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Cyclosporines Antagonize the Antiviral Activity of IFITMProteins by Redistributing Them toward the Golgi Apparatus
by
Melikyan, Gregory B.
, Marin, Mariana
, Fu, Haian
, Du, Yuhong
, Desai, Tanay M.
, Prikryl, David
in
Antiviral activity
/ Antiviral Agents - metabolism
/ Antiviral Agents - pharmacology
/ Antiviral drugs
/ beta-lactamase virus fusion assay
/ Cell membranes
/ Cells
/ cyclosporin
/ Cyclosporins
/ Degradation
/ Dengue fever
/ Endosomes
/ Golgi apparatus
/ Golgi Apparatus - metabolism
/ high-throughput compound screening
/ host restriction factors
/ IFITM trafficking
/ Influenza
/ Interferon
/ Interferons
/ Localization
/ Membrane proteins
/ Plasmids
/ Proteins
/ Rapamycin
/ Reagents
/ Respiratory syncytial virus
/ Severe acute respiratory syndrome coronavirus 2
/ Sirolimus
/ virus fusion
/ Viruses
2023
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Cyclosporines Antagonize the Antiviral Activity of IFITMProteins by Redistributing Them toward the Golgi Apparatus
by
Melikyan, Gregory B.
, Marin, Mariana
, Fu, Haian
, Du, Yuhong
, Desai, Tanay M.
, Prikryl, David
in
Antiviral activity
/ Antiviral Agents - metabolism
/ Antiviral Agents - pharmacology
/ Antiviral drugs
/ beta-lactamase virus fusion assay
/ Cell membranes
/ Cells
/ cyclosporin
/ Cyclosporins
/ Degradation
/ Dengue fever
/ Endosomes
/ Golgi apparatus
/ Golgi Apparatus - metabolism
/ high-throughput compound screening
/ host restriction factors
/ IFITM trafficking
/ Influenza
/ Interferon
/ Interferons
/ Localization
/ Membrane proteins
/ Plasmids
/ Proteins
/ Rapamycin
/ Reagents
/ Respiratory syncytial virus
/ Severe acute respiratory syndrome coronavirus 2
/ Sirolimus
/ virus fusion
/ Viruses
2023
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Cyclosporines Antagonize the Antiviral Activity of IFITMProteins by Redistributing Them toward the Golgi Apparatus
by
Melikyan, Gregory B.
, Marin, Mariana
, Fu, Haian
, Du, Yuhong
, Desai, Tanay M.
, Prikryl, David
in
Antiviral activity
/ Antiviral Agents - metabolism
/ Antiviral Agents - pharmacology
/ Antiviral drugs
/ beta-lactamase virus fusion assay
/ Cell membranes
/ Cells
/ cyclosporin
/ Cyclosporins
/ Degradation
/ Dengue fever
/ Endosomes
/ Golgi apparatus
/ Golgi Apparatus - metabolism
/ high-throughput compound screening
/ host restriction factors
/ IFITM trafficking
/ Influenza
/ Interferon
/ Interferons
/ Localization
/ Membrane proteins
/ Plasmids
/ Proteins
/ Rapamycin
/ Reagents
/ Respiratory syncytial virus
/ Severe acute respiratory syndrome coronavirus 2
/ Sirolimus
/ virus fusion
/ Viruses
2023
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Cyclosporines Antagonize the Antiviral Activity of IFITMProteins by Redistributing Them toward the Golgi Apparatus
Journal Article
Cyclosporines Antagonize the Antiviral Activity of IFITMProteins by Redistributing Them toward the Golgi Apparatus
2023
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Overview
Interferon-induced transmembrane proteins (IFITMs) block the fusion of diverse enveloped viruses, likely through increasing the cell membrane’s rigidity. Previous studies have reported that the antiviral activity of the IFITM family member, IFITM3, is antagonized by cell pretreatment with rapamycin derivatives and cyclosporines A and H (CsA and CsH) that promote the degradation of IFITM3. Here, we show that CsA and CsH potently enhance virus fusion with IFITM1- and IFITM3-expressing cells by inducing their rapid relocalization from the plasma membrane and endosomes, respectively, towards the Golgi. This relocalization is not associated with a significant degradation of IFITMs. Although prolonged exposure to CsA induces IFITM3 degradation in cells expressing low endogenous levels of this protein, its levels remain largely unchanged in interferon-treated cells or cells ectopically expressing IFITM3. Importantly, the CsA-mediated redistribution of IFITMs to the Golgi occurs on a much shorter time scale than degradation and thus likely represents the primary mechanism of enhancement of virus entry. We further show that rapamycin also induces IFITM relocalization toward the Golgi, albeit less efficiently than cyclosporines. Our findings highlight the importance of regulation of IFITM trafficking for its antiviral activity and reveal a novel mechanism of the cyclosporine-mediated modulation of cell susceptibility to enveloped virus infection.
Publisher
MDPI AG,MDPI
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