Please use this identifier to cite or link to this item: http://hdl.handle.net/10174/32111

Title: From plant survival under severe stress to anti-viral human defense - a perspective that calls for common efforts
Authors: Arnholdt-Schmitt, Birgit
Mohanapriya, Gunasekaran
Bharadwaj, Revuru
Noceda, Carlos
Macedo, Elisete
Sathishkumar, Ramalingam
Gupta, Kapuganti
Sircar, Debabrata
Kumar, Sarma
Srivastava, Shivani
Adholeya, Alok
Thiers, Karine
Aziz, Shahid
Velada, Isabel
Oliveira, Manuela
Quaresma, Paulo
Achra, Arvind
Gupta, Nidhi
Kumar, Ashwani
Hélio Costa, José
Editors: Kozlakidis, Zisis
Issue Date: 2021
Publisher: Frontiers Media
Citation: Birgit Arnholdt-Schmitt, Gunasekaran Mohanapriya, Revuru Bharadwaj, Carlos Noceda, Elisete Santos Macedo, Ramalingam Sathishkumar, Kapuganti Jagadis Gupta, Debabrata Sircar, Sarma Rajeev Kumar, Shivani Srivastava, Alok Adholeya, KarineLeitão Lima Thiers, Shahid Aziz, Isabel Velada, Manuela Oliveira, Paulo Quaresma, Arvind Achra, Nidhi Gupta, Ashwani Kumar, and José Hélio Costa. From plant survival under severe stress to anti-viral human defense - a perspective that calls for common efforts. Frontiers in Immunology, 12:2066, 2021.
Abstract: Reprogramming of primary virus-infected cells is the critical step that turns viral attacks harmful to humans by initiating super-spreading at cell, organism and population levels. To develop early anti-viral therapies and proactive administration, it is important to understand the very first steps of this process. Plant somatic embryogenesis (SE) is the earliest and most studied model for de novo programming upon severe stress that, in contrast to virus attacks, promotes individual cell and organism survival. We argued that transcript level profiles of target genes established from in vitro SE induction as reference compared to virus-induced profiles can identify differential virus traits that link to harmful reprogramming. To validate this hypothesis, we selected a standard set of genes named ‘ReprogVirus’. This approach was recently applied and published. It resulted in identifying ‘CoV-MAC-TED’, a complex trait that is promising to support combating SARS-CoV-2-induced cell reprogramming in primary infected nose and mouth cells. In this perspective, we aim to explain the rationale of our scientific approach. We are highlighting relevant background knowledge on SE, emphasize the role of alternative oxidase in plant reprogramming and resilience as a learning tool for designing human virus-defense strategies and, present the list of selected genes. As an outlook, we announce wider data collection in a ‘ReprogVirus Platform’ to support anti-viral strategy design through common efforts.
URI: https://www.frontiersin.org/articles/10.3389/fimmu.2021.673723/full
http://hdl.handle.net/10174/32111
Type: article
Appears in Collections:INF - Publicações - Artigos em Revistas Internacionais Com Arbitragem Científica

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