潮霉素抗性3T3细胞的建立和鉴定

目的　建立具有潮霉素 (hygromycin)抗性的 3T3细胞系 ,用于转染目的基因 (pTRE Ins human)的ES阳性细胞克隆筛选的饲养层。方法　通过脂质体转染的方法 ,将含有潮霉素B磷酸转移酶基因的质粒pHyg导入 3T3细胞中 ,利用潮霉素的药物选择特性 ,对转染细胞进行压力筛选 ,并对其进行PCR鉴定。结果　经 5 0 0 μg ml的潮霉素压力筛选后 ,获得了抗性细胞克隆。抗性 3T3细胞的形态和生长速度与正常 3T3细胞没有差异 ,特异性核苷酸引物检测抗性细胞基因组DNA ,可以扩增出对应的核苷酸片段。结论　成功地培育了潮霉素抗性的 3T3细胞 ,为进行目的基因 (pTRE Ins human)转染ES细胞的阳性细胞克隆筛选奠定了基础。     

The separation of functionally distinct forms of the third component of human complement (C3).

Complement component C3 prepared by the method of Tack & Prahl [(1976) Biochemistry 15, 4513-4521] was found to contain the following trace contaminants: C3b, haemolytically inactive C3 with intact alpha- and beta-chains (C3u) and degraded C3 (apparent mol.wt. 140000) with an intact beta-chain but with a fragmented alpha-chain. The proportion of C3u in the C3 is increased on standing and by freezing and thawing. These contaminants could be separated from each other and from native C3 by chromatography on sulphated Sepharose. They have been characterized by their susceptibility to C3b inactivator in the presence of beta 1H, their ability to be cleaved by C3 convertase and their ability to form alternative-pathway C3 convertase in solution. Incubation of C3b or C3u with beta 1H and C3b inactivator resulted in cleavage of the C3 species; the alpha'-chain of C3b was cleaved to fragments of apparent mol.wts. 67000 and 43000, the alpha-chain of C3u was cleaved to fragments of apparent mol.wt. 75000 and 43000. Native C3 and degraded C3 were unaffected by incubation with beta 1H and C3b inactivator. C3u, unlike C3, was not cleaved to C3b by the classical- or alternative-pathway C3 convertase in solution. When C3b or C3 was incubated with factors B and D, forming C3 convertase, the initial rate of factor-B cleavage was several order of magnitude lower in the presence of C3 than in the presence of C3b. The slow rate observed for C3 could be decreased by preincubation with beta 1H and C3b inactivator or by rechromatography of the C3. The degraded C3 did not support factor-B cleavage by factor D.     

Metabolic engineering of Alcaligenes eutrophus through the transformation of cloned phbCAB genes for the investigation of the regulatory mechanism of polyhydroxyalkanoate biosynthesis

The regulatory mechanisms of the biosynthesis of in vivo poly-beta-hydroxybutyrate [PHB] and poly(3-hydroxybutyrate-3-hydroxyvalerate) [P(3HB-3HV)] of Alcaligenes eutrophus were investigated by using various transformants with enzyme activities that were modified through the transformation of cloned phbCAB genes. The biosynthesis rates of PHB and P(3HB-3HV) were controlled by beta-ketothiolase and acetoacetyl-CoA reductase, and especially by beta-ketothiolase condensing acetyl-CoA or propionyl-CoA. The contents of PHB and P(3HB-3HV) were controlled by PHB synthase, polymerizing 3-hydroxybutyrate to PHB or 3-hydroxybutyrate and 3-hydroxyvalerate to P(3HB-3HV). The molar fraction of 3-hydroxyvalerate in P(3HB-3HV) was also closely connected with PHB synthase. This may be due to the accelerated polymerization between 3-HB from glycolysis pathway and 3-HV converted from propionate supplied as precursor. Enforced beta-ketothiolase and acetoacetyl-CoA reductase to PHB synthase tended to enlarge the size of the PHB and P(3HB-3HV) granules, however, higher activity ratio of PHB synthase to beta-ketothiolase and acetoacetyl-CoA reductase than parent strain tended to induce the number of granules.     

Mitochondrial metabolism of 3-mercaptopropionic acid. Chemical synthesis of 3-mercaptopropionyl coenzyme A and some of its S-acyl derivatives

The metabolism of 3-mercaptopropionic acid in mitochondria was studied by use of purified mitochondrial enzymes and rat heart mitochondria. Metabolites of 3-mercaptopropionic acid were separated by high performance liquid chromatography and identified by comparing them with chemically synthesized derivatives of 3-mercaptopropionic acid. The initial step in the metabolism of 3-mercaptopropionic acid is its conversion to a CoA thioester, most likely catalyzed by medium-chain acyl-CoA synthetase. The resulting 3-mercaptopropionyl-CoA is a poor substrate of acyl-CoA dehydrogenase but substitutes effectively for CoASH in reactions catalyzed by 3-ketoacyl-CoA thiolase and acetoacetyl-CoA thiolase. S-Acyl-3-mercaptopropionyl-CoA thioesters formed in the thiolase-catalyzed reactions are not at all or only poorly acted upon by acyl-CoA dehydrogenases. However, they are hydrolyzed by thioesterase(s) to CoASH and S-acyl-3-mercaptopropionic acid. The hydrolysis of S-acyl-3-mercaptopropionyl-CoA thioesters proceeds more rapidly than the hydrolysis of fatty acyl-CoA thioesters of comparable chain lengths. Free CoASH is also regenerated from S-acetyl-3-mercaptopropionyl-CoA and more rapidly from 3-mercaptopropionyl-CoA as a result of their reactions with carnitine catalyzed by carnitine acetyltransferase. These findings lead to the suggestion that the major mitochondrial CoA-containing metabolites of 3-mercaptopropionic acid are S-acyl-3-mercaptopropionyl-CoA thioesters.     

Involvement of oxidoreductive reactions of intracellular haemoglobin in the metabolism of 3-hydroxyanthranilic acid in human erythrocytes.

3-Hydroxyanthranilic acid, a metabolite of tryptophan, was rapidly metabolized by human erythrocytes. The final product was determined to be cinnabarinic acid as detected by spectrophotometry, paper chromatography and t.l.c. The formation of cinnabarinic acid from 3-hydroxyanthranilic acid in the cells was markedly inhibited by CO when intracellular haemoglobin was in a ferrous state, and by cyanide when it was in a ferric state. Ferrous haemoglobin in erythrocytes was oxidized to (alpha 3+ beta 2+)2, (alpha 2+ beta 3+)2 and (alpha 3+ beta 3+)2 by 3-hydroxyanthranilic acid, and the oxidation rates were very high, like those of cinnabarinic acid formation, suggesting that the metabolism of 3-hydroxyanthranilic acid is coupled with oxidoreductive reactions of intracellular haemoglobin. This view was further confirmed by the findings that 3-hydroxyanthranilic acid was metabolized by ferrous or ferric haemoglobin and that ferrous and ferric haemoglobins were oxidized and reduced by the compound respectively. The significance of the metabolism of 3-hydroxyanthranilic acid and the oxidoreductive reactions of haemoglobin with this compound may be associated with the pathological conditions with increased 3-hydroxyanthranilic acid levels in the blood of diabetic subjects.     

粤辅3号提高水稻幼苗对赤霉素的吸收和利用

与ＧＡ３单独处理相比,ＧＡ３与表面活性剂粤辅３号（ＹＦ３）混合使用,可降低ＧＡ３的表面张力及其受雨水冲刷程度,部分地溶解叶表面的硅质、蜡质和角质,使秧苗对ＧＡ３的吸附量增加３～５倍,吸收量加１～３倍;增加水稻幼苗的株高６７％。     

人FOXO3a基因真核表达载体的构建及其功能验证

目的:构建带myc标签的人FOXO3a基因真核表达载体,并对其功能进行初步检测。方法:采用PCR技术,从乳腺文库中扩增人FOXO3a基因,并将其正确插入pXJ-40-myc载体;将重组质粒与空载体分别转染人乳腺癌细胞系ZR75-1、MCF-7后,通过Western印迹检测其表达情况,并用CCK8法测定细胞生长曲线。结果:双酶切和测序鉴定表明myc-FOXO3a真核表达质粒构建成功,转染乳腺癌ZR75-1、MCF-7细胞后目的基因成功表达;细胞生长曲线结果显示,转染myc-FOXO3a的乳腺癌细胞较空载体细胞生长较慢。结论:构建了带myc标签的人FOXO3a基因真核表达载体,为进一步研究FOXO3a在乳腺癌中的功能奠定了基础。     

Ser9 phosphorylation of mitochondrial GSK-3beta is a primary mechanism of cardiomyocyte protection by erythropoietin against oxidant-induced apoptosis

The aim of this study was to determine the role of GSK-3beta in cardiomyocyte protection afforded by erythropoietin (EPO) against oxidant stress-induced apoptosis. Treatment with EPO (10 units/ml) induced Ser473 phosphorylation of Akt and Ser9 phosphorylation of GSK-3beta and significantly reduced the proportion of apoptotic H9c2 cardiomyocytes after exposure to H2O2 from 38.3 +/- 2.7% to 26.0 +/- 2.9%. This protection was not detected in cells transfected with constitutively active GSK-3beta (S9A), which lacks Ser9 for inhibitory phosphorylation. The antiapoptotic effect of EPO was mimicked completely by GSK-3beta knockdown using small interfering RNA and partly by the transfection with kinase-deficient GSK-3beta (K85R). The level of colocalization of intracellular GSK-3beta with mitochondria assessed by enhanced green fluorescent protein-tagged GSK-3beta or immunocytochemistry was not altered by EPO treatment. However, EPO increased the level of Ser9-phospho-GSK-3beta colocalized with mitochondria by 50% in a phosphatidylinositol 3-kinase-dependent manner. Mitochondrial translocation of Bcl-2-associated X protein (BAX) after exposure to H2O2 was inhibited by EPO pretreatment and by GSK-3beta knockdown. These results suggest that the suppression of GSK-3beta activity by Akt-mediated Ser9 phosphorylation in the mitochondria affords cardiomyocytes tolerance against oxidant-induced apoptosis, possibly by inhibiting the access of BAX to the mitochondria.     

Interaction of the Rho-ADP-ribosylating C3 exoenzyme with RalA

RhoA, -B, and -C are ADP-ribosylated and biologically inactivated by Clostridium botulinum C3 exoenzyme and related C3-like transferases. We report that RalA GTPase, which is not ADP-ribosylated by C3, inhibits ADP-ribosylation of RhoA by C3 from C. botulinum (C3bot), Clostridium limosum (C3lim), and Bacillus cereus (C3cer) but not from Staphylococcus aureus (C3stau) in human platelet membranes and rat brain lysate. Inhibition by RalA occurs with the GDP- and guanosine 5'-3-O-(thio)triphosphate-bound forms of RalA and is overcome by increasing concentrations of C3. A direct interaction of RalA with C3 was verified by precipitation of the transferase with GST-RalA-Sepharose. The affinity constant (K(d)) of the binding of RalA to C3lim was 12 nm as determined by fluorescence titration. RalA increased the NAD glycohydrolase activity of C3bot by about 5-fold. Although RalA had no effect on glucosylation of Rho GTPases by Clostridium difficile toxin B, C3bot and C3lim inhibited glucosylation of RalA by Clostridium sordellii lethal toxin. Furthermore, C3bot decreased activation of phospholipase D by RalA. The data indicate that several C3 exoenzymes directly interact with RalA without ADP-ribosylating the GTPase. The interaction is of high affinity and interferes with essential functions of C3 and RalA.     

Mapping of the properdin-binding site in the third component of complement.

The properdin-binding site in the human third complement component (C3) was mapped by using isolated C3b, C3c, alpha- and beta-chains of C3 and C3 polypeptide fragments and an enzyme-linked-immunosorbent-assay procedure. The C3 chains and the polypeptide fragments were purified to homogeneity by preparative sodium dodecyl sulphate/polyacrylamide-gel electrophoresis. The alpha-chain polypeptides included a 68 kDa and a 43 kDa polypeptide, which were generated by cleavage of C3b with factors I and H, and a 40 kDa, 33 kDa (C3d) and 27 kDa polypeptide, which were generated by cleavage of C3b with porcine elastase. It was shown that properdin binds to C3b, C3c, alpha-chain, and to the 43 kDa (factor-I + H-derived), as well as to 40 kDa (elastase-derived) alpha-chain fragment, but not to the beta-chain 68 kDa, 33 kDa (C3d) and 27 kDa alpha-chain fragments. Thus the binding site for properdin resides on the 40-43 kDa C-terminal alpha-chain fragment of C3.     

LMO3逆转录病毒表达载体的构建及其对SK-N-AS细胞增殖的影响

目的构建包含LM03（LIM-only3,LM03）全长基因的逆转录病毒表达载体,感染人神经母细胞瘤SK-N-AS,检测LM03对SK-N-AS细胞增殖的影响。方法将质粒pEGFP-Cl-一LM03经EcoRI和BamHI双酶切后亚克隆至逆转录病毒载体pLXSN,构建重组逆转录病毒表达载体pLXSN-LMO3,导人包装细胞pA317,获得逆转录病毒颗粒,感染SK-N-AS细胞,用RT-PCR及Western印迹鉴定,检测LM03感染后细胞的增殖及细胞周期分布情况。结果获得了能正确表达LM03基因的重组逆转录病毒表达载体pLX-SN-LMO3;LM03基因被逆转录病毒成功导入SK-N-AS细胞后,与对照组细胞相比,LM03感染组G1／G1期细胞减少,S期细胞增加,感染48h后,LM03感染组细胞的增殖能力显著高于空载体对照组及SK-N．AS组（P〈0．05）。结论成功构建了LM03基因的逆转录病毒表达载体,LMO3可以通过促进SK-N-AS细胞由G0／G1期进入S期,从而促进细胞的增殖。     

New substrates and inhibitors of 3-hydroxy-3-methylglutaryl-CoA reductase

Methyl (RS)-5-bromo-3-hydroxy-3-methyl-pentanoate was prepared by bromination of methyl mevalonate and used for the formation of 4-carboxy-3-hydroxy-3-methylbutyl thioether derivatives by reaction with N-octanoyl-cysteamine, pantetheine, phosphopantetheine and coenzyme A. These thiols were also converted to the (RS)-3-hydroxy-3-methylglutaryl thioester derivatives. The thioesters formed with pantetheine and phosphopantetheine are substrates of 3-hydroxy-3-methylglutaryl-CoA reductase; Km and V values are similar to those of the superior CoA-derivative. The corresponding thioether derivatives in which the oxygen next to sulfur of the substrates is replaced by hydrogen, are inhibitors of the reductase. The inhibition is competitive with 3-hydroxy-3-methylglutaryl-CoA varied, and noncompetitive with NADPH varied. For each of the corresponding pairs of thioester and thioether derivatives Km (substrate) is nearly identical with Ki (inhibitor). The specificity and stereospecificity of the inhibitor action are also shown.     

SOCS-3过表达对红系基因表达的影响

目的:建立能稳定、高效表达细胞因子信号转导抑制因子-3(SOCS-3)的细胞株SOCS-3-K562,为探讨SOCS-3在造血发育中的作用奠定基础。方法:通过重组慢病毒系统感染人红白血病细胞K562,采用流式细胞分选术,根据绿色荧光蛋白表达情况,获得稳定高表达SOCS-3的K562细胞;利用实时荧光定量PCR和蛋白质印迹实验,比较分选获得的细胞与对照细胞的SOCS-3表达差异;利用半定量PCR检测SOCS-3表达升高对K562红系发育相关基因GATA-1、β-globin表达水平的影响。结果:构建了人SOCS-3慢病毒表达载体;与对照组相比,通过流式细胞分选获得的K562细胞的SOCS-3基因表达水平升高8.05倍,蛋白表达水平升高3倍;SOCS-3表达升高后,K562细胞的GATA-1、β-globin基因表达受到明显抑制。结论:SOCS-3在造血发育中有重要的调控作用,而对其表达进行改变将在规模化的造血细胞定向诱导研究中发挥重要作用。     

Mechanism of 3-mercaptopicolinic acid inhibition of hepatic phosphoenolpyruvate carboxykinase (GTP).

The hypoglycemic agent 3-mercaptopicolinic acid inhibits gluconeogenesis from lactate by isolated, perfused livers from fasted rats and guinea pigs. A 3-mercaptopicolinate concentration of 50 muM caused a sharp decrease in glucose synthesis, with virtually complete inhibition at 100 muM. This inhibitory effect was reversed completely when 3-mercaptopicolinate was removed and the rate of glucose synthesis returned to normal values within 2 min. Oxygen consumption was not altered, even at the highest concentration of inhibitor. Gluconeogenesis from glycerol by guinea pig liver was blocked completely by 100 muM 3-mercaptopicolinate but was inhibited only partially in rat liver. After removal of the inhibitor glucose synthesis returned to levels higher than noted before the addition of this compound. The formation of P-enolpyruvate bu isolated guinea pig liver mitochondria metabolizing alpha-ketoglutarate (State 3) was inhibited markedly by 3-mercaptopicolinate, but malate conversion to P-enolpyruvate was considerably less sensitive. Kinetic studies with purified P-enolpyruvate carboxykinase from rat liver cytosol indicate that 3-mercaptopicolinate is a noncompetitive inhibitor with respect to both oxalacetate and MnGTP2-, and that simulataeous saturation with both substrates does not diminish this inhibition. The inhibitory effects of 3-mercaptopicolinate occur primarily by decreasing the rate of product formation while having relatively minor effects on the apparent Michaelis constants for substrates. Inhibition constants for slope and intercept effects ranged from 3 to 9 muM 3-mercaptopicolinate, and the inhibition patterns were dependent on the concentration of free Mn2+ present. Comparison of the inhibition constants with the observed inhibition of gluconeogenesis in livers perfused with 3-mercaptopicolinate supports the contention that P-enolpyruvate carboxykinase is the site of action of this inhibitor. The possibility that 3-mercaptopicolinate inhibition occurs by binding either free or bound manganese was eliminated by determination of the dissociation constant of 0.51 mM for the manganese-3-mercaptopicolinate complex. In addition, no tightly bound, slowly exchanging metal was bound to purified enzyme protein. These results suggest that 3-mercaptopicolinate inhibits by the removal of a tightly bound, rapidly exchanging metal ion other than Mn2+.     

Synthesis, biological evaluation and kinetic studies of glyceride prodrugs of diclofenac

The prodrugs (glyceride derivatives) 3a and 3b of diclofenac were prepared by reacting 1, 2, 3-trihydroxy propane-1,3-dipalmitate/stearate with the acid chloride of diclofenac as potential prodrugs to reduce the gastrointestinal toxicity associated with them. These prodrugs were evaluated for their ulcerogenicity, anti-inflammatory and analgesic activity. It was found that the prodrugs were significantly less irritating to the gastric mucosa as indicated by severity index of 0.86, 0.78 compared to 1.6 of diclofenac. The prodrugs 3a and 3b showed better anti-inflammatory and analgesic activity than the parent drugs. The hydrolysis of prodrugs 3a and 3b were studied at pH 3, 4, 5 and 7.4. The HPLC analysis showed that the prodrugs were resistant to hydrolysis at pH 3, 4 and 5 indicating that they did not hydrolyze in acidic environment, whereas at pH 7.4 the prodrugs readily released the parent drug in significant quantities. The plasma levels of diclofenac were also analyzed by HPLC in rats after single oral dose of the prodrugs. The results indicated that the parent drugs were readily released. The concentration of diclofenac during the study was found higher in animals treated with prodrugs 3a and 3b compared with animals treated with diclofenac. The concentration of diclofenac was found to be 38.59, 33.6 and 30.36 microg/ml in animals treated with prodrugs 3a, 3b and diclofenac respectively. In conclusion, all these studies indicated that the glyceride prodrugs of diclofenac might be considered as potential biolabile prodrugs of diclofenac.     

Formation of the depurinating N3adenine and N7guanine adducts by reaction of DNA with hexestrol-3',4'-quinone or enzyme-activated 3'-hydroxyhexestrol. Implications for a unifying mechanism of tumor initiation by natural and synthetic estrogens

The nonsteroidal synthetic estrogen hexestrol (HES), which is diethylstilbestrol hydrogenated at the C-3-C-4 double bond, is carcinogenic. Its major metabolite is the catechol, 3'-OH-HES, which can be metabolically converted to the catechol quinone, HES-3',4'-Q. Study of HES was undertaken with the scope to substantiate evidence that natural catechol estrogen-3,4-quinones are endogenous carcinogenic metabolites. HES-3',4'-Q was previously shown to react with deoxyguanosine to form the depurinating adduct 3'-OH-HES-6'-N7Gua by 1,4-Michael addition [Jan S-T, Devanesan PD, Stack DE, Ramanathan R, Byun J, Gross ML, et al. Metabolic activation and formation of DNAadducts of hexestrol,a synthetic nonsteroidal carcinogenic estrogen. Chem Res Toxicol 1998;11:412-9.]. We report here formation of the depurinating adduct 3'-OH-HES-6'-N3Ade by reaction of HES-3',4'-Q with Ade by 1,4-Michael addition. The structure of the N3Ade adduct was established by NMR and MS. We also report here formation of the depurinating 3'-OH-HES-6'-N7Gua and 3'-OH-HES-6'-N3Ade adducts by reaction of HES-3',4'-Q with DNA or by activation of 3'-OH-HES by tyrosinase, lactoperoxidase, prostaglandin H synthase or 3-methylcholanthrene-induced rat liver microsomes in the presence of DNA. The N3Ade adduct was released instantaneously from DNA, whereas the N7Gua adduct was released with a half-life of approximately 3 h. Much lower (<1%) levels of unidentified stable adducts were detected in the DNA from these reactions. These results are similar to those obtained by reaction of endogenous catechol estrogen-3,4-quinones with DNA. The similarities extend to the instantaneously-depurinating N3Ade adducts and relatively slowly-depurinating N7Gua adducts. The endogenous estrogens, estrone and estradiol, their 4-catechol estrogens and HES are carcinogenic in the kidney of Syrian golden hamsters. These results suggest that estrone (estradiol)-3,4-quinones and HES-3',4'-Q are the ultimate carcinogenic metabolites of the natural and synthetic estrogens, respectively. Reaction of the electrophilic quinones by 1,4-Michael addition with DNA at the nucleophilic N-3 of Ade and N-7 of Gua is suggested to be the major critical step in tumor initiation by these compounds.     

Elevated NK-mediated lysis of Raji and Daudi cells carrying fixed iC3b fragments

Raji and Daudi cells were opsonized with C3b, iC3b, and C3d fragments by using purified complement components. The sensitivity of C3-opsonized cells to lysis mediated by low density blood lymphocytes was studied. Raji and Daudi cells carrying C3b or C3d fragments were lysed with similar efficiencies as the nonopsonized cells. The presence of iC3b on the target surface imposed elevated NK sensitivity. The iC3b-mediated enhancement of NK lysis was inhibited when iC3b fragments or rabbit anti-human C3 antibodies were included into the lytic assays. These results indicate that the iC3b fragments fixed on the targets bind to the CR3 on the lymphocytes. Results obtained in immobilized conjugate-lytic assays showed that iC3b-opsonized targets interact more readily with the lymphocytes. This was reflected by the elevated proportion of lymphocytes that were bound to the iC3b-carrying targets. The proportions of conjugates in which target damage occurred were similar with the control and with the iC3b-carrying cells. It seems therefore that opsonization of targets with iC3b leads to recruitment of effector lymphocytes due to contact with their CR3. However, once the effector-target contact is established, the triggering of lytic function does not seem to be influenced by the iC3b/CR3 bridge.     

A close association of the ganglioside-specific sialidase Neu3 with caveolin in membrane microdomains

The ganglioside-specific sialidase Neu3 has been suggested to play essential roles in regulation of cell surface functions because of its major localization in the plasma membrane and strict substrate preference for gangliosides involved in signal transduction. Here we show that human Neu3 sialidase is enriched in caveolae microdomains and closely associates with caveolin like other caveolin-binding signaling molecules. Using HeLa cells and Neu3-transfected COS-1 cells, endogenous and exogenous Neu3 was found to co-concentrate caveolin-1 in low density Triton X-100-insoluble membrane fractions on sucrose density gradients of the respective cell extracts, as assessed by enzyme activity assays and immunoblotting with a monoclonal antibody to human Neu3. The presence of a putative caveolin-binding motif within Neu3 prompted us to determine whether Neu3 binds to caveolin-1. In transfectants expressing a polyhistidine-tagged form of Neu3, caveolin-1 co-eluted with Neu3 on affinity column chromatography. A mutation with a single amino acid change in the caveolin-binding motif led to inhibition of recruitment of the sialidase to the microdomain, accompanied by reduction of the enzyme activity. Neu3 also failed to associate with caveolin-enriched microdomains by cholesterol depletion with beta-cyclodextrin (with concomitant decrease of the sialidase activity), whereas Neu3 was activated by increased caveolin-1 expression. The tight association of Neu3 with caveolin-1 was supported further by co-immunoprecipitation of Neu3 by anti-caveolin-1 antibody. These results strongly suggest that Neu3 functions as a caveolin-related signaling molecule within caveolin-rich microdomains.     

小豆蔻明调控自噬抑制卵巢癌SKOV3细胞增殖的研究

目的：卵巢癌为女性常见病,死亡率高,分子靶向治疗药物较少,研发高效低毒的靶向新药意义重大。细胞自噬（autophagy）维持着细胞内稳态和生长,是抗癌药物作用的关键靶部位。本课题旨在明确小豆蔻明（Cardamonin,CAR）调控自噬对卵巢癌SKOV3细胞增殖的影响。方法：体外培养卵巢癌SKOV3细胞,不同药物分组处理,荧光显微镜下观察单黄酰戊二胺（MDC）染色后细胞自噬囊泡,WesternBlot法检测细胞自噬相关蛋白LC3的表达,四氮唑蓝（MTT）法观察SKOV3细胞增殖情况,流式细胞术检测SKOV3细胞凋亡的变化。结果：自噬抑制剂3-MA显著性降低SKOV3细胞内MDC染色的荧光颗粒数目、LC3II蛋白表达,抑制细胞增殖;而CAR（高、中剂量）、雷帕霉素和AZD8055与3-MA联用后细胞内MDC荧光颗粒数目增多、LC3II蛋白表达增加、细胞增殖抑制率及凋亡率明显升高;且高剂量CAR（10^-6mol·L^-1）的作用比低剂量CAR（10^-6mol·L^-1）明显。结论：CAR能够抑制SKOV3细胞增殖,诱导细胞自噬,促进细胞凋亡。CAR有望成为卵巢癌药物治疗的先导化合物。本研究为进一步研发此类化合物提供了实验依据及一定的理论基础。