Vojtěch Žíla scite author profile

April 2020 Nsp3 abcam ab181620 Nucleocapsid Sino Biological 40143-MM05 Validation Commercial antibodies validated as per manufacturers website: Beta actin Sigma A5441 Immunoblot on chicken fibroblast cell extracts Spike Abcam Ab252690 Validated by ELISA on free peptide from SARS-CoV-1 Nsp3 abcam ab181620 Validated by western blot on SARS-CoV-1 infected cells Nucleocapsid Sino Biological 40143-MM05 Validated by western blot with corresponding viruses Eukaryotic cell lines Policy information about cell lines Cell line source(s) VeroE6 cells were obtained from ATCC, Calu-3 cells were obtained from Manfred Frey, originally from ATCC. Authentication Cells were not further authenticated Mycoplasma contamination Cells have been tested and are free of mycoplasma.

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Cone-shaped HIV-1 capsids are transported through intact nuclear pores

Žíla

Margiotta

Turoňová

et al. 2021

Cell

243

226

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Summary Human immunodeficiency virus (HIV-1) remains a major health threat. Viral capsid uncoating and nuclear import of the viral genome are critical for productive infection. The size of the HIV-1 capsid is generally believed to exceed the diameter of the nuclear pore complex (NPC), indicating that capsid uncoating has to occur prior to nuclear import. Here, we combined correlative light and electron microscopy with subtomogram averaging to capture the structural status of reverse transcription-competent HIV-1 complexes in infected T cells. We demonstrated that the diameter of the NPC in cellulo is sufficient for the import of apparently intact, cone-shaped capsids. Subsequent to nuclear import, we detected disrupted and empty capsid fragments, indicating that uncoating of the replication complex occurs by breaking the capsid open, and not by disassembly into individual subunits. Our data directly visualize a key step in HIV-1 replication and enhance our mechanistic understanding of the viral life cycle.

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HIV-1 uncoating by release of viral cDNA from capsid-like structures in the nucleus of infected cells

Müller

Žíla

Peters

et al. 2021

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HIV-1 replication commences inside the cone-shaped viral capsid, but timing, localization, and mechanism of uncoating are under debate. We adapted a strategy to visualize individual reverse-transcribed HIV-1 cDNA molecules and their association with viral and cellular proteins using fluorescence and correlative-light-and-electron-microscopy (CLEM). We specifically detected HIV-1 cDNA inside nuclei, but not in the cytoplasm. Nuclear cDNA initially co-localized with a fluorescent integrase fusion (IN-FP) and the viral CA (capsid) protein, but cDNA-punctae separated from IN-FP/CA over time. This phenotype was conserved in primary HIV-1 target cells, with nuclear HIV-1 complexes exhibiting strong CA-signals in all cell types. CLEM revealed cone-shaped HIV-1 capsid-like structures and apparently broken capsid-remnants at the position of IN-FP signals and elongated chromatin-like structures in the position of viral cDNA punctae lacking IN-FP. Our data argue for nuclear uncoating by physical disruption rather than cooperative disassembly of the CA-lattice, followed by physical separation from the pre-integration complex.

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Analysis of CA Content and CPSF6 Dependence of Early HIV-1 Replication Complexes in SupT1-R5 Cells

Žíla

Müller

Laketa

et al. 2019

mBio

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The HIV-1 capsid performs essential functions during early viral replication and is an interesting target for novel antivirals. Thus, understanding molecular and structural details of capsid function will be important for elucidating early HIV-1 (and retroviral in general) replication in relevant target cells and may also aid antiviral development. Here, we show that HIV-1 capsids stay largely intact during transport to the nucleus of infected T cells but appear to uncoat upon entry into the nucleoplasm. These results support the hypothesis that capsids protect the HIV-1 genome from cytoplasmic defense mechanisms and target the genome toward the nucleus. A protective role of the capsid could be a paradigm that also applies to other viruses. Our findings raise the question of how reverse transcription of the HIV-1 genome is accomplished in the context of the capsid structure and whether the process is completed before the capsid is uncoated at the nuclear pore.

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Vojtěch Žíla

Structures and distributions of SARS-CoV-2 spike proteins on intact virions

Cone-shaped HIV-1 capsids are transported through intact nuclear pores

HIV-1 uncoating by release of viral cDNA from capsid-like structures in the nucleus of infected cells

Analysis of CA Content and CPSF6 Dependence of Early HIV-1 Replication Complexes in SupT1-R5 Cells

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