Omics : a journal of integrative biology
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This opinion commentary on the coronavirus disease 2019 (COVID-19) pandemic brings together observations from Zimbabwe specifically, and Africa broadly, drawing from the fields of pharmacogenomics, precision herbal medicine, and responsible innovation so as to respond to the pandemic in ways that are efficient, critically informed, principled, and responsive to needs in rural and urban communities across Africa. With new findings suggesting that COVID-19 is a systemic disease, impacting the respiratory system and beyond in some individuals, we need new molecular targets for therapeutics innovation more than ever. We argue that the current pandemic will likely strip the limited resources from other diseases such as malaria, human immunodeficiency virus (HIV) infection, and among others affecting the African continent. ⋯ Extensive diagnostic testing to trace and isolate the COVID-19 cases as well as basic income and economic support for those who are unable to work will be needed. A critically informed and democratic governance that builds on transparency and trust for the elected leaders is crucial. Finally, the pandemic offers a silver lining for Africa: the prospects to integrate omics research with long-standing expertise in herbal medicine in Africa, thus accelerating the advances toward novel molecular therapeutic targets for COVID-19 and precision herbal medicine worldwide.
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A key lesson emerging from COVID-19 is that pandemic proofing planetary health against future ecological crises calls for systems science and preventive medicine innovations. With greater proximity of the human and animal natural habitats in the 21st century, it is also noteworthy that zoonotic infections such as COVID-19 that jump from animals to humans are increasingly plausible in the coming decades. ⋯ In this expert review, we discuss the science of glycomics, its importance in vaccine development, and the recent progress toward discoveries on the sugar code that can help prevent future infectious outbreaks that are looming on the horizon in the 21st century. Glycomics offers veritable prospects to boost planetary health, not to mention the global scientific capacity for vaccine innovation against novel and existing infectious agents.
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The novel severe acute respiratory syndrome corona virus 2 (SARS-CoV-2) is causing an unprecedented pandemic, threatening planetary health, society, and economy. Genomic surveillance continues to be a critical effort toward tracking the virus and containing its spread, and more genomes from diverse geographical areas and different time points are needed to provide an appropriate representation of the virus evolution. In this study, we report the successful assembly of one single gapless, unambiguous contiguous sequence representing the complete viral genome from a nasopharyngeal swab of an infected health care worker in Cairo, Egypt. ⋯ Although the genome, named CU_S3, belongs to the prevalent global genotype, marked by the D614G spike variation, the combined variations in the spike proteins and ORF1a do not co-occur in any of the 197,000 genomes reported to date. Future studies will assess the biological, pathogenic, and epidemiological implications of this set of genetic variations. This line of research is needed to inform vaccine and therapeutic innovation to stem the COVID-19 pandemic.
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Review
Coronavirus Disease-2019 Treatment Strategies Targeting Interleukin-6 Signaling and Herbal Medicine.
Coronavirus disease-2019 (COVID-19) pandemic caused by the severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) is evolving across the world and new treatments are urgently needed as with vaccines to prevent the illness and stem the contagion. The virus affects not only the lungs but also other tissues, thus lending support to the idea that COVID-19 is a systemic disease. The current vaccine and treatment development strategies ought to consider such systems medicine perspectives rather than a narrower focus on the lung infection only. ⋯ Thus, repurposing of already approved IL-6-JAK-STAT signaling inhibitors as well as other anti-inflammatory drugs, including dexamethasone, is under development for severe COVID-19 cases. We conclude this expert review by highlighting the potential role of precision herbal medicines, for example, the Cannabis sativa, provided that omics technologies can be utilized to build a robust scientific evidence base on their clinical safety and efficacy. Precision herbal medicine buttressed by omics systems science would also help identify new molecular targets for drug discovery against COVID-19.
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Review Comparative Study
Molecular Basis of Pathogenesis of Coronaviruses: A Comparative Genomics Approach to Planetary Health to Prevent Zoonotic Outbreaks in the 21st Century.
In the first quarter of the 21st century, we are already facing the third emergence of a coronavirus outbreak, the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) responsible for the coronavirus disease 2019 (COVID-19) pandemic. Comparative genomics can inform a deeper understanding of the pathogenesis of COVID-19. Previous strains of coronavirus, SARS-CoV, and Middle-East respiratory syndrome-coronavirus (MERS-CoV), have been known to cause acute lung injuries in humans. ⋯ Susceptibility of humans to coronavirus outbreaks in the 21st century calls for comparisons of the transmission history, hosts, reservoirs, and fatality rates of these viruses so that evidence-based and effective planetary health interventions can be devised to prevent future zoonotic outbreaks. Comparative genomics offers new insights on putative and novel viral targets with an eye to both therapeutic innovation and prevention. We conclude the expert review by (1) articulating the lessons learned so far, whereas the research is still being actively sought after in the field, and (2) the challenges and prospects in deciphering the linkages among multiomics biological variability and COVID-19 pathogenesis.