The Fas/Fas Ligand Death Receptor Pathway Contributes to Phenylalanine-Induced Apoptosis in Cortical Neurons

Phenylketonuria (PKU), an autosomal recessive disorder of amino acid metabolism caused by mutations in the phenylalanine hydroxylase (PAH) gene, leads to childhood mental retardation by exposing neurons to cytotoxic levels of phenylalanine (Phe). A recent study showed that the mitochondria-mediated (intrinsic) apoptotic pathway is involved in Phe-induced apoptosis in cultured cortical neurons, but it is not known if the death receptor (extrinsic) apoptotic pathway and endoplasmic reticulum (ER) stress-associated apoptosis also contribute to neurodegeneration in PKU. To answer this question, we used specific inhibitors to block each apoptotic pathway in cortical neurons under neurotoxic levels of Phe. The caspase-8 inhibitor Z-IETD-FMK strongly attenuated apoptosis in Phe-treated neurons (0.9 mM, 18 h), suggesting involvement of the Fas receptor (FasR)-mediated cell death receptor pathway in Phe toxicity. In addition, Phe significantly increased cell surface Fas expression and formation of the Fas/FasL complex. Blocking Fas/FasL signaling using an anti-Fas antibody markedly inhibited apoptosis caused by Phe. In contrast, blocking the ER stress-induced cell death pathway with salubrinal had no effect on apoptosis in Phe-treated cortical neurons. These experiments demonstrate that the Fas death receptor pathway contributes to Phe-induced apoptosis and suggest that inhibition of the death receptor pathway may be a novel target for neuroprotection in PKU patients.     

Osteoprotegerin Induces Apoptosis of Osteoclasts and Osteoclast Precursor Cells via the Fas/Fas Ligand Pathway

Osteoprotegerin (OPG) is known to inhibit differentiation and activation of osteoclasts (OCs) by functioning as a decoy receptor blocking interactions between RANK and RANKL. However, the exact role of OPG in the survival/apoptosis of OCs remains unclear. OPG caused increased rates of apoptosis of both OCs and osteoclast precursor cells (OPCs). The expression of Fas and activated caspase-8 was increased by both 20 ng/mL and 40 ng/mL of OPG, but was markedly decreased at 80 ng/mL. Interestingly, we noted that while levels of Fas ligand (FasL) increased with increasing doses of OPG, the soluble form of FasL in the supernatant decreased. The results of a co-immunoprecipitation assay suggested that the decrease of sFasL might be caused by the binding of OPG. This would block the inhibition of the apoptosis of OCs and OPCs. Furthermore, changes in expression levels of Bax/Bcl-2, cleaved-caspase-9, cleaved-caspased-3 and the translocation of cytochrome c, illustrated that OPG induced apoptosis of OCs and OPCs via the classic Fas/FasL apoptosis pathway, and was mediated by mitochondria. Altogether, our results demonstrate that OPG induces OCs and OPCs apoptosis partly by the Fas/FasL signaling pathway.     

UV-Induced Apoptosis in Resistant HeLa Cells

Recently, apoptosis (genetically programmed cell death) induced by UV hasbeen documented in some cell culture models. However, the significance ofapoptosis in UV-induced cytotoxicity and resistance is uncertain. In thisstudy, we investigated the induction of apoptosis in HeLa cells and itsrole in acquired UV-resistance. The membrane receptor Fas was induced toassembly, and its immediate downstream target, caspase-8, was induced byUV in a dose- and time-dependent manner. Caspase-10, another possiblecandidate for forming the death-inducing signaling complex with Fas, wasalso activated in a dose- and time-dependent manner. There was significantactivation of caspase 9, 3 and 2 by UV. The apoptotic pathways appeared tobe normal in acquired UV-resistant HeLa cells. In addition, there was a UVdose-dependent induction of chromatin condensation in both parental andUV-resistant cells. However, resistant cells displayed significant reductionin chromatin condensation at lower doses. Inhibition of caspase-3 activation byspecific inhibitor significantly reduced the chromatin condensation in bothcell types, and unexpectedly, the difference between the two cell lines wascompletely eradicated, suggesting that the caspase-3 pathway plays asignificant role in reducing apoptosis in resistant cells. The resultsindicate that UV induces apoptosis by direct activation of apoptoticproteins in HeLa and resistant cells. Although resistant cells displayedpartial inhibition of UV-induced apoptosis through the caspase-3 pathway,there was no consistent difference in the activation of this and relatedcaspase-9 caspases compared to parental HeLa cells.     

人重组Fas配体体外诱导细胞周期特异性凋亡模型的建立及其意义

以Molt-4、Jurkat细胞株和外周血淋巴细胞(peripheralbloodlymphocyte,PBL)为靶细胞,检测细胞膜上Fas的表达。人重组Fas配体(recombinanthumanFasligand,rhFasL)诱导细胞6～36h后用改良后的API等方法检测细胞凋亡及诱导凋亡过程中细胞周期蛋白的变化,探讨Fas介导的细胞凋亡与细胞周期的关系。结果显示:rhFasL诱导Molt-4、Jurkat细胞株和植物血凝素刺激进入细胞周期的PBL的凋亡具有细胞周期特异性并始动于G1期;而G0期PBL的细胞膜上虽然也有Fas的表达,但不能诱导细胞凋亡。研究还发现rhFasL诱导细胞凋亡时G1期的细胞周期蛋白D3明显升高,细胞周期蛋白E明显下降。以上结果表明rhFasL体外诱导的细胞凋亡发生在晚G1期,细胞凋亡的发生与细胞是否通过限制点进入细胞周期有关,细胞凋亡发生于晚G1期是G1期细胞周期蛋白E的下降和检测点的监督导致DNA受损的细胞不能通过G1/S交界的结果。     

利用盘基网柄菌表达可溶性人Fas配体

用PCR扩增从激活的人中性粒细胞中得到的编码可溶性Fas配体胞外区中第141个到第281个氨基酸的cDNA ,将其与hCG-β信号肽片段融合到质粒MB12neo中,随后导入到盘基网柄菌AX3细胞中,得到分泌性表达hFasL的重组菌AX3-H3。为提高shFasL的表达量,对质粒pMB12neo作了改造,得到衍生质粒pMB74。利用质粒pMB74克隆表达shFasL ,得到高通量表达shFasL的重组菌AX3_pLu8。在复杂培养基HL_5C中,重组菌的细胞密度可达(1.5～2 )×10⁷ mL ,AX3-H3及AX3_pLu8分泌的shFasL浓度分别为23.5 μg/L及206μg/L。利用合成培养基SIH培养重组菌AX3-H3及AX3-pLu8,细胞密度均达到(4～5)×10⁷m/L ,shFasL浓度则分别达到111μg/L和420μg/L。     

The TRPV4 Channel Contributes to Intercellular Junction Formation in Keratinocytes

Transient receptor potential vanilloid 4 (TRPV4) channel is a physiological sensor for hypo-osmolarity, mechanical deformation, and warm temperature. The channel activation leads to various cellular effects involving Ca²⁺ dynamics. We found that TRPV4 interacts with β-catenin, a crucial component linking adherens junctions and the actin cytoskeleton, thereby enhancing cell-cell junction development and formation of the tight barrier between skin keratinocytes. TRPV4-deficient mice displayed impairment of the intercellular junction-dependent barrier function in the skin. In TRPV4-deficient keratinocytes, extracellular Ca²⁺-induced actin rearrangement and stratification were delayed following significant reduction in cytosolic Ca²⁺ increase and small GTPase Rho activation. TRPV4 protein located where the cell-cell junctions are formed, and the channel deficiency caused abnormal cell-cell junction structures, resulting in higher intercellular permeability in vitro. Our results suggest a novel role for TRPV4 in the development and maturation of cell-cell junctions in epithelia of the skin.     

Alkannin,HSP70 Inducer,Protects against UVB-Induced Apoptosis in Human Keratinocytes

Alkannin is an active constituent from the root extract of Alkanna tinctoria of the Boraginaceae family and it may have utility as a heat shock protein 70 (HSP70) inducer in living organisms. Here, the effects of alkannin-induced HSP70 on ultraviolet (UV) B (40 mJ/cm²)-induced apoptosis were investigated in human keratinocyte HaCaT cells. Pretreatment of cells with alkannin (1 µM) caused significant inhibition of UVB-induced apoptosis and caspase-3 cleavage. On the other hand, the addition of KNK437 (HSP70 inhibitor) reversed the action of alkannin increasing UVB-induced apoptosis in a dose-dependent manner. In addition, differences in gene expression associated with the suppression of UVB-induced apoptosis in the presence of alkannin were investigated using Gene Chip assay. Our results indicate that alkannin suppresses UVB-induced apoptosis through the induction of HSP70 in human keratinocytes, and therefore, we suggest the usefulness of using alkannin as an antiaging agent.     

Fas与FasL的分子生物学研究进展

Fas是细胞表面诱导凋亡的分子,是I型膜蛋白,属TNF受体家族成员。而Fas配体（FasL)是Ⅱ型膜蛋白,属TNF家族成员。Fas与FasL结合,可向细胞传递死亡信号,引发细胞凋亡。Fas在人体中表达及功能正常与否,对人体免疫调控起重要作用。     

E5 Protein of Human Papillomavirus Type 16 Protects Human Foreskin Keratinocytes from UV B-Irradiation-Induced Apoptosis

The human papillomavirus type 16 (HPV16) E5 protein associates with the epidermal growth factor receptor (EGFR) and enhances the activation of the EGFR after stimulation by EGF in human keratinocytes. Phosphatidylinositol 3-kinase (PI3K) and ERK1/2 mitogen-activated protein kinase (ERK1/2 MAPK), two signal molecules downstream of the EGFR, have been recognized as participants in two survival signal pathways in response to stress. The fact that E5 can enhance EGFR activation suggests that E5 might act as a survival factor. To test this hypothesis, the apoptotic response of UV B-irradiated primary keratinocytes infected with either control retrovirus, LXSN, or HPV16 2E5-expressing recombinant retrovirus was quantitated. Under the same conditions, LXSN-infected cells showed extensive apoptosis, while E5-expressing cells demonstrated a significant reduction in UV B-irradiation-induced apoptosis. The E5-mediated protection against apoptosis was blocked by wortmannin and PD98059, specific inhibitors of the PI3K and ERK1/2 MAPK pathways, respectively, suggesting that the PI3K and ERK1/2 MAPK pathways are involved in this process. Western blot analysis showed that Akt (also named protein kinase B), which is a downstream effector of PI3K, and ERK1/2 MAPK were activated by EGF. When cells were stimulated by EGF and irradiated by UV B, the levels of phospho-Akt and phospho-ERK1/2 activated by EGF in E5-expressing cells were about twofold greater than those in LXSN-infected cells. Two other UV-activated stress pathways, p38 and JNK, were activated to the same level during UV B irradiation in both LXSN-infected cells and E5-expressing cells, indicating that E5 protein did not affect these two pathways. After UV B irradiation, p53 was activated in both LXSN-infected cells and E5-expressing cells, and cell cycle analysis showed that nearly all cells in both cell populations were growth arrested. These data suggest that unlike HPV16 E6, which blocks apoptosis by inactivation of p53, HPV16 E5 protects cells from apoptosis by enhancing the PI3K-Akt and ERK1/2 MAPK signal pathways.     

Adhesion of Human Epidermal Keratinocytes to Laminin

We have examined the mechanism by which human epidermal keratinocytes adhere to the A/B1/B2 (α₁β₁γ₁) form of laminin. Adhesion could be completely inhibited with an antibody to the β₁ integrin subunit or a combination of antibodies recognising the α₂β₂ a₃β₁ and α₆β₄ integrins. Keratinocytes adhered in the presence of magnesium and manganese ions, but calcium ions did not support adhesion and inhibited adhesion when combined with magnesium and manganese. The effects of anti-integrin antibodies (including a stimulatory antibody to the β₁ subunit) were not influenced by specific cations, with the exception that inhibition by an antibody to α₂β₁ was abrogated by the presence of manganese ions. The E3 and E8 proteolytic fragments of laminin did not support keratinocyte adhesion and heat inactivation of the E8 site in intact laminin did not reduce adhesion. Three laminin fragments that did support adhesion were P1, E4 and E1X-Nd, P1 activity being attributable at least in part to the RGD site; antibody blocking experiments suggested that adhesion to these fragments was primarily via α₁β₃. The synthetic peptide GD-6, derived from the carboxy terminus of the laminin A chain (included within E3) did support adhesion, but the significance of this observation is unclear, since a scrambled control peptide could also support adhesion. In conclusion, keratinocyte adhesion to A/B1/B2 laminin involves three integrins and multiple binding sites that are different from those defined previously.     

白色念珠菌对人口腔黏膜上皮角质细胞凋亡和增殖的影响

目的:探索白色念珠菌对人口腔黏膜上皮角质细胞(KB细胞)凋亡和增殖的影响。方法:分别培养孢子型白色念珠菌和菌丝型白色念珠菌,取健康志愿者的颊粘膜制备KB细胞,分别加入孢子型白色念珠菌(孢子组)和菌丝型白色念珠菌(菌丝组),另外取单纯KB细胞作为对照组。对比分析各组细胞凋亡率及各个周期的细胞数,统计分析各组细胞增殖指数(PI)。结果:菌丝组凋亡率显著高于对照组及孢子组(P0.05);菌丝组在G0/G1期的细胞比例均显著低于对照组及孢子组(P0.05);菌丝组在S期和G2/M期的细胞比例均显著高于对照组及孢子组(P0.05);菌丝组的PI显著高于孢子组和对照组(P0.05)。结论:菌丝型白色念珠菌可诱导KB细胞凋亡率的上升及改变KB细胞周期变化,并引起KB细胞的PI升高,对于临床上治疗口腔念珠菌病具有重要的指导意义。     

Mechanism of UV-Induced Apoptosis in Human Leukemia Cells: Roles of Ca/Mg-Dependent Endonuclease, Caspase-3, and Stress-Activated Protein Kinases

Ultraviolet light (UV) induced rapid apoptosis of U937 leukemia cells, concurrent with DNA fragmentation and cleavage of poly(ADP-ribose)polymerase (PARP) by activated caspase-3. Thein vitroreconstitution of intact HeLa S3 nuclei and apoptotic U937 cytosolic extract (CE) revealed that (i) Ca²⁺/Mg²⁺-dependent, Zn²⁺-sensitive endonuclease activated in the apoptotic CE induced DNA ladder in HeLa nuclei at pH 6.8–7.4, (ii) activated caspase-3 cleaved PARP in HeLa nuclei, and (iii) when the apoptotic CE was treated with the caspase-3 inhibitor (1 μM Ac-DEVD-CHO) or the caspase-1 inhibitor (10 μM Ac-YVAD-CHO), the former, but not the latter, caused a 50% inhibition of DNA fragmentation and the complete inhibition of PARP cleavage in HeLa nuclei. Similarly, Ac-DEVD-CHO (100 μM) inhibited apoptosis and DNA ladder by 50% and PARP cleavage completely in UV-irradiated U937 cells, but Ac-YVAD-CHO (100 μM) did not. Thus, UV-induced apoptosis of U937 cells involves the Ca²⁺/Mg²⁺-dependent endonuclease pathway and the caspase-3–PARP cleavage–Ca²⁺/Mg²⁺-dependent endonuclease pathway. The former pathway produced directly 50% of apoptotic DNA ladder, and the latter involved activated caspase-3 and PARP cleavage, followed by formation of the remaining 50% DNA ladder by the activated endonuclease. In UV-irradiated B-cell lines, further, p53-dependent increase of Bax resulted in a greater caspase-3 activation compared to its absence. However, UV-induced activation of JNK1 and p38 was not affected by the caspase-1 and -3 inhibitors in U937 cells, so that caspases-1 and -3 do not function upstream of JNK1 and p38.     

Expression of Inducible Nitric Oxide Synthase and Fas/Fas Ligand Correlates with the Incidence of Apoptotic Cell Death in Atheromatous Plaques of Human Coronary Arteries

It was recently reported that inducible nitric oxide synthase was expressed in advanced atheromatous plaques. So we investigated the effect of NO or peroxynitrite reactive product of NO or O(2)(-) released by iNOS induced in macrophages or T lymphocytes on inflammatory cells in atheromatous plaques of human coronary arteries by immunohistochemistry. We found that iNOS was expressed in T lymphocytes and macrophages in T lymphocytes and macrophages coexisted advanced atheromatous areas. Most of the smooth muscle cells are not coexisted with T lymphocytes. We could not find iNOS in those smooth muscle cells. Only a small number of iNOS-positive smooth muscle cells were found close to T lymphocytes and macrophages. Markers for apoptotic cells induced in situ terminal deoxynucleotidyl transferase-mediated dUTP nick end labeling (TUNEL) showed that many apoptotic T lymphocytes and macrophages existed near iNOS induced cells. Fas and Fas ligand were expressed in almost same areas that iNOS was expressed. By double-label immunostaining, Fas was expressed in T lymphocytes but Fas ligand was expressed in macrophages and in some T lymphocytes. These results suggest that NO from iNOS induces Fas and Fas ligand-mediated apoptosis and associates with regression of atherosclerosis. On the other hand, nitrotyrosine was detected wider areas than iNOS. So peroxynitrite from iNOS damages cells and tissues widely and may associate with progression of atherosclerosis. These results suggest an important role of iNOS in mediating both regressive changes and progressive change in atheromatous plaques.     

Human Telomeres Are Hypersensitive to UV-Induced DNA Damage and Refractory to Repair

Telomeric repeats preserve genome integrity by stabilizing chromosomes, a function that appears to be important for both cancer and aging. In view of this critical role in genomic integrity, the telomere''s own integrity should be of paramount importance to the cell. Ultraviolet light (UV), the preeminent risk factor in skin cancer development, induces mainly cyclobutane pyrimidine dimers (CPD) which are both mutagenic and lethal. The human telomeric repeat unit (5′TTAGGG/CCCTAA3′) is nearly optimal for acquiring UV-induced CPD, which form at dipyrimidine sites. We developed a ChIP–based technique, immunoprecipitation of DNA damage (IPoD), to simultaneously study DNA damage and repair in the telomere and in the coding regions of p53, 28S rDNA, and mitochondrial DNA. We find that human telomeres in vivo are 7-fold hypersensitive to UV-induced DNA damage. In double-stranded oligonucleotides, this hypersensitivity is a property of both telomeric and non-telomeric repeats; in a series of telomeric repeat oligonucleotides, a phase change conferring UV-sensitivity occurs above 4 repeats. Furthermore, CPD removal in the telomere is almost absent, matching the rate in mitochondria known to lack nucleotide excision repair. Cells containing persistent high levels of telomeric CPDs nevertheless proliferate, and chronic UV irradiation of cells does not accelerate telomere shortening. Telomeres are therefore unique in at least three respects: their biophysical UV sensitivity, their prevention of excision repair, and their tolerance of unrepaired lesions. Utilizing a lesion-tolerance strategy rather than repair would prevent double-strand breaks at closely-opposed excision repair sites on opposite strands of a damage-hypersensitive repeat.     

lncRNA与miRNA相互调控作用及其与肿瘤的关系研究

长链非编码RNA (long non-coding RNA,lncRNA)是一类转录本长度大于200 bp的非编码RNA,可作为人类基因组中一类重要的调控分子通过多种方式发挥其生物学功能.近年来的研究表明,lncRNA也可以作为一种竞争性内源性RNA (competing endogenous RNA, ceRNA) 与miRNA相互作用,参与靶基因的表达调控,并在肿瘤的发生发展中发挥重要的作用.本综述在简要介绍lncRNA功能研究现状和主要研究方法的基础上,进一步分析了lncRNA与miRNA之间的互相调控关系及其在肿瘤发生发展中的作用,以便为后续的研究提供新的思路.     

肿瘤坏死因子相关的凋亡诱导配体(TRAIL)cDNA的克隆与表达

肿瘤坏死因子相关凋亡诱导配体（ｔｕｍｏｒｎｅｃｒｏｓｉｓｆａｃｔｏｒｒｅｌａｔｅｄａｐｏｐｔｏｓｉｓｉｎｄｕｃｉｎｇｌｉｇａｎｄ,ＴＲＡＩＬ）是新近发现的肿瘤坏死因子家族成员,亦称凋亡素２配体（Ａｐｏ２ｌｉｇａｎｄ,Ａｐｏ２Ｌ）［１,２］．由于ＴＮＦ参与机体的免疫调节和炎症反应,并发挥细胞毒作用,因而为世人所瞩目［３,４］．研究表明,ＴＲＡＩＬ与ＴＮＦ和Ｆａｓ／Ａｐｏ１配体一样,为典型的Ⅱ型跨膜蛋白,Ｃ端细胞外区域形成同源三聚体的亚结构,而Ｎ端１５～４０氨基酸为疏水区域并形成跨膜结…     

Curcumin Induces Apoptosis in Human Melanoma Cells through a Fas Receptor/Caspase-8 Pathway Independent of p53

In this study, we investigated the molecular pathways targeted by curcumin during apoptosis of human melanoma cell lines. We found that curcumin caused cell death in eight melanoma cell lines, four with wild-type and four with mutant p53. We demonstrate that curcumin-induced apoptosis is both dose- and time-dependent. We found that curcumin did not induce p53, suggesting that curcumin activates other apoptosis pathways. Our data show that curcumin activates caspases-3 and -8 but not caspase-9, supporting the rationale that apoptosis occurs via a membrane-mediated mechanism. Both a caspase-8 and broad-based caspase inhibitor, but not a caspase-9 specific inhibitor, suppressed curcumin-induced cell death. To further support our hypothesis that curcumin induces activation of a death receptor pathway, we show that curcumin induces Fas receptor aggregation in a FasL-independent manner and that low-temperature incubation, previously shown to inhibit receptor aggregation, prevented curcumin-induced cell death. Moreover, we demonstrate that expression of dominant negative FADD significantly inhibited curcumin-induced cell death. In addition, our results indicate that curcumin also blocks the NF-kappaB cell survival pathway and suppresses the apoptotic inhibitor, XIAP. Since melanoma cells with mutant p53 are strongly resistant to conventional chemotherapy, curcumin may overcome the chemoresistance of these cells and provide potential new avenues for treatment.