Author:
Yaron Jordan R.,Zhang Liqiang,Guo Qiuyun,Burgin Michelle,Schutz Lauren N.,Awo Enkidia,Wise Lyn,Krause Kurt L.,Ildefonso Cristhian J.,Kwiecien Jacek M.,Juby Michael,Rahman Masmudur M.,Chen Hao,Moyer Richard W.,Alcami Antonio,McFadden Grant,Lucas Alexandra R.
Abstract
Viruses are widely used as a platform for the production of therapeutics. Vaccines containing live, dead and components of viruses, gene therapy vectors and oncolytic viruses are key examples of clinically-approved therapeutic uses for viruses. Despite this, the use of virus-derived proteins as natural sources for immune modulators remains in the early stages of development. Viruses have evolved complex, highly effective approaches for immune evasion. Originally developed for protection against host immune responses, viral immune-modulating proteins are extraordinarily potent, often functioning at picomolar concentrations. These complex viral intracellular parasites have “performed the R&D”, developing highly effective immune evasive strategies over millions of years. These proteins provide a new and natural source for immune-modulating therapeutics, similar in many ways to penicillin being developed from mold or streptokinase from bacteria. Virus-derived serine proteinase inhibitors (serpins), chemokine modulating proteins, complement control, inflammasome inhibition, growth factors (e.g., viral vascular endothelial growth factor) and cytokine mimics (e.g., viral interleukin 10) and/or inhibitors (e.g., tumor necrosis factor) have now been identified that target central immunological response pathways. We review here current development of virus-derived immune-modulating biologics with efficacy demonstrated in pre-clinical or clinical studies, focusing on pox and herpesviruses-derived immune-modulating therapeutics.
Funder
National Institutes of Health
American Heart Association
University of Florida Foundation
Cited by
14 articles.
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