Immunomodulatory and anti-viral effects of statins in influenza H5N1 virus infection of human alveolar epithelial cells and peripheral blood–derived macrophages

Poster Session: Novel TherapeuticsBackground: Highly pathogenic avian influenza (HPAI) H5N1 virus panzootic in poultry continues to spread. It causes zoonotic human disease with a high (> 60%) fatality rate and continues to pose a pandemic threat. Based on clinical, animal, and in vitro cell studies, we and others have suggested that differences in viral replication competence, tissue tropism, and cytokine dysregulation between H5N1 and low pathogenic viruses may contribute to disease pathogenesis. Statins as HMG-CoA inhibitors act to reduce cholesterol and have been demonstrated to have anti-inflammatory and immune-modulatory activities. However, there is controversy about the benefits of statin use on influenza infection in mice and humans. In this study, we aimed to evaluate the effects of statin treatment in influenza infection using physiologically relevant in vitro models—human alveolar epithelial cells (AECs) and peripheral blood–derived macrophages (PBDMs). Materials and Methods: Primary human AECs and PBDMs were infected with HPAI H5N1 (A/HK/483/97) and seasonal H1N1 (A/HK/54/98) viruses in the presence or absence of statin (simvastatin and sevastatin) treatment. Virus replication was monitored by measuring infectious viral particles in cell culture supernatants using TCID50. Immuno-modulatory effects of statins were examined by measuring the mRNA and protein expression of cytokines and chemokines using qPCR and ELISA. In order to understand the intervention of statins and influenza infection, the gene expression profile of selected members of the sterol-biosynthesis pathway in influenza virus–infected AECs and PBDMs were also monitored. The responses of a variety of cytokine treatments on the genes of the sterol-biosynthesis pathway were investigated in AECs. Furthermore, the intracellular free cholesterol level was also examined by enzymatic assay in AECs infected with influenza virus. Results: We demonstrated that both simvastatin and mevastatin exhibited a dose-dependent inhibition of influenza virus replication for both HPAI H5N1 and seasonal H1N1 viruses in human AECs and PBDMs. The observed inhibitory effect of simvastatin and mevastatin occurred below the non-specific toxic effects to cells, which were measured by MTT assay. Treatment of simvastatin and mevastatin significantly suppressed H5N1 virus–induced pro-inflammatory cytokines such as TNF-α in PBDMs and chemokines, including IP-10 and MCP-1 secretion in both AECs and PBDMs at 24 hours post-infection. We further showed that human AECs and PBDMs infected with both HPAI H5N1 and seasonal H1N1 viruses had significant down-regulation of sterol pathway gene expression at 24 hours post-infection. AECs and PBDMs treated with IFN-γ or IFN-β but not IL-1β, TNF, or IL-6, showed down-regulation of sterol pathway gene expression. In addition, we found that the free cholesterol level was significantly reduced at 24 and 48 h post-H5N1 virus infection in AECs and in IFN-β–treated AECs. These results further support a specific modulation of the sterol metabolic pathway upon influenza virus infection. Conclusions: Taken together, the controversy about the beneficial effects of statin use in influenza infection and our data suggest that statins possess both the antiviral and immune-regulatory effects in H5N1-infected in vitro cell models. We also demonstrated a highly specific response of AECs and PBDMs through a coordinated negative regulation of multiple sterol pathway members upon influenza virus infection or treatment of interferon. Identification of a reduction in sterol pathway gene expression and cholesterol levels with IFN treatment in human AECs offers new insights on the host-mediated antiviral responses through the sterol metabolism pathway and opens new therapeutic options for human influenza disease.published_or_final_versio

Widened pulse pressure is a potential risk factor for significant cognitive impairment among community-dwelling Chinese younger old people

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Dynamic Transcription of Distinct Classes of Endogenous Retroviral Elements Marks Specific Populations of Early Human Embryonic Cells

SummaryAbout half of the human genome consists of highly repetitive elements, most of which are considered dispensable for human life. Here, we report that repetitive elements originating from endogenous retroviruses (ERVs) are systematically transcribed during human early embryogenesis in a stage-specific manner. Our analysis highlights that the long terminal repeats (LTRs) of ERVs provide the template for stage-specific transcription initiation, thereby generating hundreds of co-expressed, ERV-derived RNAs. Conversion of human embryonic stem cells (hESCs) to an epiblast-like state activates blastocyst-specific ERV elements, indicating that their activity dynamically reacts to changes in regulatory networks. In addition to initiating stage-specific transcription, many ERV families contain preserved splice sites that join the ERV segment with non-ERV exons in their genomic vicinity. In summary, we find that ERV expression is a hallmark of cellular identity and cell potency that characterizes the cell populations in early human embryos

LAPTM4B Targeting as Potential Therapy for Hepatocellular Carcinoma

HCC is one of the most common cancers worldwide with high prevalence, recurrence, and lethality. The curative rate is not satisfactory. LAPTM4B is a novel driver gene of HCC first indentified by our group. It is over-expressed in 87.3% of HCC. The expression levels of the encoded LAPTM4B-35 protein in HCC is also over-expressed in 86.2% of HCC and shows a significant positive correlation with pathological grade, metastasis, and recurrence, and a negative correlation with postoperative overall- and cancer free- survival of HCC patients. Moreover, HCC cells showing high expression of LAPTM4B-35 show a strong tendency to metastasize and enhanced drug resistance. Overexpression of this gene promotes tumorigenesis, faster growth of human HCC xenografts and metastasis in nude mice, and leads to anti-apoptosis, deregulation of proliferation, enhancement of migration and invasion, as well as multi-drug resistance. In addition, overexpression of LAPTM4B-35 leads to accumulation of a number of oncoproteins and to down-regulation of a number of tumor suppressing proteins. By contrary, knockdown of endogenous LAPTM4B-35 via RNAi results in remarkable inhibition of xenograft growth and metastasis of human HCC in nude mice. Also, RNAi knockdown of LAPTN4B-35 can reverse the cellular and molecular malignant phenotypes noted above

Ultra-low noise dual-frequency VECSEL at telecom wavelength using fully correlated pumping

International audienceAn ultra-low intensity and beatnote phase noise dual-frequency vertical-external-cavity surface-emitting laser is built at telecom wavelength. The pump laser is realized by polarization combining two single-mode fibered laser diodes in a single-mode fiber, leading to a 100% in-phase correlation of the pump noises for the two modes. The relative intensity noise is lower than −140 dB∕Hz, and the beatnote phase noise is suppressed by 30 dB, getting close to the spontaneous emission limit. The role of the imperfect cancellation of the thermal effect resulting from unbalanced pumping of the two modes in the residual phase noise is evidenced

Tropism and innate host responses of a novel avian influenza A H7N9 virus: an analysis of ex-vivo and in-vitro cultures of the human respiratory tract

BACKGROUND: Since March, 2013, an avian-origin influenza A H7N9 virus has caused severe pneumonia in China. The aim of this study was to investigate the pathogenesis of this new virus in human beings. METHODS: We obtained ex-vivo cultures of the human bronchus, lung, nasopharynx, and tonsil and in-vitro cultures of primary human alveolar epithelial cells and peripheral blood monocyte-derived macrophages. We compared virus tropism and induction of proinflammatory cytokine responses of two human influenza A H7N9 virus isolates, A/Shanghai/1/2013 and A/Shanghai/2/2013; a highly pathogenic avian influenza H5N1 virus; the highly pathogenic avian influenza H7N7 virus that infected human beings in the Netherlands in 2003; the 2009 pandemic influenza H1N1 virus, and a low pathogenic duck H7N9 virus that was genetically different to the human disease causing A H7N9 viruses. FINDINGS: Both human H7N9 viruses replicated efficiently in human bronchus and lung ex-vivo cultures, whereas duck/H7N9 virus failed to replicate in either. Both human A H7N9 viruses infected both ciliated and non-ciliated human bronchial epithelial cells and replicated to higher titres than did H5N1 (p<0·0001 to 0·0046) and A/Shanghai/1/2013 replicated to higher titres than did H7N7 (p=0·0002-0·01). Both human A H7N9 viruses predominantly infected type II alveolar epithelial cells and alveolar macrophages in the human lung and replicated to higher titres than did H5N1 (p<0·0001 to 0·0078); A/Shanghai/1/2013 replicated to higher titres than did H1N1 (p=0·0052-0·05) and H7N7 (p=0·0031-0·0151). Human H7N9 viruses were less potent inducers of proinflammatory cytokines compared with H5N1 virus. INTERPRETATION: Collectively, the results suggest that the novel H7N9 viruses are better adapted to infect and replicate in the human conducting and lower airways than are other avian influenza viruses, including H5N1, and pose an important pandemic threat.postprin

BET proteins are associated with the induction of small airway fibrosis in COPD

Rationale In COPD, small airway fibrosis occurs due to increased extracellular matrix (ECM) deposition in and around the airway smooth muscle (ASM) layer. Studies of immune cells and peripheral lung tissue have shown that epigenetic changes occur in COPD but it is unknown whether airway mesenchymal cells are reprogrammed. Objectives Determine if COPD ASM cells have a unique epigenetic response to profibrotic cytokine transforming growth factor beta 1 (TGF-beta 1). Methods Primary human ASM cells from COPD and non-COPD smoking patients were stimulated with TGF-beta 1. Gene array analysis performed to identify differences in ECM expression. Airway accumulation of collagen 15 alpha 1 and tenascin-C proteins was assessed. Aforementioned ASM cells were stimulated with TGF-beta 1 +/- epigenetic inhibitors with qPCR quantification of COL15A1 and TNC. Global histone acetyltransferase (HAT) and histone deacetylase (HDAC) activity were assessed. chromatin immunoprecipitation (ChIP)-qPCR for histone H3 and H4 acetylation at COL15A1 and TNC promoters was carried out. Effects of bromoterminal and extraterminal domain (BET) inhibitor JQ1(+) on expression and acetylation of ECM target genes were assessed. Measurements and main results COPD ASM show significantly higher COL15A1 and TNC expression in vitro and the same trend for higher levels of collagen 15a1 and tenascin-c deposited in COPD airways in vivo. Epigenetic screening indicated differential response to HDAC inhibition. ChIP-qPCR revealed histone H4 acetylation at COL15A1 and TNC promoters in COPD ASM only. ChIP-qPCR found JQ1(+) pretreatment significantly abrogated TGF-beta 1 induced histone H4 acetylation at COL15A1 and TNC. Conclusions BET protein binding to acetylated histones is important in TGF-beta 1 induced expression of COL15A1 and TNC and maintenance of TGF-beta 1 induced histone H4 acetylation in cell progeny

A lepto-hadronic model for high-energy emission from FR I radiogalaxies

The well know radiogalaxy Cen A has been recently detected as a source of very high energy (VHE) gamma-rays by the HESS experiment just before Fermi/LAT detected it at high energies (HE). The detection, together with that of M87, establishes radiogalaxies as VHE gamma-ray emitters. The aim of this work is to present a lepto-hadronic model for the VHE emission from the relativistic jets in FR I radiogalaxies. We consider that protons and electrons are accelerated in a compact region near the base of the jet, and they cool emitting multi wavelength radiation as they propagate along the jet. The proton and electron distributions are obtained through an inhomogeneous steady-state transport equation taking into account acceleration, radiative and non-radiative cooling processes, as well as particle transport by convection. Considering the effects of photon absorption at different wavelengths, we calculate the radiation emitted by the primary protons and electrons, as well as the contribution of secondaries particles (e+/-, pions and muons). The expected high-energy neutrino signal is also obtained and the possibility of detections with KM3Net and IceCube is discussed. The spectral energy distribution obtained in our model with an appropriate set of parameters for an extended emission zone can account for much of the observed spectrum for both AGNs.Comment: 16 pages, 11 figures, accepted for publication in A&A. New and revised calculations were adde