Crimean–Congo haemorrhagic fever virus uses LDLR to bind and enter host cells

Vanessa Monteil; Shane C. Wright; Matheus Dyczynski; Max J. Kellner; Sofia Appelberg; Sebastian Platzer; Ahmed Ibrahim; Hyesoo Kwon; Ioannis Pittarokoilis; Mattia Mirandola; Georg Michlits; Stéphanie Devignot; Elizabeth Elder; Samir Abdurahman; Sándor Bereczky; Binnur Bağcı; Sonia Youhanna; Teodor Aastrup; Volker M. Lauschke; Cristiano Salata; Nazif Elaldı; Friedemann Weber; Nuria Monserrat; David W. Hawman; Heinz Feldmann; Moritz Horn; Josef Penninger; Alì Mirazimi

doi:10.1038/s41564-024-01672-3

Crimean–Congo haemorrhagic fever virus uses LDLR to bind and enter host cells

Vanessa Monteil(Public Health Agency of Sweden), Shane C. Wright(Karolinska Institutet), Matheus Dyczynski, Max J. Kellner(Institute of Molecular Biotechnology), Sofia Appelberg(Public Health Agency of Sweden), Sebastian Platzer(Institute of Molecular Biotechnology), Ahmed Ibrahim(Attana (Sweden)), Hyesoo Kwon(Swedish Veterinary Agency), Ioannis Pittarokoilis(Karolinska Institutet), Mattia Mirandola(University of Padua), Georg Michlits, Stéphanie Devignot(Public Health Agency of Sweden), Elizabeth Elder(Swedish Veterinary Agency), Samir Abdurahman(Public Health Agency of Sweden), Sándor Bereczky(Public Health Agency of Sweden), Binnur Bağcı(Sivas Cumhuriyet Üniversitesi), Sonia Youhanna(Karolinska Institutet), Teodor Aastrup(Attana (Sweden)), Volker M. Lauschke(Karolinska Institutet), Cristiano Salata(University of Padua), Nazif Elaldı(Sivas Cumhuriyet Üniversitesi), Friedemann Weber(Justus-Liebig-Universität Gießen), Nuria Monserrat(Institució Catalana de Recerca i Estudis Avançats), David W. Hawman, Heinz Feldmann, Moritz Horn, Josef Penninger(Institute of Molecular Biotechnology), Alì Mirazimi(Public Health Agency of Sweden)

Nature Microbiology

March 28, 2024

10.1038/s41564-024-01672-3

Cited by 46Open Access

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Abstract

Climate change and population densities accelerated transmission of highly pathogenic viruses to humans, including the Crimean-Congo haemorrhagic fever virus (CCHFV). Here we report that the Low Density Lipoprotein Receptor (LDLR) is a critical receptor for CCHFV cell entry, playing a vital role in CCHFV infection in cell culture and blood vessel organoids. The interaction between CCHFV and LDLR is highly specific, with other members of the LDLR protein family failing to bind to or neutralize the virus. Biosensor experiments demonstrate that LDLR specifically binds the surface glycoproteins of CCHFV. Importantly, mice lacking LDLR exhibit a delay in CCHFV-induced disease. Furthermore, we identified the presence of Apolipoprotein E (ApoE) on CCHFV particles. Our findings highlight the essential role of LDLR in CCHFV infection, irrespective of ApoE presence, when the virus is produced in tick cells. This discovery holds profound implications for the development of future therapies against CCHFV.

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