| Título: | Deleterious variants in the autophagy-related gene <i>RB1CC1</i>/FIP200 impair immunity to SARS-CoV-2 |
Autores/as: | Hu, Lili
van der Sluis, Renee M.
Castelino, Kennith Brian
Zhang, Bao-Cun
Ronit, Andreas
Zillinger, Thomas
Werner, Marvin
Jorgensen, Sofie Eg
Hansen, Anne Louise
Pedersen, Alice
Narita, Ryo
Reinert, Line S.
Bundgaard, Bettina
Abel, Laurent
Aiuti, Alessandro
Al-Muhsen, Saleh
Al-Mulla, Fahd
Anderson, Mark S.
Andreakos, Evangelos
Arias, Andres A.
Arkin, Lisa M.
Feldman, Hagit Baris
Bastard, Paul
Belot, Alexandre
Biggs, Catherine M.
Bogunovic, Dusan
Bolze, Alexandre
Bondarenko, Anastasiia
Borghesi, Alessandro
Bousfiha, Ahmed A.
Brodin, Petter
Bryceson, Yenan
Casari, Giorgio
Christodoulou, John
Cobat, Aurelie
Colobran, Roger
Condino-Neto, Antonio
Constantinescu, Stefan N.
Cooper, Megan A.
Dalgard, Clifton L.
Desai, Murkesh
Drolet, Beth A.
Dundar, Munis
Duval, Xavier
Duvlis, Sotirija
El Baghdadi, Jamila
Eloy, Philippine
Espinosa-Padilla, Sara
Fellay, Jacques
Flores, Carlos
Franco, Jose Luis
Froidure, Antoine
Gorochov, Guy
Gut, Marta
Haerynck, Filomeen
Hagin, David
Halwani, Rabih
Hammarstrom, Lennart
Heath, James R.
Hsieh, Elena W. Y.
Husebye, Eystein
Imai, Kohsuke
Itan, Yuval
Jouanguy, Emmanuelle
Kaja, Elzbieta
Karamitros, Timokratis
Kisand, Kai
Ku, Cheng-Lung
Lau, Yu-Lung
Ling, Yun
Lucas, Carrie L.
Mahevas, Matthieu
Mansouri, Davood
Marodi, Laszlo
Mentre, France
Meyts, Isabelle
Milner, Joshua D.
Mironska, Kristina
Morio, Tomohiro
Ng, Lisa F. P.
Notarangelo, Luigi D.
Novelli, Antonio
Novelli, Giuseppe
O'farrelly, Cliona
Okada, Satoshi
Okamoto, Keisuke
Ozcelik, Tayfun
Ozcelik, Firat
Pan-Hammarstrom, Qiang
De Diego, Rebeca Perez
Perez-Tur, Jordi
Perlin, David S.
Peter, Jonny
Planas, Anna M.
Prando, Carolina
Pujol, Aurora
Puel, Anne
Quintana-Murci, Lluis
Ramaswamy, Sathishkumar
Renia, Laurent
Resnick, Igor
Rodríguez Gallego, José Carlos
Sancho-Shimizu, Vanessa
Sediva, Anna
Seppanen, Mikko R. J.
Shahrooei, Mohammad
Shcherbina, Anna
Slaby, Ondrej
Snow, Andrew L.
Soler-Palacin, Pere
Soumelis, Vassili
Spaan, Andras N.
Su, Helen C.
Tancevski, Ivan
Tangye, Stuart G.
Tayoun, Ahmad Abou
Temel, Sehime Gulsun
Thorball, Christian
Tiberghien, Pierre
Trouillet-Assant, Sophie
Turvey, Stuart E.
Uddin, K. M. Furkan
Uddin, Mohammed J.
Van De Beek, Diederik
Vianna, Fernanda Sales Luiz
Vinh, Donald C.
Von Bernuth, Horst
Wauters, Joost
Zatz, Mayana
Zhang, Qian
Zhang, Shen-Ying
Bodilsen, Jacob
Hansen, Kristoffer Skaalum
Storgaard, Merete
Benfield, Thomas
Helleberg, Marie
Holm, Christian K.
Cobat, Aurelie
Casanova, Jean-Laurent
Reggiori, Fulvio
Mari, Muriel
Paludan, Soren R.
Mogensen, Trine H. |
Clasificación UNESCO: | 32 Ciencias médicas
320102 Genética clínica |
Palabras clave: | Endoplasmic-Reticulum Turnover
Independent Functions
Virus-Infection
Receptor
Proteins, et al. |
Fecha de publicación: | 2025 |
Publicación seriada: | Nature Communications |
Resumen: | The clinical outcome of SARS-CoV-2 infection spans from asymptomatic viral elimination to lethal COVID-19 pneumonia, which is due to type I interferon (IFN) deficiency in at least 15-20% of cases. We report two unrelated male patients with critical COVID-19 who are heterozygous for rare deleterious variants in RB1CC1, encoding the autophagy-related FIP200 protein. Airway epithelial cells genetically deprived of FIP200 or cell lines expressing the RB1CC1/FIP200 patient variants exhibit elevated SARS-CoV-2 replication and impaired autophagic flux. The antiviral function of FIP200 is independent of canonical autophagy and type I IFN, but involves the selective autophagy receptor NDP52. We identify a non-canonical function of FIP200 in a novel lysosomal degradation pathway, in which SARS-CoV-2 virions are targeted to single-membrane compartments for degradation of viral RNA in LC3B-positive acidified vesicles. This pathway is impaired in FIP200-deficient cells and in cells expressing FIP200 patient haplotypes. Collectively, we describe a cell-autonomous anti-SARS-CoV-2 restriction pathway, dependent on FIP200 and NDP52, and independent of canonical autophagy and type I IFN, which can underlie critical COVID-19 pneumonia. |
URI: | https://accedacris.ulpgc.es/jspui/handle/10553/153718 |
DOI: | 10.1038/s41467-025-65308-8 |
Fuente: | Nature Communications,v. 16 (1), (Noviembre 2025) |
| Colección: | Artículos
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