p53对TGEV感染PK-15细胞4种免疫调节因子mRNA转录水平的影响

为探究p53对IFN-α、MIP-1α、PGK-1、TGF-β1四种免疫调节因子在TGEV感染PK-15细胞中的影响,本研究首先采用CRISPR-Cas9慢病毒系统靶向于PK-15细胞的p53基因构建p53基因敲除(p53-/-)的细胞;再以感染复数为0.1 MOI的TGEV感染p53野生型(p53+/+)和p53-/-PK-15细胞,于不同的感染时间收集细胞并提取细胞总RNA,应用实时荧光定量PCR(qRT-PCR)技术检测四种细胞因子的转录水平。结果表明,构建的靶向于p53基因敲除的PK-15细胞中,p53基因的454碱基位点缺失一个碱基T,细胞的p53蛋白已检测不到;TGEV感染后IFN-αmRNA的相对表达量在两种细胞中均表现为先上升后下降的趋势,但在病毒感染的36 h之前,p53-/-PK-15细胞中的表达量显著低于p53+/+PK-15细胞(p<0.05);MIP-1αmRNA相对表达量随着病毒感染时间的推移而递增,且在p53+/+PK-15细胞中显著高于p53-/-PK-15细胞(p<0.05);TGF-β1 mRNA的相对表达量在p53+/+PK-15细胞中随时间推移总体呈递减趋势,并在病毒感染(post infection,p.i.)12 h之后显著低于p53-/-PK-15细胞(p<0.05);PGK-1 mRNA相对表达量在病毒感染的12 h p53+/+PK-15细胞中虽略有上升,但差异不显著,而在p53-/-PK-15细胞中呈现时间依赖性递增,并显著高于p53+/+PK-15细胞(p<0.05)。以上结果表明:p53对TGEV感染PK-15细胞后的细胞免疫因子起到了关键的调节作用,推测其可能在宿主抗TGEV感染中发挥着重要作用。     

YAC tripeptide of epidermal growth factor promotes the proliferation of HaCaT keratinocytes through activation of EGFR

Epidermal growth factor (EGF) is known to play key roles in skin regeneration and wound-healing. Here, we demonstrate that Pep2-YAC, a tripeptide covering residues 29-31 in the B loop of EGF, promotes the proliferation of HaCaT keratinocytes with activity comparable to EGF. The treatment of HaCaT cells with Pep2-YAC induced phosphorylation, internalization, and degradation of EGFR and organization of signaling complexes, which consist of Grb2, Gab1, SHP2, and PI3K. In addition, it sti mulated the phosphorylation of ERK1/2 at Thr 202/Tyr 204 and of Akt1 at Ser 473 and the nuclear translocation of EGFR, STAT3, c-Jun, and c-Fos. These results suggest that Pep2-YAC may be useful as a therapeutic agent for skin regeneration and wound-healing as an EGFR agonist. [BMB Reports 2014; 47(10): 581-586]     

Arginine monomethylation by PRMT7 controls MAVS-mediated antiviral innate immunity

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Cholesterol inhibits MMP-9 expression in human epidermal keratinocytes and HaCaT cells

Cholesterol is a major component of skin lipids and acts as a regulator of vesicular trafficking and signal transduction. However, the function of cholesterol on matrix metalloproteinases (MMPs) expression of human skin is not fully understood. Here, we investigated the effects of cholesterol on MMP-9 expression in normal human keratinocytes (NHK) and HaCaT cells. Basal level of MMP-9 expression was decreased by cholesterol in NHK. On the other hand, MMP-9 expression was increased by the cholesterol depletion agent, methyl-beta-cyclodextrin (MbetaCD), while it was inhibited by cholesterol repletion in HaCaT cells. MbetaCD induced ERK and JNK phosphorylation were prevented by cholesterol repletion. The inhibition of ERK and JNK decreased MbetaCD-induced MMP-9 expression. Therefore, our results suggest that cholesterol regulates MMP-9 expression through ERK and JNK-dependent pathways.     

Enrichment of epidermal stem cells by rapid adherence and analysis of the reciprocal interaction of epidermal stem cells with neighboring cells using an organotypic system

Keratinocytes have the ability to adhere to extracellular matrix rapidly. With this in mind, in this study we isolated keratinocytes known as rapidly adhering (RA) cells. To compare epidermal regenerative abilities, skin substitutes were reconstructed by adding keratinocytes or RA cells to two groups of bioengineered dermis made by fibroblasts and hair follicle dermal cells respectively. After transplantation, the results illustrated that the skin substitutes including RA cells were integrated into the host tissue. Furthermore, with hair follicle dermal cells' influences, the RA cells could form structures very similar to normal hair follicles. These results indicate that RA cells are predominately comprised of epidermal stem cells. The results also demonstrated that besides the reciprocal interaction of epidermal stem cells with dermal cells, the interaction of epidermal stem cells with keratinocytes were critical in epidermis morphogenesis and self-renewal, and application of RA cells could optimize engineering of skin substitutes.     

A fully autologous co-culture system utilising non-irradiated autologous fibroblasts to support the expansion of human keratinocytes for clinical use

Autologous keratinocytes can be used to augment cutaneous repair, such as in the treatment of severe burns and recalcitrant ulcers. Such cells can be delivered to the wound bed either as a confluent sheet of cells or in single-cell suspension. The standard method for expanding primary human keratinocytes in culture uses lethally irradiated mouse 3T3 fibroblasts as feeder cells to support keratinocyte attachment and growth. In an effort to eliminate xenobiotic cells from clinical culture protocols where keratinocytes are applied to patients, we investigated whether human autologous primary fibroblasts could be used to expand keratinocytes in culture. At a defined ratio of a 6:1 excess of keratinocytes to fibroblasts, this co-culture method displayed a population doubling rate comparable to culture with lethally irradiated 3T3 cells. Furthermore, morphological and molecular analysis showed that human keratinocytes expanded in co-culture with autologous human fibroblasts were positive for proliferation markers and negative for differentiation markers. Keratinocytes expanded by this method thus retain their proliferative phenotype, an important feature in enhancing rapid wound closure. We suggest that this novel co-culture method is therefore suitable for clinical use as it dispenses with the need for lethally irradiated 3T3 cells in the rapid expansion of autologous human keratinocytes.     

UVA-mediated downregulation of MMP-2 and MMP-9 in human epidermal keratinocytes

While human dermal fibroblasts increase the expression and secretion of distinct matrix metalloproteinases (MMPs) in response to ultraviolet (UV) irradiation, much less is known about regulation of MMPs with regard to normal human epidermal keratinocytes (NHEK). In this in vitro study, the effect of ultraviolet A (UVA) irradiation on gelatinase expression and secretion by NHEK was investigated. Irradiation of NHEK with non-toxic doses of UVA resulted in a dose-dependent downregulation of MMP-2 (gelatinase A) and MMP-9 (gelatinase B). A single dose of 30JUVA/cm(2) lowered MMP-2 activity to 26% and MMP-9 activity to 33% compared with mock-irradiated cells at 24h after irradiation. Downregulation of MMP-2 and MMP-9 steady-state mRNA levels was observed at 4h after UVA irradiation. The inhibitory effect of UVA on gelatinases was mediated by UVA-generated singlet oxygen (1O(2)). These findings suggest an inverse response to UVA irradiation in NHEK than in fibroblasts.     

The reduction of water-soluble tetrazolium salt reagent on the plasma membrane of epidermal keratinocytes is oxygen dependent

The water-soluble tetrazolium salt (WST-1) assay is frequently used to assess cell proliferation. However, our study showed that in normal and cancerous keratinocytes, this assay is more responsive to changes in oxygenation than to rates of cell growth. Stimulation of keratinocyte proliferation by low Ca²⁺ and suppression of proliferation by nocodazole resulted in modest changes in WST-1 readings, whereas gradually reducing the level of oxygen in the cellular environment from ambient (21%) to near anoxic (0.1%) revealed a very strong negative correlation between cell oxygenation and WST-1 reagent reduction. In contrast, the very similar MTT [3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide] cell proliferation assay, which uses a different tetrazolium salt, showed no sensitivity to the level of oxygen. Unlike MTT, WST-1 reagent is reduced extracellularly through trans-plasma membrane transport (tPMET), thereby suggesting that tPMET is oxygen dependent. We propose that the WST-1 assay can be developed into a sensitive quantitative method to evaluate cell oxygenation in vitro and used to study the role of hypoxia and tPMET in homeostasis and disease (e.g., cancer). At the same time, WST-1 assay should be used cautiously to assess cell viability or proliferation because readings can be affected by certain extrinsic (low atmospheric oxygen or high density culture) or intrinsic (defects in oxygen-sensing pathways) factors.     

Viral inhibitors reveal overlapping themes in regulation of cell death and innate immunity

Many viruses regulate a crucial point in the apoptotic pathway by expressing viral Bcl-2 homologues, which have become useful tools to investigate the mechanisms behind the control of the mitochondrial checkpoint of apoptosis. Concurrently, a number of viral inhibitors of innate immune signalling have been instrumental tools in the discovery of key host pathways. Here we discuss how viral inhibitors of the apoptotic and innate signalling pathways have further enhanced the understanding of both research fields and are beginning to shed light on how these two pathways converge.     

Ability of a commercial feed additive to modulate expression of innate immunity in sheep immunosuppressed with dexamethasone

In the first study, we tested the ability of a commercial feed additive (OmniGen-AF) to affect markers of innate immunity in immunosuppressed sheep and the ability of a pathogen challenge (mould) to affect the immune response to the additive. Treatments consisted of (1) control, (2) immunosuppressed with dexamethasone (DEX), (3) immunosuppressed plus the feed additive, (4) immunosuppressed plus Aspergillus fumigatus and (5) immunosuppressed, A. fumigatus and the additive. Animal health was monitored and indexes of innate immunity (neutrophil L-selectin and interleukin-1β (IL-1β)) were collected. DEX caused immunosuppression (i.e. reduced abundance of neutrophil L-selectin and IL-1β). This immunosuppressive effect was countered by the provision of the additive in the ration. Provision of mould in the ration increased the ability of the additive to regulate markers of innate immune function. A second study was completed to re-assess the properties of the additive and other feed products. The study consisted of seven treatments: (1) immunosuppressed, (2) immunosuppressed with additive, (3) immunosuppressed with additive in pelleted form (low-temperature pellet) and (4) immunosuppressed with additive in a high-temperature pellet. The remaining three treatments assessed abilities of three other additives to regulate markers of innate immune function. In this study, OmniGen-AF increased expression of neutrophil L-selectin abundance in immunosuppressed animals and this was unaffected by the pelleting temperature. None of the other additives affected markers of innate immunity. In these studies we discovered mechanisms by which a feed product may affect the immune function of ruminant livestock. The product countered DEX-dependent down-regulation of markers of innate immune function and its actions were enhanced by the presence of pathogen (mould) in the ration.     

Mechanism of up-regulation of human Toll-like receptor 3 secondary to infection of measles virus-attenuated strains

PolyI:C, a synthetic double-stranded (ds)RNA, and viruses act on cells to induce IFN-beta which is a key molecule for anti-viral response. Although dsRNA is a virus-specific signature and a ligand for human Toll-like receptor 3 (TLR3), largely uncharacterized multiple pathways associate virus-mediated IFN-beta induction. Here, we demonstrated that laboratory-adapted but not wild-type strains of measles virus (MV) up-regulated TLR3 expression both in dendritic cells and epithelial cell line A549. The kinetics experiments with the laboratory MV strain revealed that TLR3 was induced late compared to IFN-beta and required new protein synthesis. Furthermore, neutralizing antibodies against IFN-beta or IFNAR (Interferon-alpha/beta receptor) suppressed MV-induced TLR3 induction, indicating that type I IFN, IFN-alpha/beta, is critical for MV-mediated TLR3 induction. Yet, a recently identified virus-inducible IFN, the IFN-lambda, did not contribute to TLR3 expression. A virus-responsive element that up-regulates TLR3 was identified in the TLR3-promoter region by reporter gene experiments. The ISRE, a recently reported site for IFN-beta induction, but not STAT binding site, located around -30bp of TLR3 promoter responded to MV to induce TLR3 expression. This further indicates the importance of type I IFN for TLR3 up-regulation in the case of viral infection. In HeLa and MRC5 cells, augmented production of IFN-beta was observed in response to dsRNA when TLR3 had been induced beforehand. Thus, the MV-induced expression of TLR3 may reflect amplified IFN production that plays a part in host defense to viral infection.     

Critical role of Syk-dependent STAT1 activation in innate antiviral immunity

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The effect of DNA priming-protein boosting on enhancing humoral immunity and protecting mice against lethal HSV infections

Herpes simplex virus produces primary and latent infections with periodic recurrency. The prime-boost immunization strategies were studied using a DNA vaccine carrying the full-length glycoprotein D-1 gene and a baculovirus-derived recombinant glycoprotein D, both expressing herpes simplex virus glycoprotein D-1 protein. Immunization with recombinant DNAs encoding antigenic proteins could induce cellular and humoral responses by providing antigen expression in vivo. Higher immune response, however, occurred when the recombinant proteins followed DNA inoculation. While all groups of the immunized mice and positive control group could resist virus challenge, a higher virus neutralizing antibody level was detected in the animals receiving recombinant protein following DNA vaccination.     

Glucose-induced expression of MIP-1 genes requires O-GlcNAc transferase in monocytes

O-glycosylation has emerged as an important modification of nuclear proteins, and it appears to be involved in gene regulation. Recently, we have shown that one of the histone methyl transferases (MLL5) is activated through O-glycosylation by O-GlcNAc transferase (OGT). Addition of this monosaccharide is essential for forming a functional complex. However, in spite of the abundance of OGT in the nucleus, the impact of nuclear O-glycosylation by OGT remains largely unclear. To address this issue, the present study was undertaken to test the impact of nuclear O-glycosylation in a monocytic cell line, THP-1. Using a cytokine array, MIP-1α and -1β genes were found to be regulated by nuclear O-glycosylation. Biochemical purification of the OGT interactants from THP-1 revealed that OGT is an associating partner for distinct co-regulatory complexes. OGT recruitment and protein O-glycosylation were observed at the MIP-1α gene promoter; however, the known OGT partner (HCF-1) was absent when the MIP-1α gene promoter was not activated. From these findings, we suggest that OGT could be a co-regulatory subunit shared by functionally distinct complexes supporting epigenetic regulation.     

Emerging complexity and new roles for the RIG-I-like receptors in innate antiviral immunity

Innate immunity is critical for the control of virus infection and operates to restrict viral susceptibility and direct antiviral immunity for protection from acute or chronic viral-associated diseases including cancer. RIG-I like receptors (RLRs) are cytosolic RNA helicases that function as pathogen recognition receptors to detect RNA pathogen associated molecular patterns (PAMPs) of virus infection. The RLRs include RIG-I, MDA5, and LGP2. They function to recognize and bind to PAMP motifs within viral RNA in a process that directs the RLR to trigger downstream signaling cascades that induce innate immunity that controls viral replication and spread. Products of RLR signaling also serve to modulate the adaptive immune response to infection. Recent studies have additionally connected RLRs to signaling cascades that impart inflammatory and apoptotic responses to virus infection. Viral evasion of RLR signaling supports viral outgrowth and pathogenesis, including the onset of viral-associated cancer.     

Celastrol suppresses IFN-gamma-induced ICAM-1 expression and subsequent monocyte adhesiveness via the induction of heme oxygenase-1 in the HaCaT cells

Celastrol, a quinone methide triterpenoid derived from the medicinal plant Tripterygium wilfordii, possesses various biological activities such as anti-oxidant, anti-tumor, and anti-inflammatory activities. In this study, we examined the suppressive effect of celastrol on IFN-γ-induced expression of ICAM-1 and the molecular mechanism responsible for these activities. We found that celastrol induced mRNA and protein expression of heme oxygenase-1 (HO-1) in the human keratinocyte cell line HaCaT. Treatment of HaCaT cells with tin protoporphyrin IX (SnPP), a specific inhibitor of HO-1, reversed the suppressive effect of celastrol on IFN-γ-induced protein and mRNA expression of ICAM-1. HO-1 knockdown using small interfering RNA (siRNA) led to reverse inhibition of IFN-γ-induced up-regulation of ICAM-1 by celastrol. In addition, SnPP reversed suppression of IFN-γ-induced promoter activity of ICAM-1 by celastrol. Furthermore, blockage of HO-1 activity by SnPP and HO-1 siRNA reversed the inhibitory effect of celastrol on IFN-γ-induced adhesion of monocytes to keratinocytes. These results suggest that celastrol may exert anti-inflammatory responses by suppressing IFN-γ-induced expression of ICAM-1 and subsequent monocyte adhesion via expression of HO-1 in the keratinocytes.     

四种细胞因子在中华蟾蜍脑中的分布

采用免疫组织化学SABC法,研究白介素-1α、干扰素-γ、神经生长因子-β和肿瘤坏死因子-α在成体中华蟾蜍脑中的表达和分布特点。结果发现,白介素-1α阳性细胞数量很多,分布于脑的各个区域。白介素-1α多在细胞的胞体中,而原始海马锥体细胞,中脑的背前侧被盖核和腹后侧被盖核中的细胞可见阳性的突起。干扰素-γ阳性细胞数量较多,分布在端脑的原始海马和隔区,丘脑腹外侧核,下丘脑的视前区、视交叉上核和腹侧漏斗核,中脑被盖的背前侧被盖核、腹前侧被盖核、背后侧被盖核和腹后侧被盖核中,小脑的Purkinje细胞层和延髓的网状核,其中原始海马,背前侧被盖核和背后侧被盖核,视交叉上核,Purkinje细胞层和网状核中的细胞中可见阳性突起。神经生长因子-β阳性细胞数量较少,主要存在于下丘脑的视前区和视交叉上核,中脑被盖的腹前侧被盖核,小脑的Purkinje细胞层和延髓的网状核中,其中视前区、Purkinje细胞层和网状核中细胞可见阳性突起。肿瘤坏死因子-α阳性细胞数量最少,分布范围仅限于中脑被盖背前侧区和延髓的网状核及中缝核,但细胞具有阳性突起。因此,白介素-1α和干扰素-γ在成体动物脑中分布较为广泛,可能是神经细胞生命活动所必需的;而神经生长因子-β和肿瘤坏死因子-α在成体动物脑中分布范围狭窄,其作用可能仅限于脑中的某些特殊区域。     

Regulation of aging and innate immunity in C. elegans

The free-living soil nematode Caenorhabditis elegans is a versatile model for the study of the genetic regulation of aging and of host-pathogen interactions. Many genes affecting multiple processes, such as neuroendocrine signalling, nutritional sensing and mitochondrial functions, have been shown to play important roles in determining the lifespan of C. elegans. The DAF-2-mediated insulin signalling pathway is the major pathway that regulates aging in this nematode and this role appears universal; neuroendrocrine signalling also affects aging in Drosophila and mice. Recent studies have shown that the innate immune function in C. elegans is modulated by signalling from the TGF-beta-like, the p38 MAPK and the DAF-2 insulin pathways. The requirement for the DAF-2 pathway in modulating aging and immunity suggests that these processes may be linked at the molecular level. It is well known that as humans age, immunosenescence occurs in which there is a general degradation of immune efficiency. However, the molecular mechanisms involved in this process remain unclear. In this review, we discuss the molecular mechanisms that modulate aging and immune response and attempt to suggest molecular links between these two processes.