Nature reviews. Microbiology
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Long COVID is an often debilitating illness that occurs in at least 10% of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infections. More than 200 symptoms have been identified with impacts on multiple organ systems. At least 65 million individuals worldwide are estimated to have long COVID, with cases increasing daily. ⋯ In this Review, we explore the current literature and highlight key findings, the overlap with other conditions, the variable onset of symptoms, long COVID in children and the impact of vaccinations. Although these key findings are critical to understanding long COVID, current diagnostic and treatment options are insufficient, and clinical trials must be prioritized that address leading hypotheses. Additionally, to strengthen long COVID research, future studies must account for biases and SARS-CoV-2 testing issues, build on viral-onset research, be inclusive of marginalized populations and meaningfully engage patients throughout the research process.
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Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is a highly transmissible and pathogenic coronavirus that emerged in late 2019 and has caused a pandemic of acute respiratory disease, named 'coronavirus disease 2019' (COVID-19), which threatens human health and public safety. In this Review, we describe the basic virology of SARS-CoV-2, including genomic characteristics and receptor use, highlighting its key difference from previously known coronaviruses. We summarize current knowledge of clinical, epidemiological and pathological features of COVID-19, as well as recent progress in animal models and antiviral treatment approaches for SARS-CoV-2 infection. We also discuss the potential wildlife hosts and zoonotic origin of this emerging virus in detail.
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Following the Ebola virus disease epidemic in west Africa, there has been increased awareness of the need for improved therapies for emerging diseases, including viral haemorrhagic fevers such as those caused by Ebola virus and other filoviruses. Our continually improving understanding of the virus life cycle coupled with the increased availability of 'omics' analyses and high-throughput screening technologies has enhanced our ability to identify potential viral and host factors and aspects involved in the infection process that might be intervention targets. In this Review we address compounds that have shown promise to various degrees in interfering with the filovirus life cycle, including monoclonal antibodies such as ZMapp, mAb114 and REGN-EB3 and inhibitors of viral RNA synthesis such as remdesivir and TKM-Ebola. Furthermore, we discuss the general potential of targeting aspects of the virus life cycle such as the entry process, viral RNA synthesis and gene expression, as well as morphogenesis and budding.