Identification of imp dehydrogenase as a potential target for anti-mpox virus agents

Takayuki Hishiki; Takeshi Morita; Daisuke Akazawa; Hirofumi Ohashi; Eun Sil Park; Michiyo Kataoka; Junki Mifune; Kaho Shionoya; Kana Tsuchimoto; Shinjiro Ojima; Aa Haeruman Azam; Shogo Nakajima; Madoka Kawahara; Tomoki Yoshikawa; Masayuki Shimojima; Kotaro Kiga; Ken Maeda; Tadaki Suzuki; Hideki Ebihara; Yoshimasa Takahashi; Koichi Watashi

doi:10.1128/spectrum.00566-23

Identification of imp dehydrogenase as a potential target for anti-mpox virus agents

Takayuki Hishiki, Takeshi Morita, Daisuke Akazawa, Hirofumi Ohashi, Eun Sil Park, Michiyo Kataoka, Junki Mifune, Kaho Shionoya, Kana Tsuchimoto, Shinjiro Ojima, Aa Haeruman Azam, Shogo Nakajima, Madoka Kawahara, Tomoki Yoshikawa, Masayuki Shimojima, Kotaro Kiga, Ken Maeda, Tadaki Suzuki, Hideki Ebihara, Yoshimasa TakahashiKoichi Watashi

Molecular Medicine

Research output: Contribution to journal › Article › peer-review

Abstract

Mpox virus (formerly monkeypox virus [MPXV]) is a neglected zoonotic pathogen that caused a worldwide outbreak in May 2022. Given the lack of an established therapy, the development of an anti-MPXV strategy is of vital importance. To identify drug targets for the development of anti-MPXV agents, we screened a chemical library using an MPXV infection cell assay and found that gemcitabine, trifluridine, and mycophenolic acid (MPA) inhibited MPXV propagation. These compounds showed broad-spectrum anti-orthopoxvirus activities and presented lower 90% inhibitory concentrations (0.026 to 0.89 mM) than brincidofovir, an approved anti-smallpox agent. These three compounds have been suggested to target the postentry step to reduce the intracellular production of virions. Knockdown of IMP dehydrogenase (IMPDH), the rate-limiting enzyme of guanosine biosynthesis and a target of MPA, dramatically reduced MPXV DNA production. Moreover, supplementation with guanosine recovered the anti-MPXV effect of MPA, suggesting that IMPDH and its guanosine biosynthetic pathway regulate MPXV replication. By targeting IMPDH, we identified a series of compounds with stronger anti-MPXV activity than MPA. This evidence shows that IMPDH is a potential target for the development of anti-MPXV agents. IMPORTANCE Mpox is a zoonotic disease caused by infection with the mpox virus, and a worldwide outbreak occurred in May 2022. The smallpox vaccine has recently been approved for clinical use against mpox in the United States. Although brincidofovir and tecovirimat are drugs approved for the treatment of smallpox by the U.S. Food and Drug Administration, their efficacy against mpox has not been established. Moreover, these drugs may present negative side effects. Therefore, new anti-mpox virus agents are needed. This study revealed that gemcitabine, trifluridine, and mycophenolic acid inhibited mpox virus propagation and exhibited broad-spectrum anti-orthopoxvirus activities. We also suggested IMP dehydrogenase as a potential target for the development of anti-mpox virus agents. By targeting this molecule, we identified a series of compounds with stronger anti-mpox virus activity than mycophenolic acid.

Original language	English (US)
Journal	Microbiology Spectrum
Volume	11
Issue number	4
DOIs	https://doi.org/10.1128/spectrum.00566-23
State	Published - Aug 2023

Keywords

IMP dehydrogenase
IMPDH
antiviral
antiviral agents
gemcitabine
monkeypox
mpox
mycophenolic acid
trifluridine

ASJC Scopus subject areas

Physiology
Ecology
General Immunology and Microbiology
Genetics
Microbiology (medical)
Cell Biology
Infectious Diseases

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10.1128/spectrum.00566-23

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Hishiki, T., Morita, T., Akazawa, D., Ohashi, H., Park, E. S., Kataoka, M., Mifune, J., Shionoya, K., Tsuchimoto, K., Ojima, S., Azam, A. H., Nakajima, S., Kawahara, M., Yoshikawa, T., Shimojima, M., Kiga, K., Maeda, K., Suzuki, T., Ebihara, H., ... Watashi, K. (2023). Identification of imp dehydrogenase as a potential target for anti-mpox virus agents. Microbiology Spectrum, 11(4). https://doi.org/10.1128/spectrum.00566-23

Hishiki, T, Morita, T, Akazawa, D, Ohashi, H, Park, ES, Kataoka, M, Mifune, J, Shionoya, K, Tsuchimoto, K, Ojima, S, Azam, AH, Nakajima, S, Kawahara, M, Yoshikawa, T, Shimojima, M, Kiga, K, Maeda, K, Suzuki, T, Ebihara, H, Takahashi, Y & Watashi, K 2023, 'Identification of imp dehydrogenase as a potential target for anti-mpox virus agents', Microbiology Spectrum, vol. 11, no. 4. https://doi.org/10.1128/spectrum.00566-23

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title = "Identification of imp dehydrogenase as a potential target for anti-mpox virus agents",

abstract = "Mpox virus (formerly monkeypox virus [MPXV]) is a neglected zoonotic pathogen that caused a worldwide outbreak in May 2022. Given the lack of an established therapy, the development of an anti-MPXV strategy is of vital importance. To identify drug targets for the development of anti-MPXV agents, we screened a chemical library using an MPXV infection cell assay and found that gemcitabine, trifluridine, and mycophenolic acid (MPA) inhibited MPXV propagation. These compounds showed broad-spectrum anti-orthopoxvirus activities and presented lower 90% inhibitory concentrations (0.026 to 0.89 mM) than brincidofovir, an approved anti-smallpox agent. These three compounds have been suggested to target the postentry step to reduce the intracellular production of virions. Knockdown of IMP dehydrogenase (IMPDH), the rate-limiting enzyme of guanosine biosynthesis and a target of MPA, dramatically reduced MPXV DNA production. Moreover, supplementation with guanosine recovered the anti-MPXV effect of MPA, suggesting that IMPDH and its guanosine biosynthetic pathway regulate MPXV replication. By targeting IMPDH, we identified a series of compounds with stronger anti-MPXV activity than MPA. This evidence shows that IMPDH is a potential target for the development of anti-MPXV agents. IMPORTANCE Mpox is a zoonotic disease caused by infection with the mpox virus, and a worldwide outbreak occurred in May 2022. The smallpox vaccine has recently been approved for clinical use against mpox in the United States. Although brincidofovir and tecovirimat are drugs approved for the treatment of smallpox by the U.S. Food and Drug Administration, their efficacy against mpox has not been established. Moreover, these drugs may present negative side effects. Therefore, new anti-mpox virus agents are needed. This study revealed that gemcitabine, trifluridine, and mycophenolic acid inhibited mpox virus propagation and exhibited broad-spectrum anti-orthopoxvirus activities. We also suggested IMP dehydrogenase as a potential target for the development of anti-mpox virus agents. By targeting this molecule, we identified a series of compounds with stronger anti-mpox virus activity than mycophenolic acid.",

keywords = "IMP dehydrogenase, IMPDH, antiviral, antiviral agents, gemcitabine, monkeypox, mpox, mycophenolic acid, trifluridine",

author = "Takayuki Hishiki and Takeshi Morita and Daisuke Akazawa and Hirofumi Ohashi and Park, {Eun Sil} and Michiyo Kataoka and Junki Mifune and Kaho Shionoya and Kana Tsuchimoto and Shinjiro Ojima and Azam, {Aa Haeruman} and Shogo Nakajima and Madoka Kawahara and Tomoki Yoshikawa and Masayuki Shimojima and Kotaro Kiga and Ken Maeda and Tadaki Suzuki and Hideki Ebihara and Yoshimasa Takahashi and Koichi Watashi",

year = "2023",

month = aug,

doi = "10.1128/spectrum.00566-23",

language = "English (US)",

volume = "11",

journal = "Microbiology Spectrum",

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number = "4",

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T1 - Identification of imp dehydrogenase as a potential target for anti-mpox virus agents

AU - Hishiki, Takayuki

AU - Morita, Takeshi

AU - Akazawa, Daisuke

AU - Ohashi, Hirofumi

AU - Park, Eun Sil

AU - Kataoka, Michiyo

AU - Mifune, Junki

AU - Shionoya, Kaho

AU - Tsuchimoto, Kana

AU - Ojima, Shinjiro

AU - Azam, Aa Haeruman

AU - Nakajima, Shogo

AU - Kawahara, Madoka

AU - Yoshikawa, Tomoki

AU - Shimojima, Masayuki

AU - Kiga, Kotaro

AU - Maeda, Ken

AU - Suzuki, Tadaki

AU - Ebihara, Hideki

AU - Takahashi, Yoshimasa

AU - Watashi, Koichi

PY - 2023/8

Y1 - 2023/8

N2 - Mpox virus (formerly monkeypox virus [MPXV]) is a neglected zoonotic pathogen that caused a worldwide outbreak in May 2022. Given the lack of an established therapy, the development of an anti-MPXV strategy is of vital importance. To identify drug targets for the development of anti-MPXV agents, we screened a chemical library using an MPXV infection cell assay and found that gemcitabine, trifluridine, and mycophenolic acid (MPA) inhibited MPXV propagation. These compounds showed broad-spectrum anti-orthopoxvirus activities and presented lower 90% inhibitory concentrations (0.026 to 0.89 mM) than brincidofovir, an approved anti-smallpox agent. These three compounds have been suggested to target the postentry step to reduce the intracellular production of virions. Knockdown of IMP dehydrogenase (IMPDH), the rate-limiting enzyme of guanosine biosynthesis and a target of MPA, dramatically reduced MPXV DNA production. Moreover, supplementation with guanosine recovered the anti-MPXV effect of MPA, suggesting that IMPDH and its guanosine biosynthetic pathway regulate MPXV replication. By targeting IMPDH, we identified a series of compounds with stronger anti-MPXV activity than MPA. This evidence shows that IMPDH is a potential target for the development of anti-MPXV agents. IMPORTANCE Mpox is a zoonotic disease caused by infection with the mpox virus, and a worldwide outbreak occurred in May 2022. The smallpox vaccine has recently been approved for clinical use against mpox in the United States. Although brincidofovir and tecovirimat are drugs approved for the treatment of smallpox by the U.S. Food and Drug Administration, their efficacy against mpox has not been established. Moreover, these drugs may present negative side effects. Therefore, new anti-mpox virus agents are needed. This study revealed that gemcitabine, trifluridine, and mycophenolic acid inhibited mpox virus propagation and exhibited broad-spectrum anti-orthopoxvirus activities. We also suggested IMP dehydrogenase as a potential target for the development of anti-mpox virus agents. By targeting this molecule, we identified a series of compounds with stronger anti-mpox virus activity than mycophenolic acid.

AB - Mpox virus (formerly monkeypox virus [MPXV]) is a neglected zoonotic pathogen that caused a worldwide outbreak in May 2022. Given the lack of an established therapy, the development of an anti-MPXV strategy is of vital importance. To identify drug targets for the development of anti-MPXV agents, we screened a chemical library using an MPXV infection cell assay and found that gemcitabine, trifluridine, and mycophenolic acid (MPA) inhibited MPXV propagation. These compounds showed broad-spectrum anti-orthopoxvirus activities and presented lower 90% inhibitory concentrations (0.026 to 0.89 mM) than brincidofovir, an approved anti-smallpox agent. These three compounds have been suggested to target the postentry step to reduce the intracellular production of virions. Knockdown of IMP dehydrogenase (IMPDH), the rate-limiting enzyme of guanosine biosynthesis and a target of MPA, dramatically reduced MPXV DNA production. Moreover, supplementation with guanosine recovered the anti-MPXV effect of MPA, suggesting that IMPDH and its guanosine biosynthetic pathway regulate MPXV replication. By targeting IMPDH, we identified a series of compounds with stronger anti-MPXV activity than MPA. This evidence shows that IMPDH is a potential target for the development of anti-MPXV agents. IMPORTANCE Mpox is a zoonotic disease caused by infection with the mpox virus, and a worldwide outbreak occurred in May 2022. The smallpox vaccine has recently been approved for clinical use against mpox in the United States. Although brincidofovir and tecovirimat are drugs approved for the treatment of smallpox by the U.S. Food and Drug Administration, their efficacy against mpox has not been established. Moreover, these drugs may present negative side effects. Therefore, new anti-mpox virus agents are needed. This study revealed that gemcitabine, trifluridine, and mycophenolic acid inhibited mpox virus propagation and exhibited broad-spectrum anti-orthopoxvirus activities. We also suggested IMP dehydrogenase as a potential target for the development of anti-mpox virus agents. By targeting this molecule, we identified a series of compounds with stronger anti-mpox virus activity than mycophenolic acid.

KW - IMP dehydrogenase

KW - IMPDH

KW - antiviral

KW - antiviral agents

KW - gemcitabine

KW - monkeypox

KW - mpox

KW - mycophenolic acid

KW - trifluridine

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Identification of imp dehydrogenase as a potential target for anti-mpox virus agents

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Keywords

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