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Dual Effect of Organogermanium Compound THGP on RIG-I-Mediated Viral Sensing and Viral Replication during Influenza a Virus Infection

Authors :
Baidya, Sunanda
Nishimoto, Yoko
Sato, Seiichi
Shimada, Yasuhiro
Sakurai, Nozomi
Nonaka, Hirotaka
Noguchi, Koki
Kido, Mizuki
Tadano, Satoshi
Ishikawa, Kozo
Li, Kai
Okubo, Aoi
Yamada, Taisho
Orba, Yasuko
Sasaki, Michihito
Sawa, Hirofumi
Miyamoto, Hiroko
Takada, Ayato
Nakamura, Takashi
Takaoka, Akinori
Baidya, Sunanda
Nishimoto, Yoko
Sato, Seiichi
Shimada, Yasuhiro
Sakurai, Nozomi
Nonaka, Hirotaka
Noguchi, Koki
Kido, Mizuki
Tadano, Satoshi
Ishikawa, Kozo
Li, Kai
Okubo, Aoi
Yamada, Taisho
Orba, Yasuko
Sasaki, Michihito
Sawa, Hirofumi
Miyamoto, Hiroko
Takada, Ayato
Nakamura, Takashi
Takaoka, Akinori
Publication Year :
2021

Abstract

The interaction of viral nucleic acid with protein factors is a crucial process for initiating viral polymerase-mediated viral genome replication while activating pattern recognition receptor (PRR)-mediated innate immune responses. It has previously been reported that a hydrolysate of Ge-132, 3-(trihydroxygermyl) propanoic acid (THGP), shows a modulatory effect on microbial infections, inflammation, and immune responses. However, the detailed mechanism by which THGP can modify these processes during viral infections remained unknown. Here, we show that THGP can specifically downregulate type I interferon (IFN) production in response to stimulation with a cytosolic RNA sensor RIG-I ligand 5 '-triphosphate RNA (3pRNA) but not double-stranded RNA, DNA, or lipopolysaccharide. Consistently, treatment with THGP resulted in the dose-dependent suppression of type I IFN induction upon infections with influenza virus (IAV) and vesicular stomatitis virus, which are known to be mainly sensed by RIG-I. Mechanistically, THGP directly binds to the 5 '-triphosphate moiety of viral RNA and competes with RIG-I-mediated recognition. Furthermore, we found that THGP can directly counteract the replication of IAV but not EMCV (encephalitismyocarditis virus), by inhibiting the interaction of viral polymerase with RNA genome. Finally, IAV RNA levels were significantly reduced in the lung tissues of THGP-treated mice when compared with untreated mice. These results suggest a possible therapeutic implication of THGP and show direct antiviral action, together with the suppressive activity of innate inflammation.

Details

Database :
OAIster
Notes :
English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1313577492
Document Type :
Electronic Resource