Author
Listed:
- Bing Dai
(Tufts University School of Medicine, Department of Molecular Biology and Microbiology
Tufts University School of Medicine, Graduate Program in Genetics, Molecular, and Cellular Biology, Graduate School of Biomedical Sciences)
- Adrian W. Sperl
(Tufts University School of Medicine, Department of Molecular Biology and Microbiology
Tufts University School of Medicine, Graduate Program in Genetics, Molecular, and Cellular Biology, Graduate School of Biomedical Sciences)
- Lucas Polack
(Tufts University School of Medicine, Department of Molecular Biology and Microbiology
Harvard Medical School, Department of Microbiology, Blavatnik Institute)
- Isabel Mejia
(University of California, Department of Molecular Biology, School of Biological Sciences)
- Haley Dame
(Tufts University School of Medicine, Department of Molecular Biology and Microbiology
Tufts University School of Medicine, Graduate Program in Genetics, Molecular, and Cellular Biology, Graduate School of Biomedical Sciences)
- Tien Huynh
(Tufts University School of Medicine, Department of Molecular Biology and Microbiology
Tufts University School of Medicine, Graduate Program in Molecular Microbiology, Graduate School of Biomedical Sciences)
- Chloe Deveney
(Tufts University School of Medicine, Department of Molecular Biology and Microbiology)
- Nathalie Lavoie
(Tufts University School of Medicine, Department of Molecular Biology and Microbiology
Tufts University School of Medicine, Graduate Program in Molecular Microbiology, Graduate School of Biomedical Sciences)
- Chanyoung Lee
(Tufts University School of Medicine, Department of Molecular Biology and Microbiology
Tufts University School of Medicine, Graduate Program in Molecular Microbiology, Graduate School of Biomedical Sciences)
- John G. Doench
(Broad Institute, Genetic Perturbation Platform)
- Matthew D. Daugherty
(University of California, Department of Molecular Biology, School of Biological Sciences)
- Ekaterina E. Heldwein
(Tufts University School of Medicine, Department of Molecular Biology and Microbiology
Tufts University School of Medicine, Graduate Program in Genetics, Molecular, and Cellular Biology, Graduate School of Biomedical Sciences
Tufts University School of Medicine, Graduate Program in Molecular Microbiology, Graduate School of Biomedical Sciences)
Abstract
Herpesvirales are an ancient viral order that causes lifelong infections in species from mollusks to humans. They export their capsids from the nucleus to the cytoplasm by a noncanonical nuclear egress route that involves capsid budding at the inner nuclear membrane followed by fusion of this temporary envelope with the outer nuclear membrane. Here, using a whole-genome CRISPR screen, we identify ER protein CLCC1 as important for the fusion stage of nuclear egress in herpes simplex virus 1. We also find that the genomes of Herpesvirales that infect mollusks and fish encode CLCC1 genes acquired from host genomes by horizontal gene transfer. In uninfected cells, loss of CLCC1 causes a nuclear blebbing defect, suggesting a role in host nuclear export. We hypothesize that CLCC1 facilitates an ancient cellular membrane fusion mechanism that Herpesvirales have hijacked or co-opted for capsid export and propose a mechanistic model.
Suggested Citation
Bing Dai & Adrian W. Sperl & Lucas Polack & Isabel Mejia & Haley Dame & Tien Huynh & Chloe Deveney & Nathalie Lavoie & Chanyoung Lee & John G. Doench & Matthew D. Daugherty & Ekaterina E. Heldwein, 2025.
"ER protein CLCC1 promotes nuclear envelope fusion in herpesviral and host processes,"
Nature Communications, Nature, vol. 16(1), pages 1-22, December.
Handle:
RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-65115-1
DOI: 10.1038/s41467-025-65115-1
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