10 results on '"Vicente-Santos, Amanda"'
Search Results
2. Host–pathogen interactions under pressure: A review and meta‐analysis of stress‐mediated effects on disease dynamics.
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Vicente‐Santos, Amanda, Willink, Beatriz, Nowak, Kacy, Civitello, David J., and Gillespie, Thomas R.
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EMERGING infectious diseases , *ANTHROPOGENIC effects on nature - Abstract
Human activities have increased the intensity and frequency of natural stressors and created novel stressors, altering host–pathogen interactions and changing the risk of emerging infectious diseases. Despite the ubiquity of such anthropogenic impacts, predicting the directionality of outcomes has proven challenging. Here, we conduct a review and meta‐analysis to determine the primary mechanisms through which stressors affect host–pathogen interactions and to evaluate the impacts stress has on host fitness (survival and fecundity) and pathogen infectivity (prevalence and intensity). We assessed 891 effect sizes from 71 host species (representing seven taxonomic groups) and 78 parasite taxa from 98 studies. We found that infected and uninfected hosts had similar sensitivity to stressors and that responses varied according to stressor type. Specifically, limited resources compromised host fecundity and decreased pathogen intensity, while abiotic environmental stressors (e.g., temperature and salinity) decreased host survivorship and increased pathogen intensity, and pollution increased mortality but decreased pathogen prevalence. We then used our meta‐analysis results to develop susceptible–infected theoretical models to illustrate scenarios where infection rates are expected to increase or decrease in response to resource limitations or environmental stress gradients. Our results carry implications for conservation and disease emergence and reveal areas for future work. [ABSTRACT FROM AUTHOR]
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- 2023
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3. Genetic Diversity of Bartonella spp. in Cave-Dwelling Bats and Bat Flies, Costa Rica, 2018.
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Mitchell, Miranda M., Vicente-Santos, Amanda, Rodríguez-Herrera, Bernal, Corrales-Aguilar, Eugenia, and Gillespie, Thomas R.
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To determine Bartonella spp. dynamics, we sampled bats and bat flies across 15 roosts in Costa Rica. PCR indicated prevalence of 10.7% in bats and 29.0% in ectoparasite pools. Phylogenetic analysis of 8 sequences from bats and 5 from bat fly pools revealed 11 distinct genetic variants, including 2 potentially new genotypes. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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4. Neotropical bats that co-habit with humans function as dead-end hosts for dengue virus.
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Vicente-Santos, Amanda, Moreira-Soto, Andres, Soto-Garita, Claudio, Chaverri, Luis Guillermo, Chaves, Andrea, Drexler, Jan Felix, Morales, Juan Alberto, Alfaro-Alarcón, Alejandro, Rodríguez-Herrera, Bernal, and Corrales-Aguilar, Eugenia
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BATS , *HABITATS , *DENGUE viruses , *HOSTS (Biology) , *VIRUS disease transmission , *HISTOPATHOLOGY , *CYTOCHROME b - Abstract
Several studies have shown Dengue Virus (DENV) nucleic acids and/or antibodies present in Neotropical wildlife including bats, suggesting that some bat species may be susceptible to DENV infection. Here we aim to elucidate the role of house-roosting bats in the DENV transmission cycle. Bats were sampled in households located in high and low dengue incidence regions during rainy and dry seasons in Costa Rica. We captured 318 bats from 12 different species in 29 households. Necropsies were performed in 205 bats to analyze virus presence in heart, lung, spleen, liver, intestine, kidney, and brain tissue. Histopathology studies from all organs showed no significant findings of disease or infection. Sera were analyzed by PRNT90 for a seroprevalence of 21.2% (51/241), and by PCR for 8.8% (28/318) positive bats for DENV RNA. From these 28 bats, 11 intestine samples were analyzed by RT-PCR. Two intestines were DENV RNA positive for the same dengue serotype detected in blood. Viral isolation from all positive organs or blood was unsuccessful. Additionally, viral load analyses in positive blood samples by qRT-PCR showed virus concentrations under the minimal dose required for mosquito infection. Simultaneously, 651 mosquitoes were collected using EVS-CO2 traps and analyzed for DENV and feeding preferences (bat cytochrome b). Only three mosquitoes were found DENV positive and none was positive for bat cytochrome b. Our results suggest an accidental presence of DENV in bats probably caused from oral ingestion of infected mosquitoes. Phylogenetic analyses suggest also a spillover event from humans to bats. Therefore, we conclude that bats in these urban environments do not sustain DENV amplification, they do not have a role as reservoirs, but function as epidemiological dead end hosts for this virus. [ABSTRACT FROM AUTHOR]
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- 2017
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5. Advances in understanding bat infection dynamics across biological scales.
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Sánchez, Cecilia A., Phelps, Kendra L., Frank, Hannah K., Geldenhuys, Marike, Griffiths, Megan E., Jones, Devin N., Kettenburg, Gwenddolen, Lunn, Tamika J., Moreno, Kelsey R., Mortlock, Marinda, Vicente-Santos, Amanda, Víquez-R, Luis R., Kading, Rebekah C., Markotter, Wanda, Reeder, DeeAnn M., and Olival, Kevin J.
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BATS , *EPIDEMIOLOGICAL research , *INFECTION , *RABIES virus - Abstract
Over the past two decades, research on bat-associated microbes such as viruses, bacteria and fungi has dramatically increased. Here, we synthesize themes from a conference symposium focused on advances in the research of bats and their microbes, including physiological, immunological, ecological and epidemiological research that has improved our understanding of bat infection dynamics at multiple biological scales. We first present metrics for measuring individual bat responses to infection and challenges associated with using these metrics. We next discuss infection dynamics within bat populations of the same species, before introducing complexities that arise in multi-species communities of bats, humans and/or livestock. Finally, we outline critical gaps and opportunities for future interdisciplinary work on topics involving bats and their microbes. [ABSTRACT FROM AUTHOR]
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- 2024
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6. Susceptibility of Well-Differentiated Airway Epithelial Cell Cultures from Domestic and Wild Animals to Severe Acute Respiratory Syndrome Coronavirus 2.
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Gultom, Mitra, Licheri, Matthias, Laloli, Laura, Wider, Manon, Strässle, Marina, V'kovski, Philip, Steiner, Silvio, Kratzel, Annika, Thi Nhu Thao, Tran, Probst, Lukas, Stalder, Hanspeter, Portmann, Jasmine, Holwerda, Melle, Ebert, Nadine, Stokar-Regenscheit, Nadine, Gurtner, Corinne, Zanolari, Patrik, Posthaus, Horst, Schuller, Simone, and Vicente-Santos, Amanda
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EPITHELIAL cell culture , *COVID-19 , *DOMESTIC animals , *SARS-CoV-2 , *NUCLEOTIDE sequencing - Abstract
Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has spread globally, and the number of worldwide cases continues to rise. The zoonotic origins of SARS-CoV-2 and its intermediate and potential spillback host reservoirs, besides humans, remain largely unknown. Because of ethical and experimental constraints and more important, to reduce and refine animal experimentation, we used our repository of well-differentiated airway epithelial cell (AEC) cultures from various domesticated and wildlife animal species to assess their susceptibility to SARS-CoV-2. We observed that SARS-CoV-2 replicated efficiently only in monkey and cat AEC culture models. Whole-genome sequencing of progeny viruses revealed no obvious signs of nucleotide transitions required for SARS-CoV-2 to productively infect monkey and cat AEC cultures. Our findings, together with previous reports of human-to-animal spillover events, warrant close surveillance to determine the potential role of cats, monkeys, and closely related species as spillback reservoirs for SARS-CoV-2. [ABSTRACT FROM AUTHOR]
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- 2021
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7. Gut microbial shifts in vampire bats linked to immunity due to changed diet in human disturbed landscapes.
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Fleischer, Ramona, Jones, Christie, Ledezma-Campos, Paula, Czirják, Gábor Á., Sommer, Simone, Gillespie, Thomas R., and Vicente-Santos, Amanda
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- 2024
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8. Specific Mutations in the PB2 Protein of Influenza A Virus Compensate for the Lack of Efficient Interferon Antagonism of the NS1 Protein of Bat Influenza A-Like Viruses.
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Aydillo, Teresa, Ayllon, Juan, Pavlisin, Amzie, Martinez-Romero, Carles, Tripathi, Shashank, Mena, Ignacio, Moreira-Soto, Andrés, Vicente-Santos, Amanda, Corrales-Aguilar, Eugenia, Schwemmle, Martin, and García-Sastre, Adolfo
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VIRAL proteins , *GENETIC mutation , *INFLUENZA A virus , *LABORATORY mice , *RECOMBINANT viruses , *NEURAMINIDASE , *INTERFERONS - Abstract
Recently, two new influenza A-like viruses have been discovered in bats, A/little yellow-shouldered bat/Guatemala/060/2010 (HL17NL10) and A/flat-faced bat/Peru/ 033/2010 (HL18NL11). The hemagglutinin (HA)-like (HL) and neuraminidase (NA)-like (NL) proteins of these viruses lack hemagglutination and neuraminidase activities, despite their sequence and structural homologies with the HA and NA proteins of conventional influenza A viruses. We have now investigated whether the NS1 proteins of the HL17NL10 and HL18NL11 viruses can functionally replace the NS1 protein of a conventional influenza A virus. For this purpose, we generated recombinant influenza A/Puerto Rico/8/1934 (PR8) H1N1 viruses containing the NS1 protein of the PR8 wild-type, HL17NL10, and HL18NL11 viruses. These viruses (r/NS1PR8, r/NS1HL17, and r/NS1HL18, respectively) were tested for replication in bat and nonbat mammalian cells and in mice. Our results demonstrate that the r/NS1HL17 and r/NS1HL18 viruses are attenuated in vitro and in vivo. However, the bat NS1 recombinant viruses showed a phenotype similar to that of the r/NS1PR8 virus in STAT1-/- human A549 cells and mice, both in vitro and in vivo systems being unable to respond to interferon (IFN). Interestingly, multiple mouse passages of the r/NS1HL17 and r/NS1HL18 viruses resulted in selection of mutant viruses containing single amino acid mutations in the viral PB2 protein. In contrast to the parental viruses, virulence and IFN antagonism were restored in the selected PB2 mutants. Our results indicate that the NS1 protein of bat influenza A-like viruses is less efficient than the NS1 protein of its conventional influenza A virus NS1 counterpart in antagonizing the IFN response and that this deficiency can be overcome by the influenza virus PB2 protein. IMPORTANCE Significant gaps in our understanding of the basic features of the recently discovered bat influenza A-like viruses HL17NL10 and HL18NL11 remain. The basic biology of these unique viruses displays both similarities to and differences from the basic biology of conventional influenza A viruses. Here, we show that recombinant influenza A viruses containing the NS1 protein from HL17NL10 and HL18NL11 are attenuated. This attenuation was mediated by their inability to antagonize the type I IFN response. However, this deficiency could be compensated for by single amino acid replacements in the PB2 gene. Our results unravel a functional divergence between the NS1 proteins of bat influenza A-like and conventional influenza A viruses and demonstrate an interplay between the viral PB2 and NS1 proteins to antagonize IFN. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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9. Misconceptions and misinformation about bats and viruses.
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Puechmaille, Sebastien J., Ar Gouilh, Meriadeg, Dechmann, Dina, Fenton, Brock, Geiselman, Cullen, Medellin, Rodrigo, Mittermeier, Russell, Racey, Paul, Reeder, DeeAnn M., Schaer, Juliane, Vicente-Santos, Amanda, Sechrest, Wes, Víquez-R, Luis, and Weber, Natalie
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MISINFORMATION , *BATS , *VIRUSES - Published
- 2021
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10. Setting the Terms for Zoonotic Diseases: Effective Communication for Research, Conservation, and Public Policy.
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Shapiro, Julie Teresa, Víquez-R, Luis, Leopardi, Stefania, Vicente-Santos, Amanda, Mendenhall, Ian H., Frick, Winifred F., Kading, Rebekah C., Medellín, Rodrigo A., Racey, Paul, and Kingston, Tigga
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COMMUNICATIONS research , *GOVERNMENT policy , *BAT diseases , *COMMON misconceptions , *BAT ecology , *TUBERCULOSIS in cattle , *ZOONOSES - Abstract
Many of the world's most pressing issues, such as the emergence of zoonotic diseases, can only be addressed through interdisciplinary research. However, the findings of interdisciplinary research are susceptible to miscommunication among both professional and non-professional audiences due to differences in training, language, experience, and understanding. Such miscommunication contributes to the misunderstanding of key concepts or processes and hinders the development of effective research agendas and public policy. These misunderstandings can also provoke unnecessary fear in the public and have devastating effects for wildlife conservation. For example, inaccurate communication and subsequent misunderstanding of the potential associations between certain bats and zoonoses has led to persecution of diverse bats worldwide and even government calls to cull them. Here, we identify four types of miscommunication driven by the use of terminology regarding bats and the emergence of zoonotic diseases that we have categorized based on their root causes: (1) incorrect or overly broad use of terms; (2) terms that have unstable usage within a discipline, or different usages among disciplines; (3) terms that are used correctly but spark incorrect inferences about biological processes or significance in the audience; (4) incorrect inference drawn from the evidence presented. We illustrate each type of miscommunication with commonly misused or misinterpreted terms, providing a definition, caveats and common misconceptions, and suggest alternatives as appropriate. While we focus on terms specific to bats and disease ecology, we present a more general framework for addressing miscommunication that can be applied to other topics and disciplines to facilitate more effective research, problem-solving, and public policy. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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