TNFR与IL-1R胞外区融合蛋白空间结构的分析

TNF和IL-1是两种重要的炎性细胞因子,在休克、多器官功能衰竭和一些自身免疫性疾病的发生、发展中起着十分重要的作用,抑制它们的活性已经成为这些病理过程和疾病救治中的重要研究内容。目前已有的拮抗TNF和IL-1的方法存在着效果差、时间短等问题。为此,我们拟构建TNFR和IL-1R胞外区的融合蛋白,     

TNFR1-induced activation of the classical NF-κB pathway

The molecular mechanisms underlying activation of the IκB kinase (IKK) complex are presumably best understood in the context of tumor necrosis factor (TNF) receptor-1 (TNFR1) signaling. In fact, it seems that most, if not all, proteins relevant for this process have been identified and extensive biochemical and genetic data are available for the role of these factors in TNF-induced IKK activation. There is evidence that protein modification-independent assembly of a core TNFR1 signaling complex containing TNFR1-associated death domain, receptor interacting kinase?1, TNF receptor-associated factor?2 and cellular inhibitor of apoptosis protein?1 and 2 starts a chain of nondegrading ubiquitination events that culminate in the recruitment and activation of IKK complex-stimulating kinases and the IKK complex itself. Here, we sum up the known details of TNFR1-induced IKK activation, address arising contradictions and discuss possible explanations resolving the apparent discrepancies.     

TNFR1 determines progression of chronic liver injury in the IKKγ/Nemo genetic model

Death receptor-mediated hepatocyte apoptosis is implicated in a wide range of liver diseases including viral and alcoholic hepatitis, ischemia/reperfusion injury, fulminant hepatic failure, cholestatic liver injury, as well as cancer. Deletion of NF-κB essential modulator in hepatocytes (IKKγ/Nemo) causes spontaneous progression of TNF-mediated chronic hepatitis to hepatocellular carcinoma (HCC). Thus, we analyzed the role of death receptors including TNFR1 and TRAIL in the regulation of cell death and the progression of liver injury in IKKγ/Nemo-deleted livers. We crossed hepatocyte-specific IKKγ/Nemo knockout mice (Nemo^Δhepa) with constitutive TNFR1^−/− and TRAIL^−/− mice. Deletion of TNFR1, but not TRAIL, decreased apoptotic cell death, compensatory proliferation, liver fibrogenesis, infiltration of immune cells as well as pro-inflammatory cytokines, and indicators of tumor growth during the progression of chronic liver injury. These events were associated with diminished JNK activation. In contrast, deletion of TNFR1 in bone-marrow-derived cells promoted chronic liver injury. Our data demonstrate that TNF- and not TRAIL signaling determines the progression of IKKγ/Nemo-dependent chronic hepatitis. Additionally, we show that TNFR1 in hepatocytes and immune cells have different roles in chronic liver injury–a finding that has direct implications for treating chronic liver disease.     

Mutants of lymphotoxin-α with augmented cytotoxic activity via TNFR1 for use in cancer therapy

The cytokine lymphotoxin-α (LTα) is a promising candidate for use in cancer therapy. However, the instability of LTα in vivo and the insufficient levels of tumor necrosis factor receptor 1 (TNFR1)-mediated bioactivity of LTα limit its therapeutic potential. Here, we created LTα mutants with increased TNFR1-mediated bioactivity by using a phage display technique. We constructed a phage library displaying lysine-deficient structural variants of LTα with randomized amino acid residues. After affinity panning, we screened three clones of lysine-deficient LTα mutant, and identified a LTα mutant with TNFR1-mediated bioactivity that was 32 times that of the wild-type LTα (wtLTα). When compared with wtLTα, the selected clone showed augmented affinity to TNFR1 due to slow dissociation rather than rapid association. In contrast, the mutant showed only 4 times the TNFR2-mediated activity of wtLTα. In addition, the LTα mutant strongly and rapidly activated caspases that induce TNFR1-mediated cell death, whereas the mutant and wtLTα activated nuclear factor-kappa B to a similar extent. Our data suggest that the kinetics of LTα binding to TNFR1 play an important role in signal transduction patterns, and a TNFR1-selective LTα mutant with augmented bioactivity would be a superior candidate for cancer therapy.     

Deletion of Tumor Necrosis Factor-�� Receptor 1 (TNFR1) Protects against Diet-induced Obesity by Means of Increased Thermogenesis

In diet-induced obesity, hypothalamic and systemic inflammatory factors trigger intracellular mechanisms that lead to resistance to the main adipostatic hormones, leptin and insulin. Tumor necrosis factor-α (TNF-α) is one of the main inflammatory factors produced during this process and its mechanistic role as an inducer of leptin and insulin resistance has been widely investigated. Most of TNF-α inflammatory signals are delivered by TNF receptor 1 (R1); however, the role played by this receptor in the context of obesity-associated inflammation is not completely known. Here, we show that TNFR1 knock-out (TNFR1 KO) mice are protected from diet-induced obesity due to increased thermogenesis. Under standard rodent chow or a high-fat diet, TNFR1 KO gain significantly less body mass despite increased caloric intake. Visceral adiposity and mean adipocyte diameter are reduced and blood concentrations of insulin and leptin are lower. Protection from hypothalamic leptin resistance is evidenced by increased leptin-induced suppression of food intake and preserved activation of leptin signal transduction through JAK2, STAT3, and FOXO1. Under the high-fat diet, TNFR1 KO mice present a significantly increased expression of the thermogenesis-related neurotransmitter, TRH. Further evidence of increased thermogenesis includes increased O₂ consumption in respirometry measurements, increased expressions of UCP1 and UCP3 in brown adipose tissue and skeletal muscle, respectively, and increased O₂ consumption by isolated skeletal muscle fiber mitochondria. This demonstrates that TNF-α signaling through TNFR1 is an important mechanism involved in obesity-associated defective thermogenesis.     

ST6Gal-I regulates macrophage apoptosis via α2-6 sialylation of the TNFR1 death receptor

Macrophages play a central role in innate immunity, however mechanisms regulating macrophage survival are not fully understood. Herein we describe a novel apoptotic pathway involving α2-6 sialylation of the TNFR1 death receptor by the ST6Gal-I sialyltransferase. Variant glycosylation of TNFR1 has not previously been implicated in TNFR1 function, and little is known regarding the TNFR1 glycan composition. To study sialylation in macrophages, we treated U937 monocytic cells with PMA, which stimulates both macrophage differentiation and apoptosis. Interestingly, macrophage differentiation induces ST6Gal-I down-regulation, leading to reduced α2-6 sialylation of selected receptors. To prevent loss of α2-6 sialylation, we forced constitutive expression of ST6Gal-I, and found that this strongly inhibited PMA-induced apoptosis. Given that PMA-mediated apoptosis is thought to result from up-regulation of TNFα, which then activates TNFR1, we next evaluated the α2-6 sialylation of TNFR1. U937 cells with forced ST6Gal-I displayed TNFR1 with elevated α2-6 sialylation, and this was associated with diminished TNFα-stimulated apoptosis. Correspondingly, removal of α2-6 sialylation from TNFR1 through either neuraminidase treatment or expression of ST6Gal-I shRNA markedly enhanced TNFα-mediated apoptosis. To confirm the physiologic importance of TNFR1 sialylation, we generated overexpressing ST6Gal-I transgenic mice. Peritoneal macrophages from transgenic lines displayed TNFR1 with elevated α2-6 sialylation, and these cells were significantly protected against TNFα-stimulated apoptosis. Moreover, greater numbers of thioglycollate-induced peritoneal cells were observed in transgenic mice. These collective results highlight a new mechanism of TNFR1 regulation, and further intimate that loss of α2-6 sialylation during macrophage differentiation may limit macrophage lifespan by sensitizing cells to TNFα-stimulated apoptosis.     

可溶性人TNFR75的表达、纯化及活性鉴定

将编码可溶性人TNFR75 (shTNFR75 )的cDNA与酵母整合载体pPICZαA重组 ,构建的重组质粒线性化后转染酵母细胞GS 115 ,获得了shTNFR75在酵母细胞中遗传性稳定表达酵母工程细胞 .甲醇诱导的pPICZαA shTNFR75 GS115重组酵母工程细胞培养上清 ,经CNBr活化的TNF Sepharose4B亲和层析柱纯化 ,纯化产物纯度为 92 % ;经Western印迹分析 ,可被TNFR75单克隆抗体特异性识别 ,分子量约为 31kD ;受体配体结合试验 ,shTNFR75纯化产物与rhTNFα和rhTNFβ的结合能力与其阳性对照基本相同 ;中和试验显示 ,该shTNFR75可完全阻断TNF对L92 9细胞的细胞毒活性 .表明酵母系统分泌表达的shTNFR75产物具有良好的结合TNF的能力 .     

TNF receptor－associated factor－2 binding site is involved in TNFR75－dependent enhancement of TNFR55－induced cell death

INTRODUCTIONTumor necrosis factor alpha (TNFa) is apleiotropic cytokine that is mainly produced by acti-vated macrophages and lymphocytes[1]. TNFa ini-tiates inflammatory, immune regulatory and patho-physiologic responses by binding to two distinct cellsurface receptors of TR55 (55 kDa) and TR75 (75kDa)[2]. Both receptors belong to TNF receptorsuperfamily because they share 28% homoIogy andcontain 4 conserved cysteine--rich subdomain in theirextracellular regions[3]. It is the uniqu…     

Inhibition of NF-κB signaling interferes with phorbol ester-induced growth arrest of keratinocytes in a TNFR1-independent manner

A skin-specific block in NF-κB signaling leads to hyperproliferation of the keratinocytes, inflammation, and spontaneous development of squamous cell carcinoma (SCC). Here we show that an inhibition of NF-κB signaling in keratinocytes, via the expression of the super-repressor/ degradation-resistant form of the IκBα protein (IκBαDN), interferes with the growth arrest induced by the tumor promoter 12-O-tetradecanoylphorbol 13-acetate (TPA). The IκBαDN cells are able to overcome the TPA-induced cell cycle block. Although SCC development as well as hyperproliferation due to IκBαDN expression in keratinocytes is known to require TNFR1 signaling, the effect of IκBαDN on phorbol ester signaling is downstream/independent of TNFR1. These data thus identify an interaction between IκBαDN and the tumor promoter TPA in the growth regulation of keratinocytes. The proposed mechanism is also likely to be significant in the process of cancer development due to NF-κB inhibition.     

A Role for cGMP in Inducible Nitric-oxide Synthase (iNOS)-induced Tumor Necrosis Factor (TNF) α-converting Enzyme (TACE/ADAM17) Activation,Translocation, and TNF Receptor 1 (TNFR1) Shedding in Hepatocytes

We and others have previously shown that the inducible nitric-oxide synthase (iNOS) and nitric oxide (NO) are hepatoprotective in a number of circumstances, including endotoxemia. In vitro, hepatocytes are protected from tumor necrosis factor (TNF) α-induced apoptosis via cGMP-dependent and cGMP-independent mechanisms. We have shown that the cGMP-dependent protective mechanisms involve the inhibition of death-inducing signaling complex formation. We show here that LPS-induced iNOS expression leads to rapid TNF receptor shedding from the surface of hepatocytes via NO/cGMP/protein kinase G-dependent activation and surface translocation of TNFα-converting enzyme (TACE/ADAM17). The activation of TACE is associated with the up-regulation of iRhom2 as well as the interaction and phosphorylation of TACE and iRhom2, which are also NO/cGMP/protein kinase G-dependent. These findings suggest that one mechanism of iNOS/NO-mediated protection of hepatocytes involves the rapid shedding of TNF receptor 1 to limit TNFα signaling.     

Insulin-like growth factor-binding protein-5 (IGFBP-5) inhibits TNF-α-induced NF-κB activity by binding to TNFR1

IGFBP-5 is known to be involved in various cell phenomena such as proliferation, differentiation, and apoptosis. However, the exact mechanisms by which IGFBP-5 exerts its functions are unclear. In this study, we demonstrate for the first time that IGFBP-5 is a TNFR1-interacting protein. We found that ectopic expression of IGFBP-5 induced TNFR1 gene expression, and that IGFBP-5 interacted with TNFR1 in both an in vivo and an in vitro system. Secreted IGFBP-5 interacted with GST-TNFR1 and this interaction was blocked by TNF-α, demonstrating that IGFBP-5 might be a TNFR1 ligand. Furthermore, conditioned media containing secreted IGFBP-5 inhibited PMA-induced NF-κB activity and IL-6 expression in U-937 cells. Coimmunoprecipitation assays of TNFR1 and IGFBP-5 wild-type and truncation mutants revealed that IGFBP-5 interacts with TNFR1 through its N- and L-domains. However, only the interaction between the L-domain of IGFBP-5 and TNFR1 was blocked by TNF-α in a dose-dependent manner, suggesting that the L-domain of IGFBP-5 can function as a TNFR1 ligand. Competition between the L-domain of IGFBP-5 and TNF-α resulted in inhibition of TNF-α-induced NF-κΒ activity. Taken together, our results suggest that the L-domain of IGFBP-5 is a novel TNFR1 ligand that functions as a competitive TNF-α inhibitor.     

Galangal Pungent Component, 1′-Acetoxychavicol Acetate,Activates TRPA1

We investigated the activation of transient receptor potential cation channel (TRP) subfamily V, member 1 (TRPV1) and TRP subfamily A, member 1 (TRPA1) by 1′-acetoxychavicol acetate (ACA), the main pungent component in galangal. ACA did not activate TRPV1-expressing human embryonic kidney (HEK) cells, but strongly activated TRPA1-expressing HEK cells. ACA was more potent than allyl isothiocyanate, the typical TRPA1 agonist.     

质量—数量性状遗传参数估计的P1,P2,F1,B1,B2联合分析方法

提出利用亲本Ｐ_１和Ｐ_２、杂种Ｆ_１、回交Ｂ_１和Ｂ_１五个世代联合分析包括两个位点主基因控制的质量－数量性状遗传的统计方法,共建立了可供选择的微基因遗传、一对主基因＋微基因混合遗传、二对主基因＋微基因混合遗传三类五种（套）共 ２８个遗传模型,采用 ＡＩＣ信息准则选择最适模型,并通过适合性检验对所选择的遗传模型做进一步的检验．文章最后还讨论了两种变型设计．     

淋巴囊肿病毒中国株TNFR类似物的原核表达与结构分析

肿瘤坏死因子受体(TNFR)是细胞因子受体家族中的一员,在大DNA病毒的免疫逃避中起着重要的作用。 淋巴囊肿病毒中国株(LCDV-C)是一种大DNA病毒,属于虹彩病毒科。参照已知虹彩病毒TNFR基因设计引物: P1,5′GGATCCAAAACTATGATTAAAATAAAGA 3′;P2:5′ATTACTCGAGAATGTTAAAAATTAAGCTT 3′。以LCDV-C基因组DNA为模板,PCR扩增得到一个834bp的DNA片段,并对该片段进行测序。构建原核表 达重组质粒后,在大肠杆菌DE3中诱导表达,其产物经SDS-PAGE电泳后,显示为45kDa的融合蛋白带。对测序 结果进行计算机辅助分析的结果显示,LCDV-C TNFR类似物是一个含278个氨基酸的多肽,具有典型的半胱氨 酸富集区功能结构域,与宿主牙鲆TNFRII氨基酸同源性为34％。     

淋巴囊肿病毒中国株TNFR类似物的原核表达与结构分析

肿瘤坏死因子受体(TNFR)是细胞因子受体家族中的一员,在大DNA病毒的免疫逃避中起着重要的作用.淋巴囊肿病毒中国株(LCDV-C)是一种大DNA病毒,属于虹彩病毒科.参照已知虹彩病毒TNFR基因设计引物P1,5'GGATCCAAAACTATGATTAAAATAAAGA 3';P25'ATTACTCGAGAATGTTAAAAATTAAGCTT3'.以LCDV-C基因组DNA为模板,PCR扩增得到一个834bp的DNA片段,并对该片段进行测序.构建原核表达重组质粒后,在大肠杆菌DE3中诱导表达,其产物经SDS-PAGE电泳后,显示为45kDa的融合蛋白带.对测序结果进行计算机辅助分析的结果显示,LCDV-C TNFR类似物是一个含278个氨基酸的多肽,具有典型的半胱氨酸富集区功能结构域,与宿主牙鲆TNERII氨基酸同源性为34%.     

Co-stimulatory members of the TNFR family: keys to effective T-cell immunity?

Interactions between co-stimulatory ligands and their receptors are crucial for the activation of T cells, the prevention of tolerance and the development of T-cell immunity. It is now evident that members of the immunoglobulin-like CD28-B7 co-stimulatory family cannot fully account for an effective long-lasting T-cell response or the generation of memory T cells. Several members of the tumour-necrosis factor receptor (TNFR) superfamily--OX40, 4-1BB, CD27, CD30 and HVEM (herpes-virus entry mediator)--are poised to deliver co-stimulatory signals both early and late after encounter with antigen. The roles of these molecules in initiating and sustaining the T-cell response and in promoting long-lived immunity are discussed.     

潘庆民1,于振文2,王月福2

采用盆栽和水泥池栽研究了追氮时期对小麦光合作用、14C同化物运转分配和硝酸还原酶(NR)活性的影响.结果表明,拔节(雌雄蕊原基形成)期较起身(二棱)期追施氮肥,显著提高了小麦开花后的旗叶叶绿素含量和单叶光合速率;灌浆期旗叶14C同化物向籽粒转移比例显著提高,而在营养器官的滞留比例显著降低;旗叶和根系中硝酸还原酶(NR)活性亦显著提高.小麦穗粒数、粒重和产量增加,蛋白质含量提高.