Deacetylase Sirtuin 1 mitigates type I IFN- and type II IFN-induced signaling and antiviral immunity.

Type I and type II IFNs are important immune modulators in both innate and adaptive immunity. They transmit signaling by activating JAK-STAT pathways. Sirtuin 1 (SIRT1), a class III NAD+-dependent deacetylase, has multiple functions in a variety of physiological processes. Here, we characterized the novel functions of SIRT1 in the regulation of type I and type II IFN-induced signaling. Overexpression of SIRT1 inhibited type I and type II IFN-induced interferon-stimulated response element activation. In contrast, knockout of SIRT1 promoted type I and type II IFN-induced expression of ISGs and inhibited viral replication. Treatment with SIRT1 inhibitor EX527 had similar positive effects. SIRT1 physically associated with STAT1 or STAT3, and this interaction was enhanced by IFN stimulation or viral infection. By deacetylating STAT1 at K673 and STAT3 at K679/K685/K707/K709, SIRT1 downregulated the phosphorylation of STAT1 (Y701) and STAT3 (Y705). Sirt1+/- primary peritoneal macrophages and Sirt1+/- mice exhibited enhanced IFN-induced signaling and antiviral activity. Thus, SIRT1 is a novel negative regulator of type I and type II IFN-induced signaling through its deacetylase activity.IMPORTANCESIRT1 has been reported in the precise regulation of antiviral (RNA and DNA) immunity. However, its functions in type I and type II IFN-induced signaling are still unclear. In this study, we deciphered the important functions of SIRT1 in both type I and type II IFN-induced JAK-STAT signaling and explored the potential acting mechanisms. It is helpful for understanding the regulatory roles of SIRT1 at different levels of IFN signaling. It also consolidates the notion that SIRT1 is an important target for intervention in viral infection, inflammatory diseases, or even interferon-related therapies.

UBL4A Augments Innate Immunity by Promoting the K63-Linked Ubiquitination of TRAF6.

Human UBL4A/GdX, encoding an ubiquitin-like protein, was shown in this study to be upregulated by viral infection and IFN stimulation. Then the functions of UBL4A in antiviral immune response were characterized. Overexpression of UBL4A promoted RNA virus-induced ISRE or IFN-ß or NF-κB activation, leading to enhanced type I IFN transcription and reduced virus replication. Consistently, knockdown of UBL4A resulted in reduced type I IFN transcription and enhanced virus replication. Additionally, overexpression of UBL4A promoted virus-induced phosphorylation of TBK1, IRF3, and IKKα/ß. Knockdown of UBL4A inhibited virus-induced phosphorylation of TBK1, IRF3, and IKKα/ß. Coimmunoprecipitation showed that UBL4A interacted with TRAF6, and this interaction was enhanced upon viral infection. Ubiquitination assays showed that UBL4A promoted the K63-linked ubiquitination of TRAF6. Therefore, we reveal a novel positive feedback regulation of UBL4A in innate immune response combating virus invasion by enhancing the K63-linked ubiquitination of TRAF6.

SCM-198 Ameliorates Cognitive Deficits, Promotes Neuronal Survival and Enhances CREB/BDNF/TrkB Signaling without Affecting Aß Burden in AßPP/PS1 Mice.

SCM-198 is an alkaloid found only in Herba leonuri and it has been reported to possess considerable neuroprotective effects in animal models of ischemic stroke, Parkinson's disease and Alzheimer's disease (AD). In this study, we demonstrated for the first time that 3-month oral SCM-198 treatment could significantly improve both recognition and spatial memory, inhibit microgliosis and promote neuronal survival in amyloid-ß protein precursor and presenilin-1(AßPP/PS1) double-transgenic mice without affecting amyloid-ß (Aß) burden. In addition, decreases in cAMP-response element-binding protein (CREB) phosphorylation, brain-derived neurotrophic factor (BDNF) and tropomyosin-related kinase B (TrkB) phosphorylation were attenuated by SCM-198 both in vivo and in primary cortical neurons, which could be blocked by protein kinase A (PKA) inhibitors, suggesting the involvement of upstream PKA in enhancing the BDNF/TrkB/CREB signaling by SCM-198. Our results indicate that SCM-198, a drug that could promote neuronal survival and enhance BDNF/TrkB/CREB signaling, has beneficial effects on behavioral and biochemical alterations without affecting Aß burden in AßPP/PS1 mice and might become a potential drug candidate for AD treatment in the future.

Deubiquitinase USP47 attenuates virus-induced type I interferon signaling.

The innate immune responses are tightly regulated to ensure effective clearance of invading pathogens and avoid excessive inflammation. Ubiquitination and deubiquitination are important post-translational modifications in antiviral immune responses. Here, we discovered deubiquitinase USP47 as a novel negative immune system regulator. Overexpression of USP47 repressed Sendai virus, poly(I:C) and poly(dA:dT)-induced ISRE and IFN-ß activation, along with reduced IFNB1 transcription and enhanced viral replication. Knockdown of USP47 expression had the opposite effects. Dual-luciferase and phosphorylation assays showed that USP47 targeted downstream of MAVS and upstream of TBK1. Additional co-immunoprecipitation assays suggested that USP47 interacted with TRAF3 and TRAF6. Importantly, USP47 removed K63-linked polyubiquitin chains from TRAF3 and TRAF6. Hence, we describe a novel modulator of the antiviral innate immune response, USP47, which removes K63-linked polyubiquitins from TRAF3 and TRAF6, leading to reduced type I IFN signaling.

Interferon-Inducible LINC02605 Promotes Antiviral Innate Responses by Strengthening IRF3 Nuclear Translocation.

Non-coding RNAs represent a class of important regulators in immune response. Previously, LINC02605 was identified as a candidate regulator in innate immune response by lncRNA microarray assays. In this study, we systematically analyzed the functions and the acting mechanisms of LINC02605 in antiviral innate immune response. LINC02605 was up-regulated by RNA virus, DNA virus, and type I IFNs in NF-κB and Jak-stat dependent manner. Overexpression of LINC02605 promotes RNA virus-induced type I interferon production and inhibited viral replication. Consistently, knockdown of LINC02605 resulted in reduced antiviral immune response and increased viral replication. Mechanistically, LINC02605 released the inhibition of hsa-miR-107 on the expression of phosphatase and tensin homolog (PTEN). By microRNA mimics and inhibitors, hsa-miR-107 was demonstrated to not only inhibit PTEN's expression but also negatively regulate the antiviral immune response. Knockdown of LINC02605 led to the reduction of PTEN expression both in mRNA and protein levels. Overexpression of LINC02605 had an opposite impact. Moreover, LINC02605 attenuated the serine 97 phosphorylation level of interferon regulatory factor 3 (IRF3) by promoting PTEN expression. Nucleoplasmic fragmentation assay showed that knocking down LINC02605 inhibited the nuclear translocation of IRF3, rendering the host cells more susceptible to viral invasion, while overexpression showed opposite effects. Therefore, LINC02605 is an induced lncRNA by viral infection and plays a positive feedback in antiviral immune response through modulating the nuclear translocation of IRF3.

Characterization of the transcriptional regulator CsbHLH62 that negatively regulates EGCG3"Me biosynthesis in Camellia sinensis.

Epigallocatechin-3-O-(3-O-methyl) gallate (EGCG3"Me) in tea (Camellia sinensis (L.) O. Kuntze) is a major source of O-methylated catechin and renowned for a wide range of health effects. However, the transcriptional regulation mechanisms of EGCG3"Me biosynthesis remain unclear. In the present work, the basic Helix-Loop-Helix (bHLH) transcription factor, designated as CsbHLH62, belonging to GBOF group of bHLH families, was isolated and characterized from Camellia sinensis. CsbHLH62 contains an Open Reading Frame of 1662 bp and encodes a polypeptide of 553 amino acids. Subcellular location and transcriptional activity analysis showed it as a nucleus protein and possessed transcriptional inhibition activity. Furthermore, the expression of CsbHLH62 was decreased during EGCG3"Me accumulation. More importantly, E-box motifs (5'-CANNTG-3') were found in the promoters of CCoAOMT, CsLAR, and CsDFR, and further transient expression assays showed that CsbHLH62 repressed the transcription of CCoAOMT, CsLAR, and CsDFR. Collectively, these results suggest that CsbHLH62 acts as a transcriptional repressor that might be negatively affecting the accumulation of EGCG3"Me. These findings provide novel insights into the regulatory mechanism of EGCG3"Me biosynthesis, which might help to breed high EGCG3"Me-content tea plants.

Transcriptome analysis identifies the potential roles of long non-coding RNAs during parainfluenza virus infection.

Parainfluenza virus infection is a common respiratory illness in children. Although lncRNAs are novel regulators of virus-induced innate immunity, a systemic attempt to characterize the differential expression of lncRNAs upon parainfluenza virus infection is lacking. In this report, we identify 207 lncRNAs and 166 mRNAs differentially expressed in SeV-infected HEK293T cells by microarray. The functional annotation analysis reveals that differentially regulated transcripts are predominantly involved in the host antiviral response pathway. The lncRNAs with the potential to regulate SeV-induced antiviral response are identified by building the lncRNA-mRNA coexpression network. Furthermore, silencing lncRNA ENST00000565297 results in reduced type I IFN signaling upon SeV infection. These catalogs may facilitate future analysis of the functions of lncRNAs in innate immunity and related diseases.

Nifedipine Increases Iron Content in WKPT-0293 Cl.2 Cells via Up-Regulating Iron Influx Proteins.

Nifedipine was reported to enhance urinary iron excretion in iron overloaded mice. However, it remains unknown how nifedipine stimulates urinary iron excretion in the kidney. We speculated that nifedipine might inhibit the TfR1/ DMT1 (transferrin receptor 1/divalent metal transporter1)-mediated iron uptake by proximal tubule cells in addition to blocking L-type Ca2+ channels, leading to an increase in iron in lumen-fluid and then urinary iron excretion. To test this hypothesis, we investigated the effects of nifedipine on iron content and expression of TfR1, DMT1 and ferroportin1 (Fpn1) in WKPT-0293 Cl.2 cells of the S1 segment of the proximal tubule in rats, using a graphite furnace atomic absorption spectrophotometer and Western blot analysis, respectively. We demonstrated for the first time that nifedipine significantly enhanced iron content as well as TfR1 and DMT1 expression and had no effect on Fpn1 levels in the cells. We also found that ferric ammonium citrate decreased TfR1 levels, increased Fpn1 expression and had no effect on DMT1 content, while co-treatment with nifedipine and FAC increase TfR1 and DMT1 expression and also had no effect on Fpn1 levels. These findings suggest that the nifedipine-induced increase in cell iron may mainly be due to the corresponding increase in TfR1 and DMT1 expression and also imply that the effects of nifedipine on iron transport in proximal tubule cells can not explain the increase in urinary iron excretion.

Glycosylation of ent-kaurene derivatives and an evaluation of their cytotoxic activities.

AIM: To discover more active and water-soluble derivatives of tetracyclic diterpenoids containing an exo-methylene cyclopentanone or an α-methylenelactone moiety. METHODS: All of the key intermediates were synthesized from stevioside, and the target compounds were obtained through glycosylation of the 4-carboxyl group. The cytotoxicity of the target compounds against six human cancer cell lines, HepG2, Bel-7402, A549, U251, MCF-7 and MDA-MB-231, were evaluated by the MTT assay. RESULTS: Compound 1b was more effective than the positive control adriamycin against the HepG2, Bel-7402, A549, MCF-7, and MDA-MB-231 cell lines with IC50 values of 0.12, 0.91, 0.35, 0.08, and 0.07 µmol·L(-1), respectively. Moreover, compound 3c exhibited the most potent and selective cytotoxic activity against the HepG2 cell line (IC50, 0.01 µmol·L(-1)). CONCLUSION: Compounds 1b and 3c could be considered as potential anticancer candidates for further study.