Roberto Zenteno-Cuevas scite author profile

SARS-CoV-2 has rapidly generated a pandemic. Vaccines are currently being rolled out to control the viral spread and prevent deaths. Emergency vaccines, using new platforms, have been approved. Their effectiveness, safety and immunogenicity in different populations are not fully known. This study aimed to discover the immunogenicity of the messenger ribonucleic acid (mRNA) BNT162b2 and adenovirus vector Ad5-nCoV vaccines through IgG antibody generation against subunit 1 of protein S (S1 IgG) and assess the side effects of the vaccines. A total of 115 vaccinated people were included, 61 of whom received the BNT162b2 vaccine, while 54 received Ad5-nCoV. Measurements of S1 IgG antibodies were carried out using the enzyme-linked immunosorbent assay (ELISA) technique. The BNT162b2 vaccine generated S1 IgG antibodies in 80.3% of the participants after the first dose. The number of seropositive participants increased to 98.36% with the administration of the second dose. The Ad5-nCoV vaccine generated S1 IgG antibodies in 88.89% of those vaccinated. Women generated more antibodies when administered either vaccine. There were no serious adverse effects from vaccination. In conclusion, not all participants had detectable S1 IgG antibodies. The Ad5-nCoV vaccine presented the most seronegative cases. The studied vaccines were shown to be safe.

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Whole genomic sequencing based genotyping reveals a specific X3 sublineage restricted to Mexico and related with multidrug resistance

Jiménez-Ruano

Madrazo-Moya

Cancino-Muñoz

et al. 2021

Sci Rep

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Whole genome sequencing (WGS) has been shown to be superior to traditional procedures of genotyping in tuberculosis (TB), nevertheless, reports of its use in drug resistant TB (DR-TB) isolates circulating in Mexico, are practically unknown. Considering the above the main of this work was to identify and characterize the lineages and genomic transmission clusters present in 67 DR-TB isolates circulating in southeastern Mexico. The results show the presence of three major lineages: L1 (3%), L2 (3%) and L4 (94%), the last one included 16 sublineages. Sublineage 4.1.1.3 (X3) was predominant in 18 (27%) of the isolates, including one genomic cluster, formed by eleven multidrug resistant isolates and sharing the SIT 3278, which seems to be restricted to Mexico. By the use of WGS, it was possible to identify the high prevalence of L4 and a high number of sublineages circulating in the region, also was recognized the presence of a novel X3 sublineage, formed exclusively by multidrug resistant isolates and with restrictive circulation in Mexico for at least the past 17 years.

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New molecular mechanisms related to drug resistance in tuberculosis

Zenteno-Cuevas

2022

MIC

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Despite the global efforts tuberculosis (TB) remains as one of the most important infectious disease and with the greatest impact on global public health, this situation has been aggravated in recent decades by the growing problem of drug resistance (DR). Such is the impact of the drug resistant in tuberculosis that would threaten the Millennium Development Goals. In addition to polymorphisms in genes associated with drug resistance in tuberculosis, new mechanisms have being described in recent years. Considering the above, the aim of this mini-review is to give a brief description of the traditional mechanisms related with drug resistance and to describe two of the new mechanisms that will have an important impact in the next future; efflux pumps and DNA damage repair mechanisms.

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Characterization of Polymorphisms Associated with Multidrug-Resistant Tuberculosis by Whole Genomic Sequencing: A Preliminary Report from Mexico

Zenteno-Cuevas

Fernandez

Viveros

et al. 2020

Microbial Drug Resistance

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Nanotechnology as a potential tool against drug- and multidrug-resistant tuberculosis

Pérez-Martínez

Zenteno-Cuevas

2020

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