Author: Ebrahimi, Kourosh H.; Gilbertâ€Jaramillo, Javier; James, William S.; McCullagh, James S.O.
Title: Interferonâ€stimulated gene products as regulators of central carbon metabolism Cord-id: w8ch2gvu Document date: 2020_12_1
ID: w8ch2gvu
Snippet: In response to viral infections, the innate immune system rapidly activates expression of several interferonâ€stimulated genes (ISGs), whose protein and metabolic products are believed to directly interfere with the viral life cycle. Here, we argue that biochemical reactions performed by two specific protein products of ISGs modulate central carbon metabolism to support a broadâ€spectrum antiviral response. We demonstrate that the metabolites generated by metalloenzymes nitric oxide synthase a
Document: In response to viral infections, the innate immune system rapidly activates expression of several interferonâ€stimulated genes (ISGs), whose protein and metabolic products are believed to directly interfere with the viral life cycle. Here, we argue that biochemical reactions performed by two specific protein products of ISGs modulate central carbon metabolism to support a broadâ€spectrum antiviral response. We demonstrate that the metabolites generated by metalloenzymes nitric oxide synthase and the radical Sâ€adenosylmethionine (SAM) enzyme RSAD2 inhibit the activity of the housekeeping and glycolytic enzyme glyceraldehyde 3â€phosphate dehydrogenase (GAPDH). We discuss that this inhibition is likely to stimulate a range of metabolic and signalling processes to support a broadâ€spectrum immune response. Based on these analyses, we propose that inhibiting GAPDH in individuals with deteriorated cellular innate immune response like elderly might help in treating viral diseases such as COVIDâ€19.
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