Your search keyword '"Ricardo Choque-Guevara"' showing total 7 results

1. Comprehensive analysis of antibiotic and heavy metal resistance, and virulence factors in Aeromonas veronii CTe-01: Implications for global antimicrobial resistance

Author

Luis Tataje-Lavanda, Phillip Ormeño-Vásquez, Ricardo Choque-Guevara, Rosa Altamirano-Díaz, Manolo Fernández-Díaz, and Juan C. Tantaleán

Subjects

Aeromonas veronii, Heavy metal resistance, Antibiotic resistance, Genomics, Science (General), Q1-390

Abstract

Objectives: This study aimed to characterize Aeromonas veronii CTe-01 focusing on its resistance to heavy metal and antibiotics. Methods: A. veronii CTe-01 was characterized using standard microbiological and molecular techniques. Antibiotic susceptibility and heavy metal resistance were tested per standard protocols. Genomic analysis, including plasmid characterization, was conducted in silico. Results: A. veronii CTe-01 showed resistance to various heavy metals and antibiotics. Multiple resistance genes were identified, including those for beta-lactamases, heavy metal resistance, and type III secretion system components. The bacterium carries a 9 kb plasmid with repA/repB replication genes, parA/parB partitioning genes, and a type II toxin-antitoxin system for stability. Conclusions: A. veronii CTe-01 is a genetic reservoir for antibiotic resistance, heavy metal resistance genes, and virulence factors. The study offers insights into its dual role as a pathogen and heavy metal remediator in aquatic environments.

Published

2024

2. Intranasal vaccination of hamsters with a Newcastle disease virus vector expressing the S1 subunit protects animals against SARS-CoV-2 disease

Author

Manolo Fernández Díaz, Katherine Calderón, Aldo Rojas-Neyra, Vikram N. Vakharia, Ricardo Choque-Guevara, Angela Montalvan-Avalos, Astrid Poma-Acevedo, Dora Rios-Matos, Andres Agurto-Arteaga, Maria de Grecia Cauti-Mendoza, Norma Perez-Martinez, Gisela Isasi-Rivas, Luis Tataje-Lavanda, Yacory Sernaque-Aguilar, Freddy Ygnacio, Manuel Criollo-Orozco, Edison Huaccachi-Gonzalez, Elmer Delgado-Ccancce, Doris Villanueva-Pérez, Ricardo Montesinos-Millán, Kristel Gutiérrez-Manchay, Katherinne Pauyac-Antezana, Ingrid Ramirez-Ortiz, Stefany Quiñones-Garcia, Yudith Cauna-Orocollo, Katherine Vallejos-Sánchez, Angela Rios-Angulo, Dennis Núñez-Fernández, Mario I. Salguedo-Bohorquez, Julio Ticona, Manolo Fernández-Sánchez, Eliana Icochea, Luis A. Guevara-Sarmiento, Mirko Zimic, and COVID-19 Working Group in Perú

Subjects

Medicine, Science

Abstract

Abstract The coronavirus disease-19 (COVID-19) pandemic has already claimed millions of lives and remains one of the major catastrophes in the recorded history. While mitigation and control strategies provide short term solutions, vaccines play critical roles in long term control of the disease. Recent emergence of potentially vaccine-resistant and novel variants necessitated testing and deployment of novel technologies that are safe, effective, stable, easy to administer, and inexpensive to produce. Here we developed three recombinant Newcastle disease virus (rNDV) vectored vaccines and assessed their immunogenicity, safety, and protective efficacy against severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) in mice and hamsters. Intranasal administration of rNDV-based vaccine candidates elicited high levels of neutralizing antibodies. Importantly, the nasally administrated vaccine prevented lung damage, and significantly reduced viral load in the respiratory tract of vaccinated animal which was compounded by profound humoral immune responses. Taken together, the presented NDV-based vaccine candidates fully protected animals against SARS-CoV-2 challenge and warrants evaluation in a Phase I human clinical trial as a promising tool in the fight against COVID-19.

Published

2022

3. Preclinical Assessment of IgY Antibodies Against Recombinant SARS-CoV-2 RBD Protein for Prophylaxis and Post-Infection Treatment of COVID-19

Author

Andres Agurto-Arteaga, Astrid Poma-Acevedo, Dora Rios-Matos, Ricardo Choque-Guevara, Ricardo Montesinos-Millán, Ángela Montalván, Gisela Isasi-Rivas, Yudith Cauna-Orocollo, María de Grecia Cauti-Mendoza, Norma Pérez-Martínez, Kristel Gutierrez-Manchay, Ingrid Ramirez-Ortiz, Dennis Núñez-Fernández, Mario I. Salguedo-Bohorquez, Stefany Quiñones-Garcia, Manolo Fernández Díaz, Luis A. Guevara Sarmiento, Mirko Zimic, COVID-19 Working Group in Perú, Ricardo Antiparra, Manuel Ardiles-Reyes, Katherine Calderón, Maria de Grecia Cauti-Mendoza, Naer Chipana-Flores, Xiomara Chunga-Girón, Manuel Criollo-Orozco, Lewis De La Cruz, Nicolás E. Delgado-Pease, Elmer Delgado-Ccancce, Christian Elugo-Guevara, Manolo Fernández-Díaz, Manolo Fernández-Sánchez, Luis Guevara-Sarmiento, Kristel Gutiérrez, Oscar Heredia-Almeyda, Edison Huaccachi-Gonzalez, Pedro Huerta-Roque, Eliana Icochea, Gabriel Jiménez-Avalos, Romina A. Juscamaita-Bartra, Abraham Licla-Inca, Angela Montalván, Adiana Ochoa-Ortiz, Gustavo E. Olivos-Ramirez, Erika Páucar-Montoro, Kathy Pauyac, Jose L. Perez-Martinez, Norma Pérez-M, Daniel Ramos-Sono, Angela A. Rios-Angulo, Aldo Rojas-Neyra, Yomara K. Romero, Yacory Sernaque-Aguilar, Patricia Sheen-Cortavarrı́a, Luis F. Soto, Luis Tataje-Lavanda, Julio Ticona, Katherine Vallejos-Sánchez, A. Paula Vargas-Ruiz, Doris Villanueva-Pérez, Freddy Ygnacio-Aguirre, and Mirko Zimic-Peralta

Subjects

SARS-CoV-2, COVID-19, egg-yolk antibodies, IgY, passive immunization, receptor binding domain, Immunologic diseases. Allergy, RC581-607

Abstract

Within the framework of the current COVID-19 pandemic, there is a race against time to find therapies for the outbreak to be controlled. Since vaccines are still tedious to develop and partially available for low-income countries, passive immunity based on egg-yolk antibodies (IgY) is presented as a suitable approach to preclude potential death of infected patients, based on its high specificity/avidity/production yield, cost-effective manufacture, and ease of administration. In the present study, IgY antibodies against a recombinant RBD protein of SARS-CoV-2 were produced in specific-pathogen-free chickens and purified from eggs using a biocompatible method. In vitro immunoreactivity was tested, finding high recognition and neutralization values. Safety was also demonstrated prior to efficacy evaluation, in which body weight, kinematics, and histopathological assessments of hamsters challenged with SARS-CoV-2 were performed, showing a protective effect administering IgY intranasally both as a prophylactic treatment or a post-infection treatment. The results of this study showed that intranasally delivered IgY has the potential to both aid in prevention and in overcoming COVID-19 infection, which should be very useful to control the advance of the current pandemic and the associated mortality.

Published

2022

4. Squalene in oil-based adjuvant improves the immunogenicity of SARS-CoV-2 RBD and confirms safety in animal models

Author

Ricardo Choque-Guevara, Astrid Poma-Acevedo, Ricardo Montesinos-Millán, Dora Rios-Matos, Kristel Gutiérrez-Manchay, Angela Montalvan-Avalos, Stefany Quiñones-Garcia, Maria de Grecia Cauti-Mendoza, Andres Agurto-Arteaga, Ingrid Ramirez-Ortiz, Manuel Criollo-Orozco, Edison Huaccachi-Gonzales, Yomara K. Romero, Norma Perez-Martinez, Gisela Isasi-Rivas, Yacory Sernaque-Aguilar, Doris Villanueva-Pérez, Freddy Ygnacio, Katherine Vallejos-Sánchez, Manolo Fernández-Sánchez, Luis A. Guevara-Sarmiento, Manolo Fernández-Díaz, Mirko Zimic, and for the COVID-19 Working Group in Perú

Subjects

Medicine, Science

Abstract

COVID-19 pandemic has accelerated the development of vaccines against its etiologic agent, SARS-CoV-2. However, the emergence of new variants of the virus lead to the generation of new alternatives to improve the current sub-unit vaccines in development. In the present report, the immunogenicity of the Spike RBD of SARS-CoV-2 formulated with an oil-in-water emulsion and a water-in-oil emulsion with squalene was evaluated in mice and hamsters. The RBD protein was expressed in insect cells and purified by chromatography until >95% purity. The protein was shown to have the appropriate folding as determined by ELISA and flow cytometry binding assays to its receptor, as well as by its detection by hamster immune anti-S1 sera under non-reducing conditions. In immunization assays, although the cellular immune response elicited by both adjuvants were similar, the formulation based in water-in-oil emulsion and squalene generated an earlier humoral response as determined by ELISA. Similarly, this formulation was able to stimulate neutralizing antibodies in hamsters. The vaccine candidate was shown to be safe, as demonstrated by the histopathological analysis in lungs, liver and kidney. These results have shown the potential of this formulation vaccine to be evaluated in a challenge against SARS-CoV-2 and determine its ability to confer protection.

Published

2022

5. Squalene in oil-based adjuvant improves the immunogenicity of SARS-CoV-2 RBD and confirms safety in animal models.

Author

Ricardo Choque-Guevara, Astrid Poma-Acevedo, Ricardo Montesinos-Millán, Dora Rios-Matos, Kristel Gutiérrez-Manchay, Angela Montalvan-Avalos, Stefany Quiñones-Garcia, Maria de Grecia Cauti-Mendoza, Andres Agurto-Arteaga, Ingrid Ramirez-Ortiz, Manuel Criollo-Orozco, Edison Huaccachi-Gonzales, Yomara K Romero, Norma Perez-Martinez, Gisela Isasi-Rivas, Yacory Sernaque-Aguilar, Doris Villanueva-Pérez, Freddy Ygnacio, Katherine Vallejos-Sánchez, Manolo Fernández-Sánchez, Luis A Guevara-Sarmiento, Manolo Fernández-Díaz, Mirko Zimic, and COVID-19 Working Group in Perú

Subjects

Medicine, Science

Abstract

COVID-19 pandemic has accelerated the development of vaccines against its etiologic agent, SARS-CoV-2. However, the emergence of new variants of the virus lead to the generation of new alternatives to improve the current sub-unit vaccines in development. In the present report, the immunogenicity of the Spike RBD of SARS-CoV-2 formulated with an oil-in-water emulsion and a water-in-oil emulsion with squalene was evaluated in mice and hamsters. The RBD protein was expressed in insect cells and purified by chromatography until >95% purity. The protein was shown to have the appropriate folding as determined by ELISA and flow cytometry binding assays to its receptor, as well as by its detection by hamster immune anti-S1 sera under non-reducing conditions. In immunization assays, although the cellular immune response elicited by both adjuvants were similar, the formulation based in water-in-oil emulsion and squalene generated an earlier humoral response as determined by ELISA. Similarly, this formulation was able to stimulate neutralizing antibodies in hamsters. The vaccine candidate was shown to be safe, as demonstrated by the histopathological analysis in lungs, liver and kidney. These results have shown the potential of this formulation vaccine to be evaluated in a challenge against SARS-CoV-2 and determine its ability to confer protection.

Published

2022

6. Development of a lateral flow test for the rapid detection of Avibacterium paragallinarum in chickens suspected of having infectious coryza

Author

Sandra Morales Ruiz, Jorge Bendezu, Ricardo Choque Guevara, Ricardo Montesinos, David Requena, Luz Choque Moreau, Ángela Montalván Ávalos, and Manolo Fernández-Díaz

Subjects

Avibacterium paragallinarum, Infectious coryza, Lateral flow test (LFT), Monoclonal antibody, TonB-dependent transporter (TBDT), Veterinary medicine, SF600-1100

Abstract

Abstract Background Infectious coryza (IC) is an acute respiratory disease of growing chickens and layers caused by Avibacterium paragallinarum. The development of tools that allow rapid pathogen detection is necessary in order to avoid disease dissemination and economic losses in poultry. An Av. paragallinarum-specific Ma-4 epitope of the TonB-dependent transporter (TBDT) was selected using bioinformatic tools in order to immunize a BalbC mouse and to produce monoclonal antibodies to be used in a lateral flow test (LFT) developed for Av. paragallinarum detection in chicken nasal mucus samples. Results The 1G7G8 monoclonal antibody was able to detect TBDT in Av. paragallinarum cultures (serogroups: A, B and C) by Western blot and indirect ELISA assay. Consequently, we developed a self-pairing prototype LFT. The limit of detection of the prototype LFT using Av. paragallinarum cultures was 1 × 104 colony-forming units (CFU)/mL. Thirty-five nasal mucus samples from chickens suspected of having infectious coryza were evaluated for the LFT detection capacity and compared with bacterial isolation (B.I) and polymerase chain reaction (PCR). Comparative indicators such as sensitivity (Se), specificity (Sp), positive predictive value (PPV), negative predictive values (NPV) and the kappa index (K) were obtained. The values were 100.0% Se, 50% Sp, 65.4% PPV, 100% NPV, and 0.49 K and 83.9% Se, 100% Sp, 100% PPV, 44.4% NPV, and 0.54 K for the comparison of the LFT with B.I and PCR, respectively. Additionally, the LFT allowed the detection of Av. paragallinarum from coinfection cases of Av. paragallinarum with Gallibacterium anatis. Conclusions The results indicate that the self-pairing prototype LFT is suitable for the detection of TBDT in Av. paragallinarum cultures as well as in field samples such as nasal mucus from Av. paragallinarum-infected chickens. Therefore, this prototype LFT could be considered a rapid and promising tool to be used in farm conditions for Av. paragallinarum diagnosis.

Published

2018

7. Glycoprotein G (gG) production profile during infectious laryngotracheitis virus (ILTV) infection.

Author

Jorge Bendezu, Sandra Morales Ruiz, Ricardo Montesinos, Ricardo Choque Guevara, Aldo Rojas-Neyra, Katherine Pauyac-Antezana, and Manolo Fernández-Díaz

Subjects

Medicine, Science

Abstract

Glycoprotein G (gG) is a conserved protein, and it has been described as a chemokine-binding protein in most members of the alphaherpesviruses. In case of the infectious laryngotracheitis virus (ILTV), an alphaherpesvirus that infects chickens, this protein is a virulence factor that plays an immunomodulatory role in the chicken immune response. Nevertheless, the gG production profile during ILTV infection has not yet been studied. In this study, we developed monoclonal antibodies in order to determine the gG production profile during ILTV infection in chicken hepatocellular carcinoma (LMH) cell cultures as well as embryonated specific-pathogen-free (SPF) chicken eggs and SPF chickens using a sandwich enzyme-linked immunosorbent assay (ELISA). Despite the fact that inoculated LMH cell cultures showed an increase in both gG production and viral genome copy number up to 96 h after inoculation, we observed that gG production started earlier than the increase in viral genome copy number in ILTV infected embryonated SPF chicken eggs. Likewise, a gG production peak and an increase of viral genome copy number was observed prior to the appearance of clinical signs in infected SPF chickens. According to the production profiles, gG was also produced quite early in eggs and chickens inoculated with ILTV. These findings contribute to the knowledge of the gG role during the ILTV infection as a virulence factor.

Published

2019