Your search keyword '"Clara ES"' showing total 12 results

1. Resistance against two lytic phage variants attenuates virulence and antibiotic resistance in Pseudomonas aeruginosa

Author

Juan Carlos García-Cruz, Xareni Rebollar-Juarez, Aldo Limones-Martinez, Cristian Sadalis Santos-Lopez, Shotaro Toya, Toshinari Maeda, Corina Diana Ceapă, Lucia Blasco, María Tomás, Clara Estela Díaz-Velásquez, Felipe Vaca-Paniagua, Miguel Díaz-Guerrero, Daniel Cazares, Adrián Cazares, Melisa Hernández-Durán, Luis Esaú López-Jácome, Rafael Franco-Cendejas, Fohad Mabood Husain, Altaf Khan, Mohammed Arshad, Rosario Morales-Espinosa, Ana María Fernández-Presas, Frederic Cadet, Thomas K. Wood, and Rodolfo García-Contreras

Subjects

virulence, tradeoffs, biofilm, phage resistance, phage therapy, Microbiology, QR1-502

Abstract

BackgroundBacteriophage therapy is becoming part of mainstream Western medicine since antibiotics of clinical use tend to fail. It involves applying lytic bacteriophages that self-replicate and induce cell lysis, thus killing their hosts. Nevertheless, bacterial killing promotes the selection of resistant clones which sometimes may exhibit a decrease in bacterial virulence or antibiotic resistance.MethodsIn this work, we studied the Pseudomonas aeruginosa lytic phage φDCL-PA6 and its variant φDCL-PA6α. Additionally, we characterized and evaluated the production of virulence factors and the virulence in a Galleria mellonella model of resistant mutants against each phage for PA14 and two clinical strains.ResultsPhage φDCL-PA6α differs from the original by only two amino acids: one in the baseplate wedge subunit and another in the tail fiber protein. According to genomic data and cross-resistance experiments, these changes may promote the change of the phage receptor from the O-antigen to the core lipopolysaccharide. Interestingly, the host range of the two phages differs as determined against the Pseudomonas aeruginosa reference strains PA14 and PAO1 and against nine multidrug-resistant isolates from ventilator associated pneumonia.ConclusionsWe show as well that phage resistance impacts virulence factor production. Specifically, phage resistance led to decreased biofilm formation, swarming, and type III secretion; therefore, the virulence towards Galleria mellonella was dramatically attenuated. Furthermore, antibiotic resistance decreased for one clinical strain. Our study highlights important potential advantages of phage therapy’s evolutionary impact that may be exploited to generate robust therapy schemes.

Published

2024

2. Retrospective Analysis of Severe Dengue by Dengue Virus Serotypes in a Population with Social Security, Mexico 2023

Author

Porfirio Felipe Hernández Bautista, David Alejandro Cabrera Gaytán, Clara Esperanza Santacruz Tinoco, Alfonso Vallejos Parás, Julio Elias Alvarado Yaah, Bernardo Martínez Miguel, Yu Mei Anguiano Hernández, Lumumba Arriaga Nieto, Alejandro Moctezuma Paz, Leticia Jaimes Betancourt, Yadira Pérez Andrade, Oscar Cruz Orozco, Gabriel Valle Alvarado, and Mónica Grisel Rivera Mahey

Subjects

dengue, serotypes, RT-qPCR, severe dengue, Microbiology, QR1-502

Abstract

Background: Risk factors for severe dengue manifestations have been attributed to various factors, including specific serotypes, sex, and age. Mexico has seen the re-emergence of DENV-3, which has not circulated in a decade. Objective: To describe dengue serotypes by age, sex, and their association with disease severity in dengue-positive serum samples from epidemiological surveillance system units. Materials and Methods: A descriptive analysis was conducted to evaluate the frequency of dengue severity by sex, age, disease quarter, geographical location, and dengue virus serotypes. The study was conducted using laboratory samples from confirmed dengue cases through RT-qPCR from the epidemiological surveillance laboratory network of the Mexican Social Security Institute, Mexico. Simple frequencies and proportions were calculated using the z-test for proportional differences between groups. Bivariate analysis with adjusted Chi2 was performed, and binary logistic regression models were constructed using the forward Wald method considering the model’s predictive capacity. The measure of association was the odds ratio, with 95% confidence intervals. Statistical significance was set to an alpha level of

Published

2024

3. Diversity, composition, and networking of saliva microbiota distinguish the severity of COVID-19 episodes as revealed by an analysis of 16S rRNA variable V1-V3 region sequences

Author

Violeta Larios Serrato, Beatriz Meza, Carolina Gonzalez-Torres, Javier Gaytan-Cervantes, Joaquín González Ibarra, Clara Esperanza Santacruz Tinoco, Yu-Mei Anguiano Hernández, Bernardo Martínez Miguel, Allison Cázarez Cortazar, Brenda Sarquiz Martínez, Julio Elias Alvarado Yaah, Antonina Reyna Mendoza Pérez, Juan José Palma Herrera, Leticia Margarita García Soto, Adriana Inés Chávez Rojas, Guillermo Bravo Mateos, Gabriel Samano Marquez, Concepción Grajales Muñiz, and Javier Torres

Subjects

COVID-19, microbiota, microbial networks, disease severity, viral infections, Microbiology, QR1-502

Abstract

ABSTRACT Studies on the role of the oral microbiome in SARS-CoV-2 infection and severity of the disease are limited. We aimed to characterize the bacterial communities present in the saliva of patients with varied COVID-19 severity to learn if there are differences in the characteristics of the microbiome among the clinical groups. We included 31 asymptomatic subjects with no previous COVID-19 infection or vaccination; 176 patients with mild respiratory symptoms, positive or negative for SARS-CoV-2 infection; 57 patients that required hospitalization because of severe COVID-19 with oxygen saturation below 92%, and 18 fatal cases of COVID-19. Saliva samples collected before any treatment were tested for SARS-CoV-2 by PCR. Oral microbiota in saliva was studied by amplification and sequencing of the V1-V3 variable regions of 16S gene using an Illumina MiSeq platform. We found significant changes in diversity, composition, and networking in saliva microbiota of patients with COVID-19, as well as patterns associated with severity of disease. The presence or abundance of several commensal species and opportunistic pathogens were associated with each clinical stage. Patterns of networking were also found associated with severity of disease: a highly regulated bacterial community (normonetting) was found in healthy people whereas poorly regulated populations (disnetting) were characteristic of severe cases. Characterization of microbiota in saliva may offer important clues in the pathogenesis of COVID-19 and may also identify potential markers for prognosis in the severity of the disease. IMPORTANCE SARS-CoV-2 infection is the most severe pandemic of humankind in the last hundred years. The outcome of the infection ranges from asymptomatic or mild to severe and even fatal cases, but reasons for this remain unknown. Microbes normally colonizing the respiratory tract form communities that may mitigate the transmission, symptoms, and severity of viral infections, but very little is known on the role of these microbial communities in the severity of COVID-19. We aimed to characterize the bacterial communities in saliva of patients with different severity of COVID-19 disease, from mild to fatal cases. Our results revealed clear differences in the composition and in the nature of interactions (networking) of the bacterial species present in the different clinical groups and show community-patterns associated with disease severity. Characterization of the microbial communities in saliva may offer important clues to learn ways COVID-19 patients may suffer from different disease severities.

Published

2023

4. Molecular transition of SARS-CoV-2 from critical patients during the first year of the COVID-19 pandemic in Mexico City

Author

Aldo Hugo De La Cruz-Montoya, Clara Estela Díaz Velásquez, Héctor Martínez-Gregorio, Miguel Ruiz-De La Cruz, José Bustos-Arriaga, Tannya Karen Castro-Jiménez, Jonadab Efraín Olguín-Hernández, Miriam Rodríguez-Sosa, Luis Ignacio Terrazas-Valdes, Luis Armando Jiménez-Alvarez, Nora Elemi Regino-Zamarripa, Gustavo Ramírez-Martínez, Alfredo Cruz-Lagunas, Irlanda Peralta-Arrieta, Leonel Armas-López, Belinda Maricela Contreras-Garza, Gabriel Palma-Cortés, Carlos Cabello-Gutierrez, Renata Báez-Saldaña, Joaquín Zúñiga, Federico Ávila-Moreno, and Felipe Vaca-Paniagua

Subjects

SARS-CoV-2, genome, COVID-19, mutational signatures, evolutionary forces, Microbiology, QR1-502

Abstract

BackgroundThe SARS-CoV-2 virus has caused unprecedented mortality since its emergence in late 2019. The continuous evolution of the viral genome through the concerted action of mutational forces has produced distinct variants that became dominant, challenging human immunity and vaccine development.Aim and methodsIn this work, through an integrative genomic approach, we describe the molecular transition of SARS-CoV-2 by analyzing the viral whole genome sequences from 50 critical COVID-19 patients recruited during the first year of the pandemic in Mexico City.ResultsOur results revealed differential levels of the evolutionary forces across the genome and specific mutational processes that have shaped the first two epidemiological waves of the pandemic in Mexico. Through phylogenetic analyses, we observed a genomic transition in the circulating SARS-CoV-2 genomes from several lineages prevalent in the first wave to a dominance of the B.1.1.519 variant (defined by T478K, P681H, and T732A mutations in the spike protein) in the second wave.ConclusionThis work contributes to a better understanding of the evolutionary dynamics and selective pressures that act at the genomic level, the prediction of more accurate variants of clinical significance, and a better comprehension of the molecular mechanisms driving the evolution of SARS-CoV-2 to improve vaccine and drug development.

Published

2023

5. Neuroprotective Agents with Therapeutic Potential for COVID-19

Author

César A. Zaa, Clara Espitia, Karen L. Reyes-Barrera, Zhiqiang An, and Marco A. Velasco-Velázquez

Subjects

COVID-19, SARS-CoV-2, neurological symptoms, neuroprotective compounds, flavonoids, terpenoids, Microbiology, QR1-502

Abstract

COVID-19 patients can exhibit a wide range of clinical manifestations affecting various organs and systems. Neurological symptoms have been reported in COVID-19 patients, both during the acute phase of the illness and in cases of long-term COVID. Moderate symptoms include ageusia, anosmia, altered mental status, and cognitive impairment, and in more severe cases can manifest as ischemic cerebrovascular disease and encephalitis. In this narrative review, we delve into the reported neurological symptoms associated with COVID-19, as well as the underlying mechanisms contributing to them. These mechanisms include direct damage to neurons, inflammation, oxidative stress, and protein misfolding. We further investigate the potential of small molecules from natural products to offer neuroprotection in models of neurodegenerative diseases. Through our analysis, we discovered that flavonoids, alkaloids, terpenoids, and other natural compounds exhibit neuroprotective effects by modulating signaling pathways known to be impacted by COVID-19. Some of these compounds also directly target SARS-CoV-2 viral replication. Therefore, molecules of natural origin show promise as potential agents to prevent or mitigate nervous system damage in COVID-19 patients. Further research and the evaluation of different stages of the disease are warranted to explore their potential benefits.

Published

2023

6. Longevity and Neutralizing Capacity of IgG Antibodies against SARS-CoV-2 Generated by the Application of BNT162b2, AZD1222, Convidecia, Sputnik V, and CoronaVac Vaccines: a Cohort Study in the Mexican Population

Author

Larissa Fernandes-Matano, Angel Gustavo Salas-Lais, Concepción Grajales-Muñiz, Mauricio Hernández-Ávila, Yonathan Omar Garfias-Becerra, Mario César Rodríguez-Sepúlveda, Carlos Segura-Sánchez, Daniel Montes-Herrera, Denisse Mendoza-Sánchez, Javier Angeles-Martínez, Andrea Santos Coy-Arechavaleta, Julio Elías Alvarado-Yaah, Clara Esperanza Santacruz-Tinoco, Eva Ramón-Gallegos, and José Esteban Muñoz-Medina

Subjects

longevity, antibodies, vaccines, Microbiology, QR1-502

Abstract

ABSTRACT The WHO has approved the use of several vaccines during the COVID-19 pandemic; experience over the last 2 years has indicated that dose demand can only be covered using more than one design. Therefore, having scientific evidence of the performance of the different vaccines applied in a country is highly relevant. In Mexico, 5 vaccines against severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) were used, allowing a cohort study to analyze the generation of anti-S1/S2 IgG antibodies and anti-RBD antibodies with neutralizing activity at 0, 21, 90, and 180 days after vaccination. Five groups of participants were formed on the basis of the type of vaccine received and were divided on the basis of whether they previously had or did not have COVID-19. After completing the vaccination schedule, the seroprevalence was 95.5, 97.5, 81.0, 95.2, and 90.0% (BNT162b2, AZD1222, Convidecia, Sputnik V, and CoronaVac, respectively). Among the participants without COVID-19 prior to vaccination, the largest amount of antibodies in the 90-day period was observed in the BNT162b2 group, and the amount of antibodies in the Sputnik V group decreased the least over time. Even though the percentages of seroconversion obtained in this study were lower than those currently reported in other parts of the world, the tested vaccines are able, in most cases, to induce a good production of IgG antibodies anti-S1/S2 and neutralizing capacity. The fact that there are people who have not produced antibodies during the study leaves open some questions that must be investigated to avoid the appearance of serious cases of COVID-19. IMPORTANCE Since the start of the vaccination programs against COVID-19 in 2020, it was evident that due to global shortages, the demand for the dose required in Mexico could only be covered by acquiring different vaccines. Therefore, determining the effectiveness of these and the longevity of acquired immunity is extremely important in a scenario where SARS-CoV-2 circulation becomes endemic and booster doses are required periodically. Our data reveal significant differences both in the generation of antibodies as well as in their longevity for the vaccines applied in the country but suggest that, in general, the Mexican population can reach a high capacity to neutralize the virus, therefore, regarding less the variant for which they were designed.

Published

2023

7. Integrative overview of antibodies against SARS-CoV-2 and their possible applications in COVID-19 prophylaxis and treatment

Author

Norma A. Valdez-Cruz, Enrique García-Hernández, Clara Espitia, Laura Cobos-Marín, Claudia Altamirano, Carlos G. Bando-Campos, Luis F. Cofas-Vargas, Enrique W. Coronado-Aceves, Ricardo A. González-Hernández, Pablo Hernández-Peralta, Daniel Juárez-López, Paola A. Ortega-Portilla, Sara Restrepo-Pineda, Patricio Zelada-Cordero, and Mauricio A. Trujillo-Roldán

Subjects

Microbiology, QR1-502

Abstract

Abstract SARS-CoV-2 is a novel β-coronavirus that caused the COVID-19 pandemic disease, which spread rapidly, infecting more than 134 million people, and killing almost 2.9 million thus far. Based on the urgent need for therapeutic and prophylactic strategies, the identification and characterization of antibodies has been accelerated, since they have been fundamental in treating other viral diseases. Here, we summarized in an integrative manner the present understanding of the immune response and physiopathology caused by SARS-CoV-2, including the activation of the humoral immune response in SARS-CoV-2 infection and therefore, the synthesis of antibodies. Furthermore, we also discussed about the antibodies that can be generated in COVID-19 convalescent sera and their associated clinical studies, including a detailed characterization of a variety of human antibodies and identification of antibodies from other sources, which have powerful neutralizing capacities. Accordingly, the development of effective treatments to mitigate COVID-19 is expected. Finally, we reviewed the challenges faced in producing potential therapeutic antibodies and nanobodies by cell factories at an industrial level while ensuring their quality, efficacy, and safety.

Published

2021

8. The Alpha Variant (B.1.1.7) of SARS-CoV-2 Failed to Become Dominant in Mexico

Author

Selene Zárate, Blanca Taboada, José Esteban Muñoz-Medina, Pavel Iša, Alejandro Sanchez-Flores, Celia Boukadida, Alfredo Herrera-Estrella, Nelly Selem Mojica, Mauricio Rosales-Rivera, Bruno Gómez-Gil, Angel Gustavo Salas-Lais, Clara Esperanza Santacruz-Tinoco, Héctor Montoya-Fuentes, Julio Elias Alvarado-Yaah, Gloria María Molina-Salinas, Gloria Elena Espinoza-Ayala, José Antonio Enciso-Moreno, Rosa María Gutiérrez-Ríos, Antonio Loza, Joaquín Moreno-Contreras, Rodrigo García-López, Xaira Rivera-Gutierrez, Andreu Comas-García, Rosa María Wong-Chew, Maria-Eugenia Jiménez-Corona, Rosa María del Angel, Joel Armando Vazquez-Perez, Margarita Matías-Florentino, Marissa Pérez-García, Santiago Ávila-Ríos, Hugo G. Castelán-Sánchez, Luis Delaye, León P. Martínez-Castilla, Marina Escalera-Zamudio, Susana López, and Carlos F. Arias

Subjects

Alpha, genomic surveillance, Mexico, SARS-CoV-2, Microbiology, QR1-502

Abstract

ABSTRACT During the coronavirus disease 2019 (COVID-19) pandemic, the emergence and rapid increase of the B.1.1.7 (Alpha) lineage of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), first identified in the United Kingdom in September 2020, was well documented in different areas of the world and became a global public health concern because of its increased transmissibility. The B.1.1.7 lineage was first detected in Mexico during December 2020, showing a slow progressive increase in its circulation frequency, which reached its maximum in May 2021 but never became predominant. In this work, we analyzed the patterns of diversity and distribution of this lineage in Mexico using phylogenetic and haplotype network analyses. Despite the reported increase in transmissibility of the B.1.1.7 lineage, in most Mexican states, it did not displace cocirculating lineages, such as B.1.1.519, which dominated the country from February to May 2021. Our results show that the states with the highest prevalence of B.1.1.7 were those at the Mexico-U.S. border. An apparent pattern of dispersion of this lineage from the northern states of Mexico toward the center or the southeast was observed in the largest transmission chains, indicating possible independent introduction events from the United States. However, other entry points cannot be excluded, as shown by multiple introduction events. Local transmission led to a few successful haplotypes with a localized distribution and specific mutations indicating sustained community transmission. IMPORTANCE The emergence and rapid increase of the B.1.1.7 (Alpha) lineage of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) throughout the world were due to its increased transmissibility. However, it did not displace cocirculating lineages in most of Mexico, particularly B.1.1.519, which dominated the country from February to May 2021. In this work, we analyzed the distribution of B.1.1.7 in Mexico using phylogenetic and haplotype network analyses. Our results show that the states with the highest prevalence of B.1.1.7 (around 30%) were those at the Mexico-U.S. border, which also exhibited the highest lineage diversity, indicating possible introduction events from the United States. Also, several haplotypes were identified with a localized distribution and specific mutations, indicating that sustained community transmission occurred in the country.

Published

2022

9. Infection of C. elegans by Haptoglossa Species Reveals Shared Features in the Host Response to Oomycete Detection

Author

Manish Grover, Michael K. Fasseas, Clara Essmann, Kenneth Liu, Christian Braendle, Marie-Anne Félix, Sally L. Glockling, and Michalis Barkoulas

Subjects

chitinase-like, CLPs, gun cells, haptoglossa, oomycete, innate immunity, Microbiology, QR1-502

Abstract

Oomycetes are a group of eukaryotic organisms that includes many important pathogens of animals and plants. Within this group, the Haptoglossa genus is characterised by the presence of specialised gun cells carrying a harpoon-like infection apparatus. While several Haptoglossa pathogens have been morphologically described, there are currently no host systems developed to study the infection process or host responses in the lab. In this study, we report that Haptoglossa species are potent natural pathogens of Caenorhabditis nematodes. Using electron microscopy, we characterise the infection process in C. elegans and demonstrate that the oomycete causes excessive tissue degradation upon entry in the body cavity, whilst leaving the host cuticle intact. We also report that the host transcriptional response to Haptoglossa infection shares similarities with the response against the oomycete Myzocytiopsis humicola, a key example of which is the induction of chitinase-like (chil) genes in the hypodermis. We demonstrate that this shared feature of the host response can be mounted by pathogen detection without any infection, as previously shown for M. humicola. These results highlight similarities in the nematode immune response to natural infection by phylogenetically distinct oomycetes.

Published

2021

10. Recombinant O-mannosylated protein production (PstS-1) from Mycobacterium tuberculosis in Pichia pastoris (Komagataella phaffii) as a tool to study tuberculosis infection

Author

Giroshi Bando-Campos, Daniel Juárez-López, Sergio A. Román-González, Antonia I. Castillo-Rodal, Clarita Olvera, Yolanda López-Vidal, Roberto Arreguín-Espinosa, Clara Espitia, Mauricio A. Trujillo-Roldán, and Norma A. Valdez-Cruz

Subjects

Mycobacterium tuberculosis, Antigen, Glycoprotein, Pichia pastoris, PstS-1, O-mannosylation, Microbiology, QR1-502

Abstract

Abstract Background Pichia pastoris (syn. Komagataella phaffii) is one of the most highly utilized eukaryotic expression systems for the production of heterologous glycoproteins, being able to perform both N- and O-mannosylation. In this study, we present the expression in P. pastoris of an O-mannosylated recombinant version of the 38 kDa glycolipoprotein PstS-1 from Mycobacterium tuberculosis (Mtb), that is similar in primary structure to the native secreted protein. Results The recombinant PstS-1 (rPstS-1) was produced without the native lipidation signal. Glycoprotein expression was under the control of the methanol-inducible promoter pAOX1, with secretion being directed by the α-mating factor secretion signal. Production of rPstS-1 was carried out in baffled shake flasks (BSFs) and controlled bioreactors. A production up to ~ 46 mg/L of the recombinant protein was achieved in both the BSFs and the bioreactors. The recombinant protein was recovered from the supernatant and purified in three steps, achieving a preparation with 98% electrophoretic purity. The primary and secondary structures of the recombinant protein were characterized, as well as its O-mannosylation pattern. Furthermore, a cross-reactivity analysis using serum antibodies from patients with active tuberculosis demonstrated recognition of the recombinant glycoprotein, indirectly indicating the similarity between the recombinant PstS-1 and the native protein from Mtb. Conclusions rPstS-1 (98.9% sequence identity, O-mannosylated, and without tags) was produced and secreted by P. pastoris, demonstrating that this yeast is a useful cell factory that could also be used to produce other glycosylated Mtb antigens. The rPstS-1 could be used as a tool for studying the role of this molecule during Mtb infection, and to develop and improve vaccines or kits based on the recombinant protein for serodiagnosis.

Published

2019

11. Unsuitability of MALDI-TOF MS to discriminate Acinetobacter baumannii clones under our routine experimental conditions

Author

Clara eSousa, João eBotelho, Filipa eGrosso, Liliana J V Silva, João eLopes, and Luisa ePeixe

Subjects

Acinetobacter baumannii, chemometrics, typing, MALDI-TOF MS, sequence type, Subspecies, Microbiology, QR1-502

Abstract

MALDI-TOF MS (matrix-assisted laser desorption/ionization time-of-flight mass spectrometry) is now in the forefront for routine bacterial species identification methodologies, being its value for clonality assessment controversial. In this work we evaluated the potential of MALDI-TOF MS for assisting infection control by depicting Acinetobacter baumannii clones. Mass spectra of 58 A. baumannii clinical isolates belonging to the worldwide spread lineages (ST98, ST103, ST208 and ST218) isolated in our country, were obtained and analysed with several chemometric tools (pseudo gel views, peakfind function and partial least squares discriminant analysis). The clonal lineages were obtained using the Oxford scheme, belonging ST98, ST208 and ST218 to the international clone II and ST103 to an epidemic clonal lineage (SG5). Additionally, mass spectra of a highly diverse international collection of 38 isolates belonging to 22 STs were obtained for further comparisons. Pseudo gel views and direct peak pattern analysis didn’t allow the discrimination of A. baumannii isolates belonging to ST98, ST103, ST208 or ST218. Moreover, a partial least square discriminant analysis of the mass spectra considering two spectral ranges (2-20kDa and 4-10kDa) revealed a poor degree of discrimination with only 64.6% and 65.8% of correct ST assignments, respectively. Also, mass spectra of the international isolates (n=38, 22STs) revealed a very congruent peak pattern among them as well as among the four lineages included in this work. Despite the increasing interest of MALDI-TOF MS for bacterial typing at different taxonomical levels, we demonstrated, using routine experimental conditions, the unsuitability of this methodology for A. baumannii clonal discrimination.

Published

2015

12. Erratum to: Rhodococcus erythropolis as a host for expression, secretion and glycosylation of Mycobacterium tuberculosis proteins

Author

Antonio J. Vallecillo, Cristina Parada, Pedro Morales, and Clara Espitia

Subjects

Microbiology, QR1-502

Published

2017