Lipopolysaccharide-induced cytokine expression in alveolar epithelial cells: role of PKCζ-mediated p47phox phosphorylation

Chronic inflammation incited by bacteria in the saccular lung of premature infants contributes to the pathogenesis of bronchopulmonary dysplasia (BPD). LPS-mediated type II alveolar epithelial cell (AEC) injury induces the expression of pro-inflammatory cytokines that trigger pulmonary neutrophil influx, alveolar matrix degradation and lung remodeling. We hypothesized that NADPH oxidase (Nox)-dependent mechanisms mediate LPS-induced cytokine expression in AEC. We examined the role of p47phox in mediating LPS-dependent inflammatory cytokine expression in A549 cells (which exhibit phenotypic features characteristic of type II AEC) and elucidated the proximal signaling events by which Nox is activated by LPS. LPS-induced ICAM-1 and IL-8 expression was associated with increased superoxide formation in AEC. LPS-mediated oxidative stress and cytokine expression was inhibited by apocynin and augmented by PMA demonstrating that Nox-dependent redox signaling regulates LPS-dependent pro-inflammatory signaling in AEC. In LPS-treated cells, p47phox translocated from the cytoplasm to the perinuclear region and co-localized with gp91phox. LPS also induced a temporal increase in p47phox serine304 phosphorylation in AEC. While inhibition of classical PKC and novel PKC with calphostin and rottlerin did not inhibit ICAM-1 or IL-8 expression, the myristolyated PKCζ pseudosubstrate peptide (a specific inhibitor of PKCζ) inhibited LPS-induced cytokine expression in AEC. Inhibition of PKCζ also attenuated LPS-mediated p47phox phosphorylation and perinuclear translocation in AEC. Consistent with these data, LPS activated PKCζ in AEC as evidenced by increased threonine410 phophorylation. We conclude that PKCζ-mediated p47phox activation regulates LPS-dependent cytokine expression in AEC. Selective inhibition of PKCζ or p47phox might attenuate LPS-mediated inflammation and alveolar remodeling in BPD.     

Synergistic interactions between β-lapachone and fluconazole in the inhibition of CaCdr2p and CaMdr1p in Candida albicans

BackgroundMortality rate of invasive Candida infections is raising mainly amongst immunocompromised patients. These infections are hard-to-treat mainly due to the increasing incidence of resistance. The overexpression of ATP-binding cassette and major facilitator superfamily transporters is the main responsible for the failure of antifungal therapies. In a Saccharomyces cerevisiae model, β-lapachone inhibited Pdr5p, a transporter homologous to those found in Candida albicans.AimsTo determine whether β-lapachone reverses the resistance phenotype mediated by efflux transporters in C. albicans clinical isolates.MethodsThe antifungal activity of β-lapachone combined with fluconazole was measured by agarose chemosensitization and microdilution assays. CaCdr2p and CaMdr1p activities were evaluated through fluorescent dyes accumulation. ATPase activity was assessed using transporter-enriched plasma membranes.Resultsβ-lapachone reverted antifungal resistance of S. cerevisiae and C. albicans strains overexpressing CaCdr2p and CaMdr1p transporters by inhibiting these proteins activities. CaCdr2p ATPase activity was not impaired by the compound.Conclusionsβ-lapachone is a promising drug candidate to be used as an adjuvant in the treatment of candidiasis caused by fluconazole-resistant C. albicans strains.     

siRNA靶向沉默p22phox表达对内皮细胞衰老抑制作用的研究

设计特异性siRNA(Short interference RNA)诱导人脐静脉内皮细胞株ECV-304细胞NAD(P)H氧化酶活性亚单位p22phox基因沉默, 探讨p22phox基因沉默在血管紧张素Ⅱ(AngⅡ)诱导的ECV-304衰老中的作用及机理。应用体外转录合成3种siRNA转染体外培养的ECV-304, RT-PCR鉴定对p22phox基因沉默的效率和特异性, 确立适宜的转染浓度和基因沉默的持续时间; ECV-304分为空白对照组、AngⅡ组、siRNA转染组、AngⅡ+siRNA转染组, 观察细胞衰老改变及活性氧水平, 分析各组细胞p22phox的mRNA及蛋白表达。结果表明: 3种siRNA中, 一种对p22phox mRNA表达抑制率达到83％, 在一定转染浓度范围内, siRNA诱导的基因沉默效率呈剂量依赖性, 抑制效率高峰期在24~36 h; 给予AngⅡ后, b-gal染色阳性细胞数显著增加, 出现衰老的特征性改变, 衰老细胞p22phox的 mRNA及蛋白表达增加, 伴有一氧化氮(NO)生成减少, 活性氧生成增加, siRNA诱导p22phox基因沉默后降低了活性氧水平, 增加NO生成, 改善了AngⅡ诱导的ECV-304细胞的衰老改变。siRNA干扰技术可成功诱导NAD(P)H氧化酶p22phox基因沉默, 从而减缓AngⅡ诱导体外培养的ECV-304衰老进程, p22phox是防治衰老有希望的分子靶点。     

Efficient adult skeletal muscle regeneration in mice deficient in p38β, p38γ and p38δ MAP kinases

Adult skeletal muscle is a very stable tissue containing a small population of myofiber-associated quiescent satellite cells compared with late embryonic/neonatal skeletal muscle, which contains highly proliferating myoblasts and small actively growing myofibers, suggesting that specific regulatory pathways may control myogenesis at distinct developmental stages. The p38 MAPK signaling pathway is central for myogenesis, based on studies using immortalized and neonatal primary myoblasts in vitro. However, the contribution of this pathway to adult myogenesis has never been investigated. Four p38 isoforms (p38α, p38β, p38γ and p38δ) exist in mammalian cells, being p38α and p38γ the most abundantly expressed isoforms in adult skeletal muscle. Given the embryonic/neonatal lethality of p38α-deficient mice, here we investigate the relative contribution of p38β, p38γ and p38δ to adult myogenesis. Regeneration and myofiber growth of adult muscle proceeds with similar efficiency in mice lacking p38β, p38γ and p38δ as in wild-type control mice. In agreement with this, there is no difference in adult satellite cell behavior in vitro among the different genotypes. Importantly, the pattern of p38 activation (ascribed to p38α) remains unperturbed during satellite myogenesis in vitro and adult muscle regeneration in wild type and p38β-, p38γ- and p38δ-deficient mice, rendering p38α as the essential p38 isoform sustaining adult myogenesis. This study constitutes the first analysis addressing the functionality of p38β, p38γ and p38δ in satellite cell-dependent adult muscle regeneration and growth.     

Serum concentrations of TNF-α, sTNF-R p55 and p75 and post-traumatic stress in German soldiers

Growing evidence suggests involvement of the tumor necrosis factor (TNF)-α system in the pathophysiology of psychiatric disorders. Research into post-traumatic stress disorder (PTSD) has investigated serum levels of TNF-α, but not to date its soluble receptors sTNF-R p55 and sTNF-R p75. We examined serum levels of TNF-α, sTNF-R p55 and sTNF-R p75 in 135 male German soldiers 70 of whom had been deployed abroad and 65 in Germany only. Post-traumatic stress symptoms were measured using the Post-traumatic Stress Diagnostic Scale (PDS) and the Trier Inventory for the Assessment of Chronic Stress (TICS). Correlational analysis controlling for multiple testing, showed no significant Spearman rank correlations between PDS or TICS scores and serum levels of TNF-α, sTNF-R p55 or sTNF-R p75, either in the full sample or in the group of soldiers who had been deployed abroad. ANCOVAs showed no significant differences between soldiers with or without a PDS-derived diagnosis of PTSD, or between soldiers with or without deployment abroad, after controlling for age, smoking and body mass index (BMI). These results suggest that the TNF-α system, as reflected by TNF-α, sTNF-R p55 and sTNF-R p75 serum levels, does not play a major role in the pathophysiology and development of PTSD symptoms as measured by the PDS and the TICS. However, several methodological and contextual issues have to be considered.     

The third conformation of p38α MAP kinase observed in phosphorylated p38α and in solution

MAPKs engage substrates, MAP2Ks, and phosphatases via a docking groove in the C-terminal domain of the kinase. Prior crystallographic studies on the unphosphorylated MAPKs p38α and ERK2 defined the docking groove and revealed long-range conformational changes affecting the activation loop and active site of the kinase induced by peptide. Solution NMR data presented here for unphosphorylated p38α with a MEK3b-derived peptide (p38α/pepMEK3b) validate these findings. Crystallograhic data from doubly phosphorylated active p38α (p38α/T?GY?/pepMEK3b) reveal a structure similar to unphosphorylated p38α/MEK3b, and distinct from phosphorylated p38γ (p38γ/T?GY?) and ERK2 (ERK2/T?EY?). The structure supports the idea that MAP kinases adopt three distinct conformations: unphosphorylated, phosphorylated, and a docking peptide-induced form.     

Involvement of PPAR-γ and p53 in DHA-induced apoptosis in Reh cells

Dendritic cells (DCs) are professional antigen-presenting cells and have come to be appreciated as critical controllers of the immune response, especially T cell responses. Apart from presenting antigens to T cells, DCs carry out many other functions in regulating immunity. DC-specific intercellular adhesion molecule (ICAM)-3 grabbing non-integrin (DC-SIGN) is a novel receptor that plays an important role in DC migration and adhesion, the inflammatory response, T cell activation, initiating the immune response, and immune escape of pathogens and tumors. DC-SIGN mediates DC binding to ICAM-3 on the T cell surface and ICAM-2 on the endothelial cell (EC) surface, and takes part in the initial interaction between DC and T cells or vascular ECs. The procedure of systematic evolution of ligands by exponential enrichment (SELEX) is a method in which single-stranded oligonucleotides are selected from a wide variety of sequences, based on their interaction with a target molecule. In this study, we selected DNA aptamers against DC-SIGN protein by SELEX, and measured their binding affinity for DC-SIGN. Finally, an appropriate aptamer with high affinity for DC-SIGN was obtained, and it blocked DC adhesion to ECs as effectively as anti-DC-SIGN monoclonal antibody.     

WITHDRAWN: Expression of p53, p63, and p73 isoforms in squamous cell carcinoma and adenocarcinoma of esophagus☆,☆☆

Diabetic microangiopathy is often observed in diabetic patients, but there is little evidence regarding the relationship between post-prandial glycemia or insulinemia and the incidence of diabetic microangiopathy. In this study, to elucidate the relationship between post-prandial glycemia (or insulinemia) and diabetic microangiopathy, we performed a cross-sectional study of 232 subjects with type 2 diabetes mellitus who were not being treated with insulin injections. A multiple regression analysis showed that post-prandial hyperglycemia independently correlated with the incidence of diabetic retinopathy and neuropathy. Post-prandial hyperglycemia also correlated, although not independently, with the incidence of diabetic nephropathy. In addition, interestingly, post-prandial hypoinsulinemia independently correlated with the incidence of diabetic retinopathy, although not correlated with diabetic neuropathy or nephropathy. In conclusion, post-prandial hyperglycemia, rather than fasting glycemia or hemoglobin A1c levels, is an important predictor of the incidence of diabetic microangiopathy in Japanese type 2 diabetic patients.     

PPARγ ligands induce growth inhibition and apoptosis through p63 and p73 in human ovarian cancer cells

Peroxisome proliferator-activated receptor gamma (PPARγ) agonists, including thiazolidinediones (TZDs), can induce anti-proliferation, differentiation, and apoptosis in various cancer cell types. This study investigated the mechanism of the anticancer effect of TZDs on human ovarian cancer. Six human ovarian cancer cell lines (NIH:OVCAR3, SKOV3, SNU-251, SNU-8, SNU-840, and 2774) were treated with the TZD, which induced dose-dependent inhibition of cell growth. Additionally, these cell lines exhibited various expression levels of PPARγ protein as revealed by Western blotting. Flow cytometry showed that the cell cycle was arrested at the G1 phase, as demonstrated by the appearance of a sub-G1 peak. This observation was corroborated by the finding of increased levels of Bax, p21, PARP, and cleaved caspase 3 in TGZ-treated cells. Interestingly, when we determined the effect of p53-induced growth inhibition in these three human ovarian cancer cells, we found that they either lacked p53 or contained a mutant form of p53. Furthermore, TGZ induced the expression of endogenous or exogenous p63 and p73 proteins and p63- or p73-directed short hairpin (si) RNAs inhibited the ability of TGZ to regulate expression of p21 in these cells. Thus, our results suggest that PPARγ ligands can induce growth suppression of ovarian cancer cells and mediate p63 and p73 expression, leading to enhanced growth inhibition and apoptosis. The tumor suppressive effects of PPARγ ligands may have applications for the treatment of ovarian cancer.     

Potency and pharmacokinetics of broad spectrum and isoform-specific p110γ and δ inhibitors in cancers

Emerging data on cancer suggesting that target-based therapy is promising strategy in cancer treatment. PI3K-AKT pathway is extensively studied in many cancers; several inhibitors target this pathway in different levels. Recent finding on this pathway uncovered the therapeutic applications of PI3K-specific inhibitors; PI3K, AKT, and mTORC broad spectrum inhibitors. Noticeably, class I PI3K isoforms, p110γ and p110δ catalytic subunits have rational therapeutic application than other isoforms. Therefore, three classes of inhibitors: isoform-specific, dual-specific and broad spectrum were selected for molecular docking and dynamics. First, p110δ structure was modelled; active site was analyzed. Then, molecular docking of each class of inhibitors were studied; the docked complexes were further used in 1.2?ns molecular dynamics simulation to report the potency of each class of inhibitor. Remarkably, both the studies retained the similar kind of protein ligand interactions. GDC-0941, XL-147 (broad spectrum); TG100-115 (dual-specific); and AS-252424, PIK-294 (isoform-specific) were found to be potential inhibitors of p110γ and p110δ, respectively. In addition to that pharmacokinetic properties are within recommended ranges. Finally, molecular phylogeny revealed that p110γ and p110δ are evolutionarily divergent; they probably need separate strategies for drug development.     

P47phox?/? Mice Are Compromised in Expansion and Activation of CD8+ T Cells and Susceptible to Trypanosoma cruzi Infection

Macrophage activation of NAD(P)H oxidase (NOX2) and reactive oxygen species (ROS) is suggested to kill Trypanosoma cruzi that causes Chagas disease. However, the role of NOX2 in generation of protective immunity and whether these mechanisms are deregulated in the event of NOX2 deficiency are not known, and examined in this study. Our data showed that C57BL/6 p47^phox−/− mice (lack NOX2 activity), as compared to wild-type (WT) mice, succumbed within 30 days post-infection (pi) to low doses of T. cruzi and exhibited inability to control tissue parasites. P47^phox−/− bone-marrow and splenic monocytes were not compromised in maturation, phagocytosis and parasite uptake capacity. The deficiency of NOX2 mediated ROS was compensated by higher level of inducible nitric oxide synthase (iNOS) expression, and nitric oxide and inflammatory cytokine (TNF-α, IFN-γ, IL-1β) release by p47^phox−/− macrophages as compared to that noted in WT controls infected by T. cruzi. Splenic activation of Th1 CD4⁺T cells and tissue infiltration of immune cells in T. cruzi infected p47^phox−/− mice were comparable to that noted in infected control mice. However, generation and activation of type 1 CD8⁺T cells was severely compromised in p47^phox−/− mice. In comparison, WT mice exhibited a robust T. cruzi-specific CD8⁺T cell response with type 1 (IFN-γ+TNF-α>IL-4+IL-10), cytolytic effector (CD8⁺CD107a⁺IFN-γ⁺) phenotype. We conclude that NOX2/ROS activity in macrophages signals the development of antigen-specific CD8⁺T cell response. In the event of NOX2 deficiency, a compromised CD8⁺T cell response is generated, leading to increased parasite burden, tissue pathogenesis and mortality in chagasic mice.     

Association of NADPH oxidase p22phox gene C242T, A640G and −930A/G polymorphisms with primary knee osteoarthritis in the Greek population

Osteoarthritis (OA) is the most common form of arthritis with still unknown pathogenic etiology and considerable contribution of genetic factors. Recently, a new emerging role of oxidative stress in the pathology of OA has been reported, lacking however elucidation of the underlying mechanism. Nicotinamide adenine dinucleotide phosphate (NADPH) oxidase being a complex enzyme produced by chondrocytes, presents the major source of reactive oxygen species and main contributor of increased oxidative stress. The present study aims to evaluate the association of NADPH oxidase p22phox gene C242T, A640G and ?A930G polymorphisms with primary knee OA in the Greek population. One hundred fifty five patients with primary symptomatic knee OA participated in the study along with 139 matched controls. Genotypes were determined using polymerase chain reaction and restriction fragment length polymorphism technique. Allelic and genotypic frequencies were compared between both study groups. NADPH p22phox ?A930G polymorphism was significantly associated with knee OA in the crude analysis (P = 0.018). No significant difference was detected for C242T and A640G polymorphisms (P > 0.05). The association between ?A930G polymorphism and knee OA disappeared when the results were adjusted for obesity (P = 0.078, odds ratio 0.54, 95 % CI 0.272–1.071). The interaction between all three polymorphisms was not significant. The present study shows that NADPH oxidase p22phox gene C242T, A640G and ?A930G polymorphisms are not risk factors for knee OA susceptibility in the Greek population. Further studies are needed to give a global view of the importance of this polymorphism in the pathogenesis of OA.     

Cooperation of p40(phox) with p47(phox) for Nox2-based NADPH oxidase activation during Fcγ receptor (FcγR)-mediated phagocytosis: mechanism for acquisition of p40(phox) phosphatidylinositol 3-phosphate (PI(3)P) binding

During activation of the phagocyte (Nox2-based) NADPH oxidase, the cytoplasmic Phox complex (p47(phox)-p67(phox)-p40(phox)) translocates and associates with the membrane-spanning flavocytochrome b(558). It is unclear where (in cytoplasm or on membranes), when (before or after assembly), and how p40(phox) acquires its PI(3)P-binding capabilities. We demonstrated that in addition to conformational changes induced by H(2)O(2) in the cytoplasm, p40(phox) acquires PI(3)P-binding through direct or indirect membrane targeting. We also found that p40(phox) is essential when p47(phox) is partially phosphorylated during FcγR-mediated oxidase activation; however, p40(phox) is less critical when p47(phox) is adequately phosphorylated, using phosphorylation-mimicking mutants in HEK293(Nox2/FcγRIIa) and RAW264.7(p40/p47KD) cells. Moreover, PI binding to p47(phox) is less important when the autoinhibitory PX-PB1 domain interaction in p40(phox) is disrupted or when p40(phox) is targeted to membranes. Furthermore, we suggest that high affinity PI(3)P binding of the p40(phox) PX domain is critical during its accumulation on phagosomes, even when masked by the PB1 domain in the resting state. Thus, in addition to mechanisms for directly acquiring PI(3)P binding in the cytoplasm by H(2)O(2), p40(phox) can acquire PI(3)P binding on targeted membranes in a p47(phox)-dependent manner and functions both as a "carrier" of the cytoplasmic Phox complex to phagosomes and an "adaptor" of oxidase assembly on phagosomes in cooperation with p47(phox), using positive feedback mechanisms.     

优秀长跑运动员NADPH氧化酶p22phox亚基基因多态性分子标记的探讨*

目的:解析NADPH 氧化酶p22^phox(NADPH Oxidase p22phox, CYBA)基因的C242T、A930G和A675T多态位点,探讨用于我国北方汉族优秀长跑运动员分子选材标记的可行性。方法:选取优秀长跑运动员123人作为运动员组,127名中国北方汉族普通大学生为对照组,采用基质辅助激光解吸附电离飞行时间质谱检测技术,对CYBA基因的C242T、A930G和A675T位点进行解析并分析比较。结果:与对照组相比,运动员组A930G和A675T位点的基因型和等位基因频率均无显著性差异(P＞0.05),而C242T位点的TC基因型在5 km/10 km运动员组的分布频率存在显著性差异(P＜0.05)。结论:C242T位点的TC基因型可作为5 km/10 km优秀运动员选材的分子标记。     

Comparison of retroviral p15E-related factors and interferon α in head and neck cancer

Head and neck squamous cell carcinomas (HNscc) produce low-molecular-mass factors (low-M _r factors,M _r25,000), which are antigenically related to the immunosuppressive retroviral transmembrane envelope protein p15E. These P15E-related tumour factors are thought to be responsible for some immunological impairments found in these patients (particularly the defective monocyte chemotaxis). A sequential and functional homology has been reported to exist between a bioactive fragment of interferon (IFN) and the putative immunosuppressive region of retroviral p15E (CKS-17). In this study we investigated (a) a possible functional and structural relationship between p15E and IFN, and (b) the presence of and the relationship between p15E-related low-M _r factors and IFN in HNscc patients. We report the following results. (a) Recombinant human (rhu) IFN was able to inhibit monocyte chemotaxis. (b) The anti-p15E antibodies crossreacted with rhuIFN in a dot-blot technique, however, the anti-IFN antibodies did not crossreact with disrupted murine leukaemia virus (p15E source). (c) Low-M _r factors (n=8–11) prepared from the sera of HNscc patients, which inhibit the monocyte chemotactic responsiveness, could be adsorbed by the anti-p15E antibodies as well as by the anti-IFN antibodies. However, the abilities of the factors to adsorb to the two categories of antibodies (namely, anti-p15E and anti-IFN) did not correlate. (d) Immunohistochemically we found IFN-related epitopes, in almost all HNscc specimens studied (17/18), in locations distinctive from those of p15E-related factors. The anti-IFN antibodies used in this study mainly reacted with basal epithelial cells close to the basal membrane, the prickle and granular cells of the squamous cell carcinomas. The anti-p15E antibodies mainly reacted with corneal layers, the granular and prickle cells, and did not react with basal epithelial cells. Our findings suggest that the immunosuppressive factors produced by HNscc cells are heterogeneous and p15E- and/or IFN-related.     

p38α controls erythroblast enucleation and Rb signaling in stress erythropoiesis

Enucleation of erythroblasts during terminal differentiation is unique to mammals. Although erythroid enucleation has been extensively studied, only a few genes, including retinoblastoma protein (Rb), have been identified to regulate nuclear extrusion. It remains largely undefined by which signaling molecules, the extrinsic stimuli, such as erythropoietin (Epo), are transduced to induce enucleation. Here, we show that p38α, a mitogen-activated protein kinase (MAPK), is required for erythroid enucleation. In an ex vivo differentiation system that contains high Epo levels and mimics stress erythropoiesis, p38α is activated during erythroid differentiation. Loss of p38α completely blocks enucleation of primary erythroblasts. Moreover, p38α regulates erythroblast enucleation in a cell-autonomous manner in vivo during fetal and anemic stress erythropoiesis. Markedly, loss of p38α leads to downregulation of p21, and decreased activation of the p21 target Rb, both of which are important regulators of erythroblast enucleation. This study demonstrates that p38α is a key signaling molecule for erythroblast enucleation during stress erythropoiesis.