The design of highly defective herpes simplex virus (HSV) vectors for transgene expression in nonneuronal cells in the absence of toxic viral-gene activity has been elusive. Here, we report that elements of the latency locus protect a nonviral promoter against silencing in primary human cells in the absence of any viral-gene expression. We identified a CTCF motif cluster 5′ to the latency promoter and a known long-term regulatory region as important elements for vigorous transgene expression from a vector that is functionally deleted for all five immediate-early genes and the 15-kb internal repeat region. We inserted a 16.5-kb expression cassette for full-length mouse dystrophin and report robust and durable expression in dystrophin-deficient muscle cells in vitro. Given the broad cell tropism of HSV, our design provides a nontoxic vector that can accommodate large transgene constructs for transduction of a wide variety of cells without vector integration, thereby filling an important void in the current arsenal of gene-therapy vectors.
These findings suggest that graft-infiltrating PD-L1 CD-DCs may play a key role in the regulation of alloimmunity and in the induction of liver transplant tolerance. (Hepatology 2018;67:1499-1515).
Bacteria in the gut microbiome shed microbial-associated molecule patterns (MAMPs) into the portal venous circulation, where they augment various aspects of systemic immunity via low-level stimulation. Because the liver is immediately downstream of the intestines, we proposed that gut-derived MAMPs shape liver immunity and affect Kupffer cell (KC) phenotype. Germ-free (GF), antibiotic-treated (AVMN), and conventional (CL) mice were used to study KC development, function, and response to the significant stress of cold storage, reperfusion, and orthotopic transplantation. We found that a cocktail of physiologically active MAMPs translocate into the portal circulation, with flagellin (Toll-like receptor 5 ligand) being the most plentiful and capable of promoting hepatic monocyte influx in GF mice. In MAMP-deficient GF or AVMN livers, KCs are lower in numbers, have higher phagocytic activity, and have lower major histocompatibility complex II expression. MAMP-containing CL livers harbor significantly increased KC numbers via induction of intercellular adhesion molecule 1 on liver sinusoidal endothelium. These CL KCs have a primed yet expected phenotype, with increased major histocompatibility complex class II and lower phagocytic activity that increases susceptibility to liver preservation/reperfusion injury after orthotopic transplantation. The KC number, functional activity, and maturational status are directly related to the concentration of gut-derived MAMPs and can be significantly reduced by broad-spectrum antibiotics, thereby affecting susceptibility to injury.
Plasmacytoid dendritic cells (pDC) constitute the body’s principal source of type I interferon (IFN) and are comparatively abundant in the liver. Among various cytokines implicated in liver ischemia and reperfusion (I/R) injury, type I IFNs have been described recently as playing an essential role in its pathogenesis. Moreover, type I IFNs have been shown to up-regulate hepatocyte expression of IFN regulatory factor 1 (IRF-1), a key transcription factor that regulates apoptosis and induces liver damage after I/R. Our aim was to ascertain the capacity of IFN-α released by liver pDC to induce liver damage through hepatic IRF-1 up-regulation after I/R injury. Our findings show that liver pDC mature and produce IFN-α in response to liver I/R. Liver pDC isolated after I/R induced elevated levels of IRF-1 production by hepatocytes compared with liver pDC isolated from sham-operated mice. Notably, hepatic IRF-1 expression was reduced significantly by neutralizing IFN-α. In vivo, IFN-α neutralization protected the liver from I/R injury by reducing hepatocyte apoptosis. This was associated with impaired expression of IRF-1 and pro-apoptotic molecules such as Fas ligand, its receptor (Fas) and death receptor 5 which are regulated by IRF-1. Furthermore, pDC-depleted mice failed to up-regulate hepatic IFN-α and displayed less liver injury associated with reduced levels of hepatic IL-6, tumor necrosis factor-α and hepatocyte apoptosis after I/R compared with controls. Conclusion: these data support the hypothesis that IFN-α derived from liver pDC plays a key role in the pathogenesis of liver I/R injury by enhancing apoptosis as a consequence of induction of hepatocyte IRF-1 expression.
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