Structural basis for hepatitis B virus restriction by a viral receptor homologue

Kaho Shionoya; Jae Hyun Park; Toru Ekimoto; Junko S. Takeuchi; Junki Mifune; Takeshi Morita; Naito Ishimoto; Haruka Umezawa; Kenichiro Yamamoto; Chisa Kobayashi; Atsuto Kusunoki; Norimichi Nomura; So Iwata; Masamichi Muramatsu; Jeremy R.H. Tame; Mitsunori Ikeguchi; Sam Yong Park; Koichi Watashi

doi:10.1038/s41467-024-53533-6

Structural basis for hepatitis B virus restriction by a viral receptor homologue

Kaho Shionoya, Jae Hyun Park, Toru Ekimoto, Junko S. Takeuchi, Junki Mifune, Takeshi Morita, Naito Ishimoto, Haruka Umezawa, Kenichiro Yamamoto, Chisa Kobayashi, Atsuto Kusunoki, Norimichi Nomura, So Iwata, Masamichi Muramatsu, Jeremy R.H. Tame, Mitsunori Ikeguchi, Sam Yong Park, Koichi Watashi

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

5 Scopus citations

Abstract

Macaque restricts hepatitis B virus (HBV) infection because its receptor homologue, NTCP (mNTCP), cannot bind preS1 on viral surface. To reveal how mNTCP loses the viral receptor function, we here solve the cryo-electron microscopy structure of mNTCP. Superposing on the human NTCP (hNTCP)-preS1 complex structure shows that Arg158 of mNTCP causes steric clash to prevent preS1 from embedding onto the bile acid tunnel of NTCP. Cell-based mutation analysis confirms that only Gly158 permitted preS1 binding, in contrast to robust bile acid transport among mutations. As the second determinant, Asn86 on the extracellular surface of mNTCP shows less capacity to restrain preS1 from dynamic fluctuation than Lys86 of hNTCP, resulting in unstable preS1 binding. Additionally, presence of long-chain conjugated-bile acids in the tunnel induces steric hindrance with preS1 through their tailed-chain. This study presents structural basis in which multiple sites in mNTCP constitute a molecular barrier to strictly restrict HBV.

Original language	English
Article number	9241
Journal	Nature Communications
Volume	15
Issue number	1
DOIs	https://doi.org/10.1038/s41467-024-53533-6
State	Published - Dec 2024
Externally published	Yes

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Shionoya, K., Park, J. H., Ekimoto, T., Takeuchi, J. S., Mifune, J., Morita, T., Ishimoto, N., Umezawa, H., Yamamoto, K., Kobayashi, C., Kusunoki, A., Nomura, N., Iwata, S., Muramatsu, M., Tame, J. R. H., Ikeguchi, M., Park, S. Y., & Watashi, K. (2024). Structural basis for hepatitis B virus restriction by a viral receptor homologue. Nature Communications, 15(1), Article 9241. https://doi.org/10.1038/s41467-024-53533-6

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title = "Structural basis for hepatitis B virus restriction by a viral receptor homologue",

abstract = "Macaque restricts hepatitis B virus (HBV) infection because its receptor homologue, NTCP (mNTCP), cannot bind preS1 on viral surface. To reveal how mNTCP loses the viral receptor function, we here solve the cryo-electron microscopy structure of mNTCP. Superposing on the human NTCP (hNTCP)-preS1 complex structure shows that Arg158 of mNTCP causes steric clash to prevent preS1 from embedding onto the bile acid tunnel of NTCP. Cell-based mutation analysis confirms that only Gly158 permitted preS1 binding, in contrast to robust bile acid transport among mutations. As the second determinant, Asn86 on the extracellular surface of mNTCP shows less capacity to restrain preS1 from dynamic fluctuation than Lys86 of hNTCP, resulting in unstable preS1 binding. Additionally, presence of long-chain conjugated-bile acids in the tunnel induces steric hindrance with preS1 through their tailed-chain. This study presents structural basis in which multiple sites in mNTCP constitute a molecular barrier to strictly restrict HBV.",

author = "Kaho Shionoya and Park, \{Jae Hyun\} and Toru Ekimoto and Takeuchi, \{Junko S.\} and Junki Mifune and Takeshi Morita and Naito Ishimoto and Haruka Umezawa and Kenichiro Yamamoto and Chisa Kobayashi and Atsuto Kusunoki and Norimichi Nomura and So Iwata and Masamichi Muramatsu and Tame, \{Jeremy R.H.\} and Mitsunori Ikeguchi and Park, \{Sam Yong\} and Koichi Watashi",

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year = "2024",

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doi = "10.1038/s41467-024-53533-6",

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Shionoya, K, Park, JH, Ekimoto, T, Takeuchi, JS, Mifune, J, Morita, T, Ishimoto, N, Umezawa, H, Yamamoto, K, Kobayashi, C, Kusunoki, A, Nomura, N, Iwata, S, Muramatsu, M, Tame, JRH, Ikeguchi, M, Park, SY & Watashi, K 2024, 'Structural basis for hepatitis B virus restriction by a viral receptor homologue', Nature Communications, vol. 15, no. 1, 9241. https://doi.org/10.1038/s41467-024-53533-6

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T1 - Structural basis for hepatitis B virus restriction by a viral receptor homologue

AU - Shionoya, Kaho

AU - Park, Jae Hyun

AU - Ekimoto, Toru

AU - Takeuchi, Junko S.

AU - Mifune, Junki

AU - Morita, Takeshi

AU - Ishimoto, Naito

AU - Umezawa, Haruka

AU - Yamamoto, Kenichiro

AU - Kobayashi, Chisa

AU - Kusunoki, Atsuto

AU - Nomura, Norimichi

AU - Iwata, So

AU - Muramatsu, Masamichi

AU - Tame, Jeremy R.H.

AU - Ikeguchi, Mitsunori

AU - Park, Sam Yong

AU - Watashi, Koichi

PY - 2024/12

Y1 - 2024/12

N2 - Macaque restricts hepatitis B virus (HBV) infection because its receptor homologue, NTCP (mNTCP), cannot bind preS1 on viral surface. To reveal how mNTCP loses the viral receptor function, we here solve the cryo-electron microscopy structure of mNTCP. Superposing on the human NTCP (hNTCP)-preS1 complex structure shows that Arg158 of mNTCP causes steric clash to prevent preS1 from embedding onto the bile acid tunnel of NTCP. Cell-based mutation analysis confirms that only Gly158 permitted preS1 binding, in contrast to robust bile acid transport among mutations. As the second determinant, Asn86 on the extracellular surface of mNTCP shows less capacity to restrain preS1 from dynamic fluctuation than Lys86 of hNTCP, resulting in unstable preS1 binding. Additionally, presence of long-chain conjugated-bile acids in the tunnel induces steric hindrance with preS1 through their tailed-chain. This study presents structural basis in which multiple sites in mNTCP constitute a molecular barrier to strictly restrict HBV.

AB - Macaque restricts hepatitis B virus (HBV) infection because its receptor homologue, NTCP (mNTCP), cannot bind preS1 on viral surface. To reveal how mNTCP loses the viral receptor function, we here solve the cryo-electron microscopy structure of mNTCP. Superposing on the human NTCP (hNTCP)-preS1 complex structure shows that Arg158 of mNTCP causes steric clash to prevent preS1 from embedding onto the bile acid tunnel of NTCP. Cell-based mutation analysis confirms that only Gly158 permitted preS1 binding, in contrast to robust bile acid transport among mutations. As the second determinant, Asn86 on the extracellular surface of mNTCP shows less capacity to restrain preS1 from dynamic fluctuation than Lys86 of hNTCP, resulting in unstable preS1 binding. Additionally, presence of long-chain conjugated-bile acids in the tunnel induces steric hindrance with preS1 through their tailed-chain. This study presents structural basis in which multiple sites in mNTCP constitute a molecular barrier to strictly restrict HBV.

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DO - 10.1038/s41467-024-53533-6

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AN - SCOPUS:85207623439

SN - 2041-1723

VL - 15

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 9241

ER -

Structural basis for hepatitis B virus restriction by a viral receptor homologue

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