杂交瘤单抗4F11识别CD90^+肝癌干细胞并抑制其侵袭

目的:筛选识别肝癌干细胞的单克隆抗体并研究其体外的抗肿瘤作用,为肝癌干细胞靶向治疗提供候选抗体药物。方法:无血清悬浮培养及PKH26染色分析人肝癌细胞株MHCC97H中是否存在肝癌干细胞。流式细胞术检测MH-CC97H细胞及其成球细胞中7种肿瘤干细胞标志物的表达,以及MHCC97H细胞中肝癌干细胞标志物CD90和不同杂交瘤单抗3G7、4F11、11C9、15B7、15D2识别抗原的共表达情况。无血清悬浮培养法和CCK8法检测单抗4F11对MHCC97H细胞及其成球细胞自我更新和增殖的影响,Transwell实验检测单抗4F11对MHCC97H细胞体外侵袭和迁移的影响。结果:PKH26染色实验显示,MHCC97H细胞球体由单个肝癌干细胞增殖分化形成。MHCC97H细胞球中CD90+MHCC97H细胞比例较亲本MHCC97H细胞显著增加[(18.0±7.5)%vs(2.3±1.0)%,P<0.05]。杂交瘤单抗4F11、3G7、11C9、15B7、15D2均能识别MHCC97H细胞中CD90+MHCC97H细胞,其中单抗4F11对CD90+MHCC97H细胞的识别比例为(47.2±4.4)%,其对MHCC97H成球细胞增殖的抑制率远大于对亲本MHCC97H细胞增殖的抑制率[(29.4±3.8)%vs(12.0±2.2)%,P<0.05]。单抗4F11抑制MHCC97H细胞成球,抑制率达(58.0±20.8)%。单抗4F11能显著抑制MHCC97H细胞体外侵袭和迁移,抑制率分别为(48.6±5.1)%和(47.6±3.6)%。结论:杂交瘤单抗4F11能特异性识别CD90+肝癌干细胞,抑制肝癌细胞的侵袭和迁移,可作为肝癌干细胞靶向治疗的候选抗体药物。

自激活荧光粉Ba_4B_(11)O_(20)F的水热调控及发光性能研究

以BaCO_3、BaF_2和H_3BO_3为原料,按照化学计量比采用高温固相反应法制备出了新型蓝色荧光材料Ba_4B_(11)O_(20)F,后通过水热法对其进行二次处理。利用XRD、SEM和荧光光谱仪等对水热处理前后的粉体的物相、形貌和发光性能进行了研究。结果表明:Ba_4B_(11)O_(20)F荧光粉在294 nm激发条件下得到的发射光谱中存在三个发射峰分别位于367 nm、402 nm和470 nm处,在紫外灯照射下成明亮的蓝色。通过研究水热工艺中的温度和加水量对粉体荧光强度的影响,得出在加水量为10 m L,恒温温度为110℃条件下获得荧光粉的荧光强度最强,比水热处理前提高了8%。水热二次处理工艺提高了粉体的纯度和结晶度,进而提高了粉体的荧光强度。

痤疮丙酸杆菌介导的小鼠肝脏肉芽肿疾病模型建立及机制探究

目的建立小鼠肝脏肉芽肿模型及探讨其机制。方法痤疮丙酸杆菌(P．acnes)经尾静脉注射给C57BL/6J(B6)小鼠。在注射前、注射后1、6 h及1、2、3、5、7 d分别检测外周血F4/80^-B220^- CD11c^+细胞含量及ALT(丙氨酸转氨酶)水平并作肝脏组织病理学检查。进而将外周血分离出来的F4/80^-B220^-CD11c^+细胞经尾静脉注射给同种正常小鼠,建立过继转移模型,观察其ALT水平及肝脏组织病理学变化。结果注射P．acnes的小鼠外周血F4/80^-B220^-cD11c^+细胞含量及ALT水平明显升高,病理学观察显示肝脏有大量炎症细胞浸润并形成肉芽肿。F4/80^-B220^-CD11c^+细胞过继转移的小鼠ALT水平亦明显升高,肝脏病理切片发现有肉芽肿形成,与注射P．acnes的小鼠肝脏病理切片结果相一致。结论P．acnes能成功诱导建立小鼠肝脏肉芽肿模型,且P．acnes注射后升高的F4/80^-B220^-CD11c^+细胞是诱导形成肝肉芽肿的主要因素。

F4 11月9日上海开唱还等什么?

F4将于11月9日晚19:30在上海体育场激情献演“F4 2002上海演唱会”。此次演唱会由中国上海国际艺术节中心、上海新文化广播电视制作有限公司主办,上海东亚体育文化中心有限公司、上海市演出公司承办,由上海海溢广告公司推广策划。此次演唱会作为中国上海国际艺术节参演节目之一,也是本届艺术节唯一的一场港台歌星演唱会。现在就告诉你在上海的订票地址和电话,还等什么,赶快抢票!

[^(18)F]MAGL-4-11 positron emission tomography molecular imaging of monoacylglycerol lipase changes in preclinical liver fibrosis models

Monoacylglycerol lipase(MAGL) is a pivotal enzyme in the endocannabinoid system, which metabolizes 2-arachidonoylglycerol(2-AG) into the proinflammatory eicosanoid precursor arachidonic acid(AA). MAGL and other endogenous cannabinoid(EC) degrading enzymes are involved in the fibrogenic signaling pathways that induce hepatic stellate cell(HSC) activation and ECM accumulation during chronic liver disease. Our group recently developed an;F-labeled MAGL inhibitor([18F]MAGL-4-11)for PET imaging and demonstrated highly specific binding in vitro and in vivo. In this study, we determined [18F]MAGL-4-11 PET enabled imaging MAGL levels in the bile duct ligation(BDL) and carbon tetrachloride(CCl_(4)) models of liver cirrhosis;we also assessed the hepatic gene expression of the enzymes involved with EC system including MAGL, NAPE-PLD, FAAH and DAGL that as a function of disease severity in these models;[18F]MAGL-4-11 autoradiography was performed to assess tracer binding in frozen liver sections both in animal and human. [18F]MAGL-4-11 demonstrated reduced PET signals in early stages of fibrosis and further significantly decreased with disease progression compared with control mice. We confirmed MAGL and FAAH expression decreases with fibrosisseverity, while its levels in normal liver tissue are high;in contrast, the EC synthetic enzymes NAPE-PLD and DAGL are enhanced in these different fibrosis models. In vitro autoradiography further supported that[18F]MAGL-4-11 bound specifically to MAGL in both animal and human fibrotic liver tissues. Our PET ligand [18F]MAGL-4-11 shows excellent sensitivity and specificity for MAGL visualization in vivo and accurately reflects the histological stages of liver fibrosis in preclinical models and human liver tissues.