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Polymorphisms Influence the Expression of the Fas and FasL Genes in COVID-19
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The apoptotic molecule Fas and its ligand FasL are involved in the process of T-lymphocyte death, which may lead to lymphopenia, a characteristic of severe coronavirus disease 2019 (COVID-19). In this study, we investigated the influence of polymorphisms in the FAS and FASL genes, FAS and FASL gene expression, and plasma cytokine levels on COVID-19 severity and long COVID occurrence. A total of 116 individuals with severe COVID-19 and 254 with the non-severe form of the disease were evaluated. In the post-COVID-19 period, samples from 196 individuals with long COVID and 67 from people who did not have long COVID were included. Genotyping and quantification of gene expression were performed via real-time PCR, and cytokine measurement was performed via flow cytometry. The AA genotype for FAS rs1800682 (A/G) and the TT genotype for FASL rs763110 (C/T) were associated with increased FAS and FASL gene expression, respectively (p < 0.005). Higher plasma IFN-γ levels were associated with higher FAS and FASL gene expression (p < 0.05). Among individuals with non-severe COVID-19, carriers of the AA genotype for FAS rs1800682 (A/G) had higher levels of FAS expression, more symptoms, and higher IFN-γ levels (p < 0.05). No association of the evaluated markers with long COVID were observed. The AA genotype of FAS rs1800682 (A/G) and the TT genotype of FASL rs763110 (C/T) influence the levels of FAS and FASL gene expression. Higher gene expression of FAS and FASL may lead to greater inflammation in COVID-19 patients, with higher levels of IFN-γ and T lymphocyte death.
MDPI AG
Wandrey Roberto dos Santos Brito
William Botelho de Brito
Fabiane dos Santos Ferreira
Emmanuelle Giuliana Mendes Santana
Jeferson da Costa Lopes
Ednelza da Silva Graça Amoras
Sandra Souza Lima
Erika Ferreira dos Santos
Flávia Póvoa da Costa
Kevin Matheus Lima de Sarges
Marcos Henrique Damasceno Cantanhede
Mioni Thieli Figueiredo Magalhães de Brito
Andréa Luciana Soares da Silva
Mauro de Meira Leite
Maria de Nazaré do Socorro de Almeida Viana
Fabíola Brasil Barbosa Rodrigues
Rosilene da Silva
Giselle Maria Rachid Viana
Tânia do Socorro Souza Chaves
Adriana de Oliveira Lameira Veríssimo
Mayara da Silva Carvalho
Daniele Freitas Henriques
Carla Pinheiro da Silva
Juliana Abreu Lima Nunes
Iran Barros Costa
Igor Brasil-Costa
Juarez Antônio Simões Quaresma
Izaura Maria Vieira Cayres-Vallinoto
Leonardo Oliveira Reis
Luiz Fábio Magno Falcão
Eduardo José Melo dos Santos
Antonio Carlos Rosário Vallinoto
Maria Alice Freitas Queiroz
Title: Polymorphisms Influence the Expression of the Fas and FasL Genes in COVID-19
Description:
The apoptotic molecule Fas and its ligand FasL are involved in the process of T-lymphocyte death, which may lead to lymphopenia, a characteristic of severe coronavirus disease 2019 (COVID-19).
In this study, we investigated the influence of polymorphisms in the FAS and FASL genes, FAS and FASL gene expression, and plasma cytokine levels on COVID-19 severity and long COVID occurrence.
A total of 116 individuals with severe COVID-19 and 254 with the non-severe form of the disease were evaluated.
In the post-COVID-19 period, samples from 196 individuals with long COVID and 67 from people who did not have long COVID were included.
Genotyping and quantification of gene expression were performed via real-time PCR, and cytokine measurement was performed via flow cytometry.
The AA genotype for FAS rs1800682 (A/G) and the TT genotype for FASL rs763110 (C/T) were associated with increased FAS and FASL gene expression, respectively (p < 0.
005).
Higher plasma IFN-γ levels were associated with higher FAS and FASL gene expression (p < 0.
05).
Among individuals with non-severe COVID-19, carriers of the AA genotype for FAS rs1800682 (A/G) had higher levels of FAS expression, more symptoms, and higher IFN-γ levels (p < 0.
05).
No association of the evaluated markers with long COVID were observed.
The AA genotype of FAS rs1800682 (A/G) and the TT genotype of FASL rs763110 (C/T) influence the levels of FAS and FASL gene expression.
Higher gene expression of FAS and FASL may lead to greater inflammation in COVID-19 patients, with higher levels of IFN-γ and T lymphocyte death.
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