge studies, bone marrow-derived macrophages infected with wild-type T. gondii outcompeted those challenged with MYR1- or GRA28-deficient strains in migrating and reaching secondary organs. This work reveals how an intracellular parasite hijacks chemotaxis in phagocytes and highlights a remarkable migratory plasticity in differentiated cells of the mononuclear phagocyte system.

Published
2022
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4. Early passage of Toxoplasma gondii across the blood–brain barrier

Author

Ross, Emily Charlotte, Olivera, Gabriela C., Barragan, Antonio, Ross, Emily Charlotte, Olivera, Gabriela C., and Barragan, Antonio

Abstract

The blood–brain barrier (BBB) efficiently protects the central nervous system (CNS) from infectious insults. Yet, the apicomplexan parasite Toxoplasma gondii has a remarkable capability to establish latent cerebral infection in humans and other vertebrates. In addition to the proposed mechanisms for access to the brain parenchyma, recent findings highlight a paramount role played by the BBB in restricting parasite passage and minimizing parasite loads in the brain. Consistent with clinically asymptomatic primary infections in humans, mounting evidence indicates that the original colonization of the brain by T. gondii encompasses previously unappreciated, nondisruptive translocation processes that precede the onset of parasite-limiting immune responses.

Published
2022
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8. A motogenic GABAergic system of mononuclear phagocytes facilitates dissemination of coccidian parasites

Author

Bhandage, Amol K., Olivera, Gabriela C., Kanatani, Sachie, Thompson, Elizabeth, Loré, Karin, Varas-Godoy, Manuel, Barragan, Antonio, Bhandage, Amol K., Olivera, Gabriela C., Kanatani, Sachie, Thompson, Elizabeth, Loré, Karin, Varas-Godoy, Manuel, and Barragan, Antonio

Abstract

Gamma-aminobutyric acid (GABA) serves diverse biological functions in prokaryotes and eukaryotes, including neurotransmission in vertebrates. Yet, the role of GABA in the immune system has remained elusive. Here, a comprehensive characterization of human and murine myeloid mononuclear phagocytes revealed the presence of a conserved and tightly regulated GABAergic machinery with expression of GABA metabolic enzymes and transporters, GABA-A receptors and regulators, and voltage-dependent calcium channels. Infection challenge with the common coccidian parasites Toxoplasma gondii and Neospora caninum activated GABAergic signaling in phagocytes. Using gene silencing and pharmacological modulators in vitro and in vivo in mice, we identify the functional determinants of GABAergic signaling in parasitized phagocytes and demonstrate a link to calcium responses and migratory activation. The findings reveal a regulatory role for a GABAergic signaling machinery in the host-pathogen interplay between phagocytes and invasive coccidian parasites. The co-option of GABA underlies colonization of the host by a Trojan horse mechanism.

Published
2020
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9. The Actigraphy Sleep Score: A New Biomarker for Diagnosis, Disease Staging, and Monitoring in Human African Trypanosomiasis

Author

Njamnshi, Alfred K., primary, Seke Etet, Paul F., additional, Ngarka, Leonard, additional, Perrig, Stephen, additional, Olivera, Gabriela C., additional, Nfor, Leonard N., additional, Njamnshi, Wepnyu Y., additional, Acho, Alphonse, additional, Muyembe, Jean-Jacques, additional, Bentivoglio, Marina, additional, Rottenberg, Martin, additional, and Kennedy, Peter G. E., additional

Published
2020
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12. Dysregulation of focal adhesion kinase upon Toxoplasma gondii infection facilitates parasite translocation across polarised primary brain endothelial cell monolayers

Author

Ross, Emily C., Olivera, Gabriela C., Barragan, Antonio, Ross, Emily C., Olivera, Gabriela C., and Barragan, Antonio

Abstract

The apicomplexan parasite Toxoplasma gondii invades tissues and traverses non-permissive biological barriers in infected humans and other vertebrates. Following ingestion, the parasite penetrates the intestinal wall and disseminates to immune-privileged sites such as the brain parenchyma, after crossing the blood-brain barrier. In the present study, we have established a protocol for high-purification of primary mouse brain endothelial cells to generate stably polarised monolayers that allowed assessment of cellular barrier traversal by T. gondii. We report that T. gondii tachyzoites translocate across polarised monolayers of mouse brain endothelial cells and human intestinal Caco2 cells without significantly perturbing barrier impermeability and with minimal change in transcellular electrical resistance. In contrast, challenge with parasite lysate or LPS increased barrier permeability by destabilising intercellular tight junctions (TJs) and accentuated transmigration of T. gondii. Conversely, reduced phosphorylation of the TJ-regulator focal adhesion kinase (FAK) was observed dose-dependently upon challenge of monolayers with live T. gondii but not with parasite lysate or LPS. Pharmacological inhibition of FAK phosphorylation reversibly altered barrier integrity and facilitated T. gondii translocation. Finally, gene silencing of FAK by shRNA facilitated transmigration of T. gondii across epithelial and endothelial monolayers. Jointly, the data demonstrate that T. gondii infection transiently alters the TJ stability through FAK dysregulation to facilitate transmigration. This work identifies the implication of the TJ regulator FAK in the transmigration of T. gondii across polarised cellular monolayers and provides novel insights in how microbes overcome the restrictiveness of biological barriers.

Published
2019
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16. Structure-Activity Relationships of Synthetic Cordycepin Analogues as Experimental Therapeutics for African Trypanosomiasis

Author

Vodnala, Suman K., Lundback, Thomas, Yeheskieli, Esther, Sjoberg, Birger, Gustavsson, Anna-Lena, Svensson, Richard, Olivera, Gabriela C., Eze, Anthonius A., de Koning, Harry P., Hammarstrom, Lars G. J., Rottenberg, Martin E., Vodnala, Suman K., Lundback, Thomas, Yeheskieli, Esther, Sjoberg, Birger, Gustavsson, Anna-Lena, Svensson, Richard, Olivera, Gabriela C., Eze, Anthonius A., de Koning, Harry P., Hammarstrom, Lars G. J., and Rottenberg, Martin E.

Abstract

Novel methods for treatment of African trypanosomiasis, caused by infection with Trypanosoma brucei are needed. Cordycepin (3'-deoxyadenosine, la) is a powerful trypanocidal compound in vitro but is ineffective in vivo because of rapid metabolic,degradation by adenosine deaminase (ADA). We elucidated the structural moieties of cordycepin required for trypanocidal activity and designed analogues that retained trypanotoxicity while gaining resistance to ADA-mediated metabolism. 2-Fluorocordycepin (2-fluoro3'-deoxyadenosine, 1b) was identified as a selective, potent, and ADA-resistant trypanocidal compound that cured T. brucei infection in mice. Compound 1b is transported through the high affinity TbAT1/P2 adenosine transporter and is a substrate of T. b. brucei adenosine kinase. 1b has good preclinical properties suitable for an, oral drug, albeit a relatively short plasma half-life. We present a rapid and efficient synthesis of 2-halogenated cordycepins, also useful synthons. for the development of additional novel C2-substituted 3'-deoxyadenosine analogues to be evaluated in development of experimental therapeutics.

Published
2013
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17. Structure–Activity Relationships of Synthetic Cordycepin Analogues as Experimental Therapeutics for African Trypanosomiasis

Author

Vodnala, Suman K., primary, Lundbäck, Thomas, additional, Yeheskieli, Esther, additional, Sjöberg, Birger, additional, Gustavsson, Anna-Lena, additional, Svensson, Richard, additional, Olivera, Gabriela C., additional, Eze, Anthonius A., additional, de Koning, Harry P., additional, Hammarström, Lars G. J., additional, and Rottenberg, Martin E., additional

Published
2013
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18. Trypanosoma cruzi-specific immune responses in subjects from endemic areas of Chagas disease of Argentina

Author

Olivera, Gabriela C., primary, Albareda, Maria C., additional, Alvarez, Maria G., additional, De Rissio, Ana M., additional, Fichera, Laura E., additional, Cooley, Gretchen, additional, Yachelini, Pedro, additional, Hrellac, Hugo A., additional, Riboldi, Hilda, additional, Laucella, Susana A., additional, Tarleton, Rick L., additional, and Postan, Miriam, additional

Published
2010
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19. Altered Distribution of Peripheral Blood Memory B Cells in Humans Chronically Infected with Trypanosoma cruzi.

Author

Fernández, Esteban R., Olivera, Gabriela C., Quebrada Palacio, Luz P., González, Mariela N., Hernandez-Vasquez, Yolanda, Sirena, Natalia María, Morán, María L., Ledesma Patiño, Oscar S., and Postan, Miriam

Subjects
*TRYPANOSOMIASIS, *TRYPANOSOMA cruzi, *B cells, *T cells, *PHENOTYPES, *PARASITE antigens
Abstract

Numerous abnormalities of the peripheral blood T cell compartment have been reported in human chronic Trypanosoma cruzi infection and related to prolonged antigenic stimulation by persisting parasites. Herein, we measured circulating lymphocytes of various phenotypes based on the differential expression of CD19, CD4, CD27, CD10, IgD, IgM, IgG and CD138 in a total of 48 T. cruzi-infected individuals and 24 healthy controls. Infected individuals had decreased frequencies of CD19+CD27+ cells, which positively correlated with the frequencies of CD4+CD27+ cells. The contraction of CD19+CD27+ cells was comprised of IgG+IgD-, IgM+IgD- and isotype switched IgM-IgD- memory B cells, CD19+CD10+CD27+ B cell precursors and terminally differentiated CD19+CD27+CD138+ plasma cells. Conversely, infected individuals had increased proportions of CD19+IgG+CD27-IgD- memory and CD19+IgM+CD27-IgD+ transitional/naïve B cells. These observations prompted us to assess soluble CD27, a molecule generated by the cleavage of membrane-bound CD27 and used to monitor systemic immune activation. Elevated levels of serum soluble CD27 were observed in infected individuals with Chagas cardiomyopathy, indicating its potentiality as an immunological marker for disease progression in endemic areas. In conclusion, our results demonstrate that chronic T. cruzi infection alters the distribution of various peripheral blood B cell subsets, probably related to the CD4+ T cell deregulation process provoked by the parasite in humans. [ABSTRACT FROM AUTHOR]

Published
2014
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20. Altered Distribution of Peripheral Blood Memory B Cells in Humans Chronically Infected with Trypanosoma cruzi.

Author

Fernández, Esteban R., Olivera, Gabriela C., Quebrada Palacio, Luz P., González, Mariela N., Hernandez-Vasquez, Yolanda, Sirena, Natalia María, Morán, María L., Ledesma Patiño, Oscar S., and Postan, Miriam

Subjects
TRYPANOSOMIASIS, TRYPANOSOMA cruzi, B cells, T cells, PHENOTYPES, PARASITE antigens
Abstract

Numerous abnormalities of the peripheral blood T cell compartment have been reported in human chronic Trypanosoma cruzi infection and related to prolonged antigenic stimulation by persisting parasites. Herein, we measured circulating lymphocytes of various phenotypes based on the differential expression of CD19, CD4, CD27, CD10, IgD, IgM, IgG and CD138 in a total of 48 T. cruzi-infected individuals and 24 healthy controls. Infected individuals had decreased frequencies of CD19+CD27+ cells, which positively correlated with the frequencies of CD4+CD27+ cells. The contraction of CD19+CD27+ cells was comprised of IgG+IgD-, IgM+IgD- and isotype switched IgM-IgD- memory B cells, CD19+CD10+CD27+ B cell precursors and terminally differentiated CD19+CD27+CD138+ plasma cells. Conversely, infected individuals had increased proportions of CD19+IgG+CD27-IgD- memory and CD19+IgM+CD27-IgD+ transitional/naïve B cells. These observations prompted us to assess soluble CD27, a molecule generated by the cleavage of membrane-bound CD27 and used to monitor systemic immune activation. Elevated levels of serum soluble CD27 were observed in infected individuals with Chagas cardiomyopathy, indicating its potentiality as an immunological marker for disease progression in endemic areas. In conclusion, our results demonstrate that chronic T. cruzi infection alters the distribution of various peripheral blood B cell subsets, probably related to the CD4+ T cell deregulation process provoked by the parasite in humans. [ABSTRACT FROM AUTHOR]

Published
2014
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