PHD3-VHL axis controls HIV-2 infection through oxygen-dependent hydroxylation and degradation of Vpx

HIV-2 viral protein X (Vpx) plays a pivotal role in antagonizing the host restriction factors, including SAMHD1 and components of the HUSH complex, to facilitate viral replication. However, the regulatory mechanisms controlling Vpx stability remain unclear. In this study, we identify the von Hippel–...

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Published in	PLoS pathogens Vol. 21; no. 6; p. e1013241
Main Authors	Miyakawa, Kei, Tanaka, Kiho, Ino, Yoko, Kimura, Yayoi, Kameya, Taichi, Mizukoshi, Fuminori, Nishi, Mayuko, Yokoyama, Masaru, Nakabayashi, Jun, Nomaguchi, Masako, Sato, Hironori, Kimura, Hirokazu, Akari, Hirofumi, Miura, Tomoyuki, Takaoka, Akinori, Hasegawa, Hideki, Matano, Tetsuro, Minamishima, Yoji Andrew, Ryo, Akihide
Format	Journal Article
Language	English
Published	United States Public Library of Science 16.06.2025 Public Library of Science (PLoS)
Subjects	Analysis Biology and Life Sciences Crosslinked polymers Health aspects HEK293 Cells HIV Infections - metabolism HIV Infections - virology HIV-2 - metabolism Humans Hydroxylation Hypoxia-Inducible Factor-Proline Dioxygenases - genetics Hypoxia-Inducible Factor-Proline Dioxygenases - metabolism Infection control Macrophages - metabolism Macrophages - virology Medicine and Health Sciences Methods Oxygen - metabolism Proteolysis Research and Analysis Methods Ubiquitin-proteasome system Viral proteins Viral Regulatory and Accessory Proteins - genetics Viral Regulatory and Accessory Proteins - metabolism Von Hippel-Lindau Tumor Suppressor Protein - genetics Von Hippel-Lindau Tumor Suppressor Protein - metabolism Japan
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ISSN	1553-7374 1553-7366 1553-7374
DOI	10.1371/journal.ppat.1013241

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Abstract	HIV-2 viral protein X (Vpx) plays a pivotal role in antagonizing the host restriction factors, including SAMHD1 and components of the HUSH complex, to facilitate viral replication. However, the regulatory mechanisms controlling Vpx stability remain unclear. In this study, we identify the von Hippel–Lindau (VHL) tumor suppressor as a novel E3 ubiquitin ligase that specifically targets Vpx for proteasomal degradation. Mechanistically, we demonstrate that VHL-mediated degradation depends on the oxygen-dependent hydroxylation of Vpx at proline residue 41 (Pro41), a modification catalyzed by prolyl hydroxylase domain-containing protein 3 (PHD3). Using an integrated approach combining crosslinking mass spectrometry and molecular modeling analyses, we elucidate the structural architecture of the PHD3-Vpx complex, revealing the spatial orientation of the catalytic domain of PHD3 required for Pro41 hydroxylation. Furthermore, we establish the physiological significance of this pathway in human macrophages, where pharmacological inhibition or genetic ablation of VHL or PHD3 enhances HIV-2 infection by facilitating Vpx-mediated SAMHD1 degradation. Collectively, our findings unveil a previously unrecognized oxygen-sensitive regulatory mechanism influencing HIV-2 infection and suggest novel therapeutic strategies targeting Vpx stability through modulation of its prolyl hydroxylation status.
AbstractList	HIV-2 viral protein X (Vpx) plays a pivotal role in antagonizing the host restriction factors, including SAMHD1 and components of the HUSH complex, to facilitate viral replication. However, the regulatory mechanisms controlling Vpx stability remain unclear. In this study, we identify the von Hippel-Lindau (VHL) tumor suppressor as a novel E3 ubiquitin ligase that specifically targets Vpx for proteasomal degradation. Mechanistically, we demonstrate that VHL-mediated degradation depends on the oxygen-dependent hydroxylation of Vpx at proline residue 41 (Pro41), a modification catalyzed by prolyl hydroxylase domain-containing protein 3 (PHD3). Using an integrated approach combining crosslinking mass spectrometry and molecular modeling analyses, we elucidate the structural architecture of the PHD3-Vpx complex, revealing the spatial orientation of the catalytic domain of PHD3 required for Pro41 hydroxylation. Furthermore, we establish the physiological significance of this pathway in human macrophages, where pharmacological inhibition or genetic ablation of VHL or PHD3 enhances HIV-2 infection by facilitating Vpx-mediated SAMHD1 degradation. Collectively, our findings unveil a previously unrecognized oxygen-sensitive regulatory mechanism influencing HIV-2 infection and suggest novel therapeutic strategies targeting Vpx stability through modulation of its prolyl hydroxylation status. HIV-2 viral protein X (Vpx) plays a pivotal role in antagonizing the host restriction factors, including SAMHD1 and components of the HUSH complex, to facilitate viral replication. However, the regulatory mechanisms controlling Vpx stability remain unclear. In this study, we identify the von Hippel-Lindau (VHL) tumor suppressor as a novel E3 ubiquitin ligase that specifically targets Vpx for proteasomal degradation. Mechanistically, we demonstrate that VHL-mediated degradation depends on the oxygen-dependent hydroxylation of Vpx at proline residue 41 (Pro41), a modification catalyzed by prolyl hydroxylase domain-containing protein 3 (PHD3). Using an integrated approach combining crosslinking mass spectrometry and molecular modeling analyses, we elucidate the structural architecture of the PHD3-Vpx complex, revealing the spatial orientation of the catalytic domain of PHD3 required for Pro41 hydroxylation. Furthermore, we establish the physiological significance of this pathway in human macrophages, where pharmacological inhibition or genetic ablation of VHL or PHD3 enhances HIV-2 infection by facilitating Vpx-mediated SAMHD1 degradation. Collectively, our findings unveil a previously unrecognized oxygen-sensitive regulatory mechanism influencing HIV-2 infection and suggest novel therapeutic strategies targeting Vpx stability through modulation of its prolyl hydroxylation status.HIV-2 viral protein X (Vpx) plays a pivotal role in antagonizing the host restriction factors, including SAMHD1 and components of the HUSH complex, to facilitate viral replication. However, the regulatory mechanisms controlling Vpx stability remain unclear. In this study, we identify the von Hippel-Lindau (VHL) tumor suppressor as a novel E3 ubiquitin ligase that specifically targets Vpx for proteasomal degradation. Mechanistically, we demonstrate that VHL-mediated degradation depends on the oxygen-dependent hydroxylation of Vpx at proline residue 41 (Pro41), a modification catalyzed by prolyl hydroxylase domain-containing protein 3 (PHD3). Using an integrated approach combining crosslinking mass spectrometry and molecular modeling analyses, we elucidate the structural architecture of the PHD3-Vpx complex, revealing the spatial orientation of the catalytic domain of PHD3 required for Pro41 hydroxylation. Furthermore, we establish the physiological significance of this pathway in human macrophages, where pharmacological inhibition or genetic ablation of VHL or PHD3 enhances HIV-2 infection by facilitating Vpx-mediated SAMHD1 degradation. Collectively, our findings unveil a previously unrecognized oxygen-sensitive regulatory mechanism influencing HIV-2 infection and suggest novel therapeutic strategies targeting Vpx stability through modulation of its prolyl hydroxylation status. HIV-2 viral protein X (Vpx) plays a pivotal role in antagonizing the host restriction factors, including SAMHD1 and components of the HUSH complex, to facilitate viral replication. However, the regulatory mechanisms controlling Vpx stability remain unclear. In this study, we identify the von Hippel–Lindau (VHL) tumor suppressor as a novel E3 ubiquitin ligase that specifically targets Vpx for proteasomal degradation. Mechanistically, we demonstrate that VHL-mediated degradation depends on the oxygen-dependent hydroxylation of Vpx at proline residue 41 (Pro41), a modification catalyzed by prolyl hydroxylase domain-containing protein 3 (PHD3). Using an integrated approach combining crosslinking mass spectrometry and molecular modeling analyses, we elucidate the structural architecture of the PHD3-Vpx complex, revealing the spatial orientation of the catalytic domain of PHD3 required for Pro41 hydroxylation. Furthermore, we establish the physiological significance of this pathway in human macrophages, where pharmacological inhibition or genetic ablation of VHL or PHD3 enhances HIV-2 infection by facilitating Vpx-mediated SAMHD1 degradation. Collectively, our findings unveil a previously unrecognized oxygen-sensitive regulatory mechanism influencing HIV-2 infection and suggest novel therapeutic strategies targeting Vpx stability through modulation of its prolyl hydroxylation status. Our study reveals a previously unknown mechanism for how human cells control HIV-2 infection. We discovered that a cellular protein called VHL, known for its role in preventing cancer, also helps protect cells against HIV-2 by controlling the levels of a viral protein called Vpx. HIV-2 uses Vpx to overcome our body’s natural antiviral defenses, but we found that cells can fight back by marking Vpx for destruction through a process that requires oxygen. This process involves two key players: an enzyme called PHD3 that attaches oxygen-dependent modifications to Vpx, and VHL that recognizes these modifications and targets Vpx for disposal. This is particularly interesting because it shows how cells can use oxygen-sensing machinery, typically involved in helping cells adapt to low oxygen conditions, as a defense mechanism against viruses. By understanding how cells naturally combat HIV-2, we may be able to develop new therapeutic strategies that enhance these defenses.
Audience	Academic
Author	Ryo, Akihide Ino, Yoko Miura, Tomoyuki Minamishima, Yoji Andrew Tanaka, Kiho Mizukoshi, Fuminori Sato, Hironori Kimura, Hirokazu Kameya, Taichi Miyakawa, Kei Yokoyama, Masaru Matano, Tetsuro Akari, Hirofumi Takaoka, Akinori Nakabayashi, Jun Nishi, Mayuko Hasegawa, Hideki Kimura, Yayoi Nomaguchi, Masako
AuthorAffiliation	14 Institute of Medical Science, University of Tokyo, Tokyo, Japan 15 Department of Biochemistry, Gunma University Graduate School of Medicine, Maebashi, Japan 11 Institute for Life and Medical Sciences, Kyoto University, Kyoto, Japan 8 Department of Microbiology, Tokushima University Graduate School of Biomedical Sciences, Tokushima, Japan 3 Department of Microbiology, Yokohama City University School of Medicine, Yokohama, Japan 12 Division of Signaling in Cancer and Immunology, Institute for Genetic Medicine, Hokkaido University, Sapporo, Japan Institut Cochin, INSERM U1016, FRANCE 4 Advanced Medical Research Center, Yokohama City University, Yokohama, Japan 6 Life Science Laboratory, Technology and Development Division, Kanto Chemical Co., Inc., Isehara, Japan 9 Department of Health Science, Graduate School of Health Sciences, Gunma Paz University, Takasaki, Japan 10 Center for the Evolutionary Origins of Human Behavior, Kyoto University, Inuyama, Japan 1 AIDS Research Center, National Institu
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Notes	new_version ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 Present address: Department of Infectious Diseases, The University of Melbourne at The Peter Doherty Institute for Infection and Immunity, Melbourne, VIC, Australia The authors have declared that no competing interests exist.
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SubjectTerms	Analysis Biology and Life Sciences Crosslinked polymers Health aspects HEK293 Cells HIV Infections - metabolism HIV Infections - virology HIV-2 - metabolism Humans Hydroxylation Hypoxia-Inducible Factor-Proline Dioxygenases - genetics Hypoxia-Inducible Factor-Proline Dioxygenases - metabolism Infection control Macrophages - metabolism Macrophages - virology Medicine and Health Sciences Methods Oxygen - metabolism Proteolysis Research and Analysis Methods Ubiquitin-proteasome system Viral proteins Viral Regulatory and Accessory Proteins - genetics Viral Regulatory and Accessory Proteins - metabolism Von Hippel-Lindau Tumor Suppressor Protein - genetics Von Hippel-Lindau Tumor Suppressor Protein - metabolism
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Title	PHD3-VHL axis controls HIV-2 infection through oxygen-dependent hydroxylation and degradation of Vpx
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