新冠病毒:基因多样性与治疗干预方法问题
COVID-19: The question of genetic diversity and therapeutic intervention approaches.
作者信息
Figueiredo David Livingstone Alves, Ximenez João Paulo Bianchi, Seiva Fábio Rodrigues Ferreira, Panis Carolina, Bezerra Rafael Dos Santos, Ferrasa Adriano, Cecchini Alessandra Lourenço, Medeiros Alexandra Ivo de, Almeida Ana Marisa Fusco, Ramão Anelisa, Boldt Angelica Beate Winter, Moya Carla Fredrichsen, Chin Chung Man, Paula Daniel de, Rech Daniel, Gradia Daniela Fiori, Malheiros Danielle, Venturini Danielle, Tavares Eliandro Reis, Carraro Emerson, Ribeiro Enilze Maria de Souza Fonseca, Pereira Evani Marques, Tuon Felipe Francisco, Follador Franciele Aní Caovilla, Fernandes Glaura Scantamburlo Alves, Volpato Hélito, Cólus Ilce Mara de Syllos, Oliveira Jaqueline Carvalho de, Rodrigues Jean Henrique da Silva, Santos Jean Leandro Dos, Visentainer Jeane Eliete Laguila, Brandi Juliana Cristina, Serpeloni Juliana Mara, Bonini Juliana Sartori, Oliveira Karen Brajão de, Fiorentin Karine, Lucio Léia Carolina, Faccin-Galhardi Ligia Carla, Ferreto Lirane Elize Defante, Lioni Lucy Megumi Yamauchi, Consolaro Marcia Edilaine Lopes, Vicari Marcelo Ricardo, Arbex Marcos Abdo, Pileggi Marcos, Watanabe Maria Angelica Ehara, Costa Maria Antônia Ramos, Giannini Maria José S Mendes, Amarante Marla Karine, Khalil Najeh Maissar, Lima Neto Quirino Alves de, Herai Roberto H, Guembarovski Roberta Losi, Shinsato Rogério N, Mainardes Rubiana Mara, Giuliatti Silvana, Yamada-Ogatta Sueli Fumie, Gerber Viviane Knuppel de Quadros, Pavanelli Wander Rogério, Silva Weber Claudio da, Petzl-Erler Maria Luiza, Valente Valeria, Soares Christiane Pienna, Cavalli Luciane Regina, Silva Wilson Araujo
机构信息
Universidade Estadual do Centro-Oeste do Paraná (UNICENTRO), Departamento de Medicina, Guarapuava, PR, Brazil.
Instituto para Pesquisa do Câncer (IPEC), Guarapuava, PR, Brazil.
出版信息
Genet Mol Biol. 2022 Apr 8;44(1 Suppl 1):e20200452. doi: 10.1590/1678-4685-GMB-2020-0452. eCollection 2021.
Coronavirus disease 2019 (COVID-19), caused by the Severe Acute Respiratory Syndrome Coronavirus type 2 (SARS-CoV-2), is the largest pandemic in modern history with very high infection rates and considerable mortality. The disease, which emerged in China's Wuhan province, had its first reported case on December 29, 2019, and spread rapidly worldwide. On March 11, 2020, the World Health Organization (WHO) declared the COVID-19 outbreak a pandemic and global health emergency. Since the outbreak, efforts to develop COVID-19 vaccines, engineer new drugs, and evaluate existing ones for drug repurposing have been intensively undertaken to find ways to control this pandemic. COVID-19 therapeutic strategies aim to impair molecular pathways involved in the virus entrance and replication or interfere in the patients' overreaction and immunopathology. Moreover, nanotechnology could be an approach to boost the activity of new drugs. Several COVID-19 vaccine candidates have received emergency-use or full authorization in one or more countries, and others are being developed and tested. This review assesses the different strategies currently proposed to control COVID-19 and the issues or limitations imposed on some approaches by the human and viral genetic variability.
2019冠状病毒病(COVID-19)由严重急性呼吸综合征冠状病毒2型(SARS-CoV-2)引起,是现代历史上规模最大的大流行疾病,感染率极高且死亡率可观。该疾病在中国湖北省出现,2019年12月29日报告首例病例,并迅速在全球传播。2020年3月11日,世界卫生组织(WHO)宣布COVID-19疫情为大流行疾病和全球卫生紧急事件。自疫情爆发以来,人们一直在大力开展研发COVID-19疫苗、设计新药物以及评估现有药物用于药物再利用等工作,以寻找控制这一大流行疾病的方法。COVID-19治疗策略旨在破坏病毒进入和复制所涉及的分子途径,或干预患者的过度反应和免疫病理学。此外,纳米技术可能是增强新药活性的一种方法。几种COVID-19候选疫苗已在一个或多个国家获得紧急使用授权或全面授权,其他疫苗也正在研发和测试中。本综述评估了目前为控制COVID-19而提出的不同策略,以及人类和病毒基因变异性给某些方法带来的问题或限制。
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