Structural insights into the interaction between adenovirus C5 hexon and human lactoferrin.

A. Dhillon; B.D. Persson; A.N. Volkov; Hagen Sülzen; A. Kádek; P. Pompach; S. Kereïche; M. Lepšik; K. Danskog; C. Uetrecht; N. Arnberg; Sebastian Zoll

doi:10.1128/jvi.01576-23

Structural insights into the interaction between adenovirus C5 hexon and human lactoferrin.

A. Dhillon, B.D. Persson, A.N. Volkov, Hagen Sülzen, A. Kádek, P. Pompach, S. Kereïche, M. Lepšik, K. Danskog, C. Uetrecht, N. Arnberg, Sebastian Zoll

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Abstract

Adenovirus (AdV) infection of the respiratory epithelium is common but poorly understood. Human AdV species C types, such as HAdV-C5, utilize the Coxsackie-adenovirus receptor (CAR) for attachment and subsequently integrins for entry. CAR and integrins are however located deep within the tight junctions in the mucosa where they would not be easily accessible. Recently, a model for CAR-independent AdV entry was proposed. In this model, human lactoferrin (hLF), an innate immune protein, aids the viral uptake into epithelial cells by mediating interactions between the major capsid protein, hexon, and yet unknown host cellular receptor(s). However, a detailed understanding of the molecular interactions driving this mechanism is lacking. Here, we present a new cryo-EM structure of HAdV-5C hexon at high resolution alongside a hybrid structure of HAdV-5C hexon complexed with human lactoferrin (hLF). These structures reveal the molecular determinants of the interaction between hLF and HAdV-C5 hexon. hLF engages hexon primarily via its N-terminal lactoferricin (Lfcin) region, interacting with hexon’s hypervariable region 1 (HVR-1). Mutational analyses pinpoint critical Lfcin contacts and also identify additional regions within hLF that critically contribute to hexon binding. Our study sheds more light on the intricate mechanism by which HAdV-C5 utilizes soluble hLF/Lfcin for cellular entry. These findings hold promise for advancing gene therapy applications and inform vaccine development.

Original language	English
Article number	e01576-23
Number of pages	19
Journal	Journal of Virology
Volume	98
DOIs	https://doi.org/10.1128/jvi.01576-23
Publication status	Published - Feb 2024

Bibliographical note

Funding Information:
H.S. was supported by the Grant Agency of Charles University (project no. 383821/2600). A.D. was supported by the IOCB Postdoctoral Fellowship. C.U. acknowledges support through EU Horizon 2020 ERC StG-2017 759661. N.A. and S.Z. conceptualized the study. A.D. carried out protein and biophysical analyses. Cryo-EM data processing, subsequent model building, and molecular modelling were done by A.D. with input from H.S. and S.K. O.V. performed the XPLOR-NIH analysis. A.K. carried out native MS measurements with input from C.U. P.P. carried out XL-MS measurements. H.S. and A.D. prepared S.K. prepared cryo-EM grids. M.L. performed MD simulations. K.D. supplied hexon and provided the protocol. S.Z. and B.D.P. wrote the manuscript with input from all authors.

Funding Information:
We acknowledge Cryo-electron microscopy and tomography core facility CEITEC MU of CIISB, Instruct-CZ Centre, supported by MEYS CR (LM2023042) and European Regional Development Fund-Project „UP CIISB“(No. CZ.02.1.01/0.0/0.0/18_046/0015974) and iNEXT-Discovery, project number 871037, funded by the Horizon 2020 program of the European Commission. We acknowledge Structural Mass Spectrometry core facility of CIISB, Instruct-CZ Centre, supported by MEYS CR (LM2023042) and European Regional Development Fund-Project „UP CIISB“ (No. CZ.02.1.01/0.0/0.0/18_046/0015974).

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© 2024 Dhillon et al.

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title = "Structural insights into the interaction between adenovirus C5 hexon and human lactoferrin.",

abstract = "Adenovirus (AdV) infection of the respiratory epithelium is common but poorly understood. Human AdV species C types, such as HAdV-C5, utilize the Coxsackie-adenovirus receptor (CAR) for attachment and subsequently integrins for entry. CAR and integrins are however located deep within the tight junctions in the mucosa where they would not be easily accessible. Recently, a model for CAR-independent AdV entry was proposed. In this model, human lactoferrin (hLF), an innate immune protein, aids the viral uptake into epithelial cells by mediating interactions between the major capsid protein, hexon, and yet unknown host cellular receptor(s). However, a detailed understanding of the molecular interactions driving this mechanism is lacking. Here, we present a new cryo-EM structure of HAdV-5C hexon at high resolution alongside a hybrid structure of HAdV-5C hexon complexed with human lactoferrin (hLF). These structures reveal the molecular determinants of the interaction between hLF and HAdV-C5 hexon. hLF engages hexon primarily via its N-terminal lactoferricin (Lfcin) region, interacting with hexon{\textquoteright}s hypervariable region 1 (HVR-1). Mutational analyses pinpoint critical Lfcin contacts and also identify additional regions within hLF that critically contribute to hexon binding. Our study sheds more light on the intricate mechanism by which HAdV-C5 utilizes soluble hLF/Lfcin for cellular entry. These findings hold promise for advancing gene therapy applications and inform vaccine development.",

author = "A. Dhillon and B.D. Persson and A.N. Volkov and Hagen S{\"u}lzen and A. K{\'a}dek and P. Pompach and S. Kere{\"i}che and M. Lep{\v s}ik and K. Danskog and C. Uetrecht and N. Arnberg and Sebastian Zoll",

note = "Funding Information: H.S. was supported by the Grant Agency of Charles University (project no. 383821/2600). A.D. was supported by the IOCB Postdoctoral Fellowship. C.U. acknowledges support through EU Horizon 2020 ERC StG-2017 759661. N.A. and S.Z. conceptualized the study. A.D. carried out protein and biophysical analyses. Cryo-EM data processing, subsequent model building, and molecular modelling were done by A.D. with input from H.S. and S.K. O.V. performed the XPLOR-NIH analysis. A.K. carried out native MS measurements with input from C.U. P.P. carried out XL-MS measurements. H.S. and A.D. prepared S.K. prepared cryo-EM grids. M.L. performed MD simulations. K.D. supplied hexon and provided the protocol. S.Z. and B.D.P. wrote the manuscript with input from all authors. Funding Information: We acknowledge Cryo-electron microscopy and tomography core facility CEITEC MU of CIISB, Instruct-CZ Centre, supported by MEYS CR (LM2023042) and European Regional Development Fund-Project „UP CIISB“(No. CZ.02.1.01/0.0/0.0/18_046/0015974) and iNEXT-Discovery, project number 871037, funded by the Horizon 2020 program of the European Commission. We acknowledge Structural Mass Spectrometry core facility of CIISB, Instruct-CZ Centre, supported by MEYS CR (LM2023042) and European Regional Development Fund-Project „UP CIISB“ (No. CZ.02.1.01/0.0/0.0/18_046/0015974). Publisher Copyright: {\textcopyright} 2024 Dhillon et al.",

year = "2024",

month = feb,

doi = "10.1128/jvi.01576-23",

language = "English",

volume = "98",

journal = "Journal of Virology",

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publisher = "American Society for Microbiology",

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TY - JOUR

T1 - Structural insights into the interaction between adenovirus C5 hexon and human lactoferrin.

AU - Dhillon, A.

AU - Persson, B.D.

AU - Volkov, A.N.

AU - Sülzen, Hagen

AU - Kádek, A.

AU - Pompach, P.

AU - Kereïche, S.

AU - Lepšik, M.

AU - Danskog, K.

AU - Uetrecht, C.

AU - Arnberg, N.

AU - Zoll, Sebastian

N1 - Funding Information: H.S. was supported by the Grant Agency of Charles University (project no. 383821/2600). A.D. was supported by the IOCB Postdoctoral Fellowship. C.U. acknowledges support through EU Horizon 2020 ERC StG-2017 759661. N.A. and S.Z. conceptualized the study. A.D. carried out protein and biophysical analyses. Cryo-EM data processing, subsequent model building, and molecular modelling were done by A.D. with input from H.S. and S.K. O.V. performed the XPLOR-NIH analysis. A.K. carried out native MS measurements with input from C.U. P.P. carried out XL-MS measurements. H.S. and A.D. prepared S.K. prepared cryo-EM grids. M.L. performed MD simulations. K.D. supplied hexon and provided the protocol. S.Z. and B.D.P. wrote the manuscript with input from all authors. Funding Information: We acknowledge Cryo-electron microscopy and tomography core facility CEITEC MU of CIISB, Instruct-CZ Centre, supported by MEYS CR (LM2023042) and European Regional Development Fund-Project „UP CIISB“(No. CZ.02.1.01/0.0/0.0/18_046/0015974) and iNEXT-Discovery, project number 871037, funded by the Horizon 2020 program of the European Commission. We acknowledge Structural Mass Spectrometry core facility of CIISB, Instruct-CZ Centre, supported by MEYS CR (LM2023042) and European Regional Development Fund-Project „UP CIISB“ (No. CZ.02.1.01/0.0/0.0/18_046/0015974). Publisher Copyright: © 2024 Dhillon et al.

PY - 2024/2

Y1 - 2024/2

N2 - Adenovirus (AdV) infection of the respiratory epithelium is common but poorly understood. Human AdV species C types, such as HAdV-C5, utilize the Coxsackie-adenovirus receptor (CAR) for attachment and subsequently integrins for entry. CAR and integrins are however located deep within the tight junctions in the mucosa where they would not be easily accessible. Recently, a model for CAR-independent AdV entry was proposed. In this model, human lactoferrin (hLF), an innate immune protein, aids the viral uptake into epithelial cells by mediating interactions between the major capsid protein, hexon, and yet unknown host cellular receptor(s). However, a detailed understanding of the molecular interactions driving this mechanism is lacking. Here, we present a new cryo-EM structure of HAdV-5C hexon at high resolution alongside a hybrid structure of HAdV-5C hexon complexed with human lactoferrin (hLF). These structures reveal the molecular determinants of the interaction between hLF and HAdV-C5 hexon. hLF engages hexon primarily via its N-terminal lactoferricin (Lfcin) region, interacting with hexon’s hypervariable region 1 (HVR-1). Mutational analyses pinpoint critical Lfcin contacts and also identify additional regions within hLF that critically contribute to hexon binding. Our study sheds more light on the intricate mechanism by which HAdV-C5 utilizes soluble hLF/Lfcin for cellular entry. These findings hold promise for advancing gene therapy applications and inform vaccine development.

AB - Adenovirus (AdV) infection of the respiratory epithelium is common but poorly understood. Human AdV species C types, such as HAdV-C5, utilize the Coxsackie-adenovirus receptor (CAR) for attachment and subsequently integrins for entry. CAR and integrins are however located deep within the tight junctions in the mucosa where they would not be easily accessible. Recently, a model for CAR-independent AdV entry was proposed. In this model, human lactoferrin (hLF), an innate immune protein, aids the viral uptake into epithelial cells by mediating interactions between the major capsid protein, hexon, and yet unknown host cellular receptor(s). However, a detailed understanding of the molecular interactions driving this mechanism is lacking. Here, we present a new cryo-EM structure of HAdV-5C hexon at high resolution alongside a hybrid structure of HAdV-5C hexon complexed with human lactoferrin (hLF). These structures reveal the molecular determinants of the interaction between hLF and HAdV-C5 hexon. hLF engages hexon primarily via its N-terminal lactoferricin (Lfcin) region, interacting with hexon’s hypervariable region 1 (HVR-1). Mutational analyses pinpoint critical Lfcin contacts and also identify additional regions within hLF that critically contribute to hexon binding. Our study sheds more light on the intricate mechanism by which HAdV-C5 utilizes soluble hLF/Lfcin for cellular entry. These findings hold promise for advancing gene therapy applications and inform vaccine development.

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U2 - 10.1128/jvi.01576-23

DO - 10.1128/jvi.01576-23

M3 - Article

SN - 0022-538X

VL - 98

JO - Journal of Virology

JF - Journal of Virology

M1 - e01576-23

ER -

Structural insights into the interaction between adenovirus C5 hexon and human lactoferrin.

Abstract

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