Hepatitis B Virus (HBV) constitutes a major threat to global public health. Current understanding of HBV-host interaction is yet limited. Here, ribosome profiling, quantitative mass spectrometry and RNA-sequencing were conducted on a recently established HBV replication system, through which we identified multiomic differentially expressed genes (DEGs) that HBV orchestrated to remodel host proteostasis networks. Our multiomics interrogation revealed that HBV induced significant changes in both transcription and translation of 35 canonical genes including PPP1R15A, PGAM5 and SIRT6, as well as the expression of at least 15 non-canonical open reading frames (ncORFs) including ncPON2 and ncGRWD1, thus revealing an extra coding potential of human genome. Overexpression of these five genes but not the enzymatically deficient SIRT6 mutants suppressed HBV replication while knockdown of SIRT6 had opposite effect. Furthermore, the expression of SIRT6 was down-regulated in patients, cells or animal models of HBV infection. Mechanistic study further indicated that SIRT6 directly binds to mini-chromosome and deacetylates histone H3 lysine 9 (H3K9ac) and histone H3 lysine 56 (H3K56ac), and chemical activation of endogenous SIRT6 with MDL800 suppressed HBV infection in vitro and in vivo. By generating the first multiomics landscape of host-HBV interaction, our work is thus opening a new avenue to facilitate therapeutic development against HBV infection.
The detrimental effect of prolonged cold ischemia time (PCI) on presensitized transplanted graft is conceivable, but the impact of presensitization status of recipient on PCI-mediated graft injury and inflammation is not well defined.Allogeneic skin grafts from BALB/c donors were transplanted into C57BL/6 recipients for presensitization. Syngeneic or allogeneic heterotopic heart transplantations with PCI were performed using C57BL/6 or BALB/c donors for these recipients through different treatments.We revealed that PCI could not affect isograft survival but significantly shortened allograft survival in the presensitized recipients. Depletion of regulatory T cells (Tregs) starting 1 day before and after heart transplantation with anti-CD25 monoclonal antibody remarkably induced intragraft Foxp3 gene expression, worsened architecture damage and subepicardial and intramuscle inflammatory cellular infiltration, and caused a dramatic fall of intragraft CD4+/CD8+ ratio, whereas adoptive transfer of exogenous wild-type Tregs or endogenous Tregs promoted by rapamycin had a beneficial effect on preventing the infiltration of T lymphocytes and Gr-1+ neutrophils and reversed intragraft CD4+/CD8+ ratio, preserving cardiac graft architecture. However, their distinct protective mechanisms showed that rapamycin treatment mainly diminished CD4+ T-cell infiltration. Nevertheless, CD4+ still outnumbered CD8+ T cells in the graft, whereas adoptive transfer of Tregs expanded both CD4+ and CD8+ T cells, particularly CD8+ T cells.Allogeneic immunoresponses synergistically enhanced PCI effect under presensitized condition. PCI could affect subsequent immunoresponses. Tregs were closely involved in this pathophysiologic process. Our data may pave the way to use Tregs as a novel therapeutic approach to prevent PCI-mediated injury in the presensitized transplant recipients.
Cushing's disease results from corticotroph adenomas of the pituitary that hypersecrete adrenocorticotropin (ACTH), leading to excess glucocorticoid and hypercortisolism. Mutations of the deubiquitinase gene USP8 occur in 35-62% of corticotroph adenomas. However, the major driver mutations in USP8 wild-type tumors remain elusive. Here, we report recurrent mutations in the deubiquitinase gene USP48 (predominantly encoding p.M415I or p.M415V; 21/91 subjects) and BRAF (encoding p.V600E; 15/91 subjects) in corticotroph adenomas with wild-type USP8. Similar to USP8 mutants, both USP48 and BRAF mutants enhance the promoter activity and transcription of the gene encoding proopiomelanocortin (POMC), which is the precursor of ACTH, providing a potential mechanism for ACTH overproduction in corticotroph adenomas. Moreover, primary corticotroph tumor cells harboring BRAF V600E are sensitive to the BRAF inhibitor vemurafenib. Our study thus contributes to the understanding of the molecular mechanism of the pathogenesis of corticotroph adenoma and informs therapeutic targets for this disease.
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