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Comparative analysis of retroviral Gag-host cell interactions: focus on the nuclear interactome.
Lambert, Gregory S; Rice, Breanna L; Maldonado, Rebecca J Kaddis; Chang, Jordan; Parent, Leslie J.
Afiliação
  • Lambert GS; Department of Medicine, Penn State College of Medicine, 500 University Drive, Hershey, PA, 17033, USA.
  • Rice BL; Department of Medicine, Penn State College of Medicine, 500 University Drive, Hershey, PA, 17033, USA.
  • Maldonado RJK; Department of Medicine, Penn State College of Medicine, 500 University Drive, Hershey, PA, 17033, USA.
  • Chang J; Department of Microbiology and Immunology, Penn State College of Medicine, 500 University Drive, Hershey, PA, 17033, USA.
  • Parent LJ; Department of Medicine, Penn State College of Medicine, 500 University Drive, Hershey, PA, 17033, USA.
Retrovirology ; 21(1): 13, 2024 Jun 19.
Article em En | MEDLINE | ID: mdl-38898526
ABSTRACT
Retroviruses exploit host proteins to assemble and release virions from infected cells. Previously, most studies focused on interacting partners of retroviral Gag proteins that localize to the cytoplasm or plasma membrane. Given that several full-length Gag proteins have been found in the nucleus, identifying the Gag-nuclear interactome has high potential for novel findings involving previously unknown host processes. Here we systematically compared nuclear factors identified in published HIV-1 proteomic studies and performed our own mass spectrometry analysis using affinity-tagged HIV-1 and RSV Gag proteins mixed with nuclear extracts. We identified 57 nuclear proteins in common between HIV-1 and RSV Gag, and a set of nuclear proteins present in our analysis and ≥ 1 of the published HIV-1 datasets. Many proteins were associated with nuclear processes which could have functional consequences for viral replication, including transcription initiation/elongation/termination, RNA processing, splicing, and chromatin remodeling. Examples include facilitating chromatin remodeling to expose the integrated provirus, promoting expression of viral genes, repressing the transcription of antagonistic cellular genes, preventing splicing of viral RNA, altering splicing of cellular RNAs, or influencing viral or host RNA folding or RNA nuclear export. Many proteins in our pulldowns common to RSV and HIV-1 Gag are critical for transcription, including PolR2B, the second largest subunit of RNA polymerase II (RNAPII), and LEO1, a PAF1C complex member that regulates transcriptional elongation, supporting the possibility that Gag influences the host transcription profile to aid the virus. Through the interaction of RSV and HIV-1 Gag with splicing-related proteins CBLL1, HNRNPH3, TRA2B, PTBP1 and U2AF1, we speculate that Gag could enhance unspliced viral RNA production for translation and packaging. To validate one putative hit, we demonstrated an interaction of RSV Gag with Mediator complex member Med26, required for RNA polymerase II-mediated transcription. Although 57 host proteins interacted with both Gag proteins, unique host proteins belonging to each interactome dataset were identified. These results provide a strong premise for future functional studies to investigate roles for these nuclear host factors that may have shared functions in the biology of both retroviruses, as well as functions specific to RSV and HIV-1, given their distinctive hosts and molecular pathology.
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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Assunto principal: Produtos do Gene gag / HIV-1 Limite: Humans Idioma: En Ano de publicação: 2024 Tipo de documento: Article

Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Assunto principal: Produtos do Gene gag / HIV-1 Limite: Humans Idioma: En Ano de publicação: 2024 Tipo de documento: Article