近红外标记的维甲酸类造影剂用于骨肉瘤成像的研究

目的:开发一种具有"找寻、治疗、可视"功能的生物造影剂。方法:采用化学合成的方法得到近红外标记的维甲酸类造影剂,并进行骨肉瘤细胞的体外结合试验;皮下接种裸鼠,构建骨肉瘤的异种移植模型,持续10d对裸鼠进行体内光学成像,观察药物在体内的重新分布,并最终用免疫组织化学法对成像结果进行验证。结果:体外细胞结合试验证明,合成的维甲酸造影剂可以很好的与人的骨肉瘤细胞相结合,进而内化。近红外光学成像表明,该造影剂可用于骨肉瘤的早期和晚期诊断。全身成像显示了在肿瘤和肝脏的高信号强度。正电子发射断层显像(PET)显示肿瘤部位具有较高水平的18F-FDG代谢。剂量增加反应和毒性试验表明,高剂量的维甲酸造影剂必然与其全身毒性息息相关。免疫组化染色显示,发光组织中肿瘤细胞呈阳性。结论:合成的近红外标记的维甲酸造影剂可以用于检测人类骨肿瘤的异种移植,实现个体化分子诊疗的同时减少全身毒性。     

荧光素酶标记人胃癌细胞裸鼠原位移植模型的建立

目的建立荧光素酶标记人胃癌原位异种移植模型。方法将萤火虫荧光素酶作为标记基因导入人胃癌MGC803细胞,建立稳定表达荧光素酶的细胞,将其接种裸鼠胃壁浆膜下,建立胃癌裸鼠原位肿瘤模型。用活体荧光成像系统检测肿瘤的发生发展,并进行小动物超声影像和病理学分析。结果裸鼠原位成瘤率为100%,活体荧光成像观察发现在接种第7天,就可以观察到肿瘤发光。21 d后肿瘤进入对数生长期,28 d后肿瘤出现明显坏死,平均荧光光子数呈现下降趋势。超声成像发现小鼠胃部有直径为8.39 mm,面积为28.92 mm2瘤块。结论荧光素酶标记可以实时监测原位异种移植人胃癌生长状况。     

全反式维甲酸对U87-MG细胞裸鼠皮下移植瘤模型中血管生成拟态的影响

目的:明确全反式维甲酸对人恶性脑胶质瘤U87-MG细胞体内血管拟态形成的影响。方法:体外培养U87-MG细胞,并建立裸鼠皮下移植瘤模型,利用全反式维甲酸进行干预,检测荷瘤裸鼠肿瘤生长情况;利用HE染色对肿瘤组织进行细胞形态学观察;利用CD34-PAS双染法观察肿瘤血管拟态的形成情况。结果:U87-MG细胞在裸鼠体内成功荷瘤并出现血管拟态;全反式维甲酸显著抑制了U87-MG细胞实体瘤的生长和血管拟态的形成。结论:全反式维甲酸具有显著的抗肿瘤能力,其作用机制与血管拟态形成相关。     

胃癌血管靶向肽GX1修饰的人血清白蛋白用于胃癌近红外活体成像

目的:以肿瘤血管靶向肽GX1修饰的人血清白蛋白(HSA)作为吲哚菁绿(ICG)的载体,合成近红外荧光探针GX1-HSA-ICG,研究其作为近红外荧光探针在荷人胃癌裸鼠活体中的靶向成像能力。方法:以HSA作为ICG的载体,通过化学修饰与GX1共价连接,合成GX1-HSA-ICG纳米颗粒探针;使用SDS-PAGE对探针合成进行鉴定;采用探针与脐静脉内皮细胞HUVEC以及与肿瘤细胞共培养的脐静脉内皮细胞Co-HUVEC进行结合和竞争抑制试验,验证探针和Co-HUVEC细胞结合的特异性;利用小动物活体成像系统对皮下荷胃癌小鼠进行近红外荧光活体成像,验证探针在体内的胃癌靶向性。结果:成功合成GX1-HSA-ICG。细胞结合与竞争抑制实验显示GX1-HSA-ICG可与Co-HUVEC细胞特异性结合;荷瘤小鼠活体成像也显示出GX1-HSA-ICG较ICG有更长体内的循环时间,并且胃癌组织局部较HSA-ICG有更强的聚集。结论:本研究成功合成了胃癌血管靶向肽GX1修饰的HSA为荧光染料载体的胃癌血管靶向探针,成功对荷胃癌裸鼠进行了活体成像。使用HSA为载体的探针较单纯使用ICG的肿瘤局部滞留能力显著提高,GX1增加了探针的胃癌靶向特异性。该探针在胃癌的早期诊断和抗肿瘤血管生成治疗评估中具有潜在的应用价值。     

活体动物体内光学成像技术的研究进展及其应用

活体动物体内光学成像是利用基因改构进行内源性成像试剂或外源性成像试剂标记细胞、蛋白或DNA，从而非侵入性地报告小动物体内的特定生物学事件的技术。活体成像可以直观灵敏地监测基因的表达模式、标记和示踪细胞、探讨蛋白间的相互作用，因而这一技术被广泛地用于分析基因的表达模式、评价基因治疗效果、评估肿瘤的发生和转移、监测移植器官等。简要综述了现有活体动物体内光学成像技术的基本原理、技术进展和相关应用。     

活体荧光成像对裸鼠肝癌细胞系MHCC97-H原位移植模型的动态量化分析

目的:利用生物自发光的裸鼠肝癌原位移植模型,以活体荧光成像技术对肝癌的生长和转移情况进行动态、量化分析.方法:将稳定转染了荧光素酶(luciferase)基因的人肝癌细胞株MHCC97-H-LUC细胞,移植至裸鼠肝脏包膜下,每周利用活体荧光成像系统对裸鼠体内移植瘤的生长部位和范围进行成像,测量肿瘤细胞生物发光量,动态观察肝癌细胞在裸鼠体内的肿瘤数量、生长速度和转移情况.结果:建立可稳定表达荧光素酶的人肝癌细胞株MHCC97-H-LUC并用于进行生物自发光的裸鼠原位移植模型;利用活体荧光成像系统对裸鼠体内的移植瘤成像,见发光部位由肝脏向腹腔扩散,发光量随时间呈指数级增长;病理学观察证实肿瘤细胞长.结论:利用活体荧光成像技术的动态量化分析可灵敏、准确地监测裸鼠肝癌原位移植模型中肿瘤细胞的生长及转移情况,为肿瘤发生、生长、转移机制及对抗肿瘤生长和转移的体内研究提供了科学的量化手段.     

转铁蛋白导向脂质体核磁造影剂纳米粒子（TfNIR-LipNBD-Magnevist）——一种肿瘤靶向磁共振造影剂

造影剂辅助的核磁共振成像是目前肿瘤诊断的最吁方法之一。但是由于核磁共振成像内在的低灵敏性以及造影剂的非特异性,导致肿瘤早期诊断较为困难。文章将一种新的肿瘤靶向核磁造影剂纳米粒子应用于早期肿瘤的影像诊断。这种新的肿瘤靶向核磁造影剂纳米粒子由配体转铁蛋白（Tf）、纳米水平的正电脂质体（Lip）载体和临床常用的造影剂Magnevist（Tf^NIR-Lip^NBD-Magnevist）三部分构成。另外转铁蛋白和脂质体粒子上,亦标记了荧光物质用于确定转铁蛋白一脂质体一造影剂纳米粒子的靶向性,以及肿瘤的光学影像诊断。在体外实验中,利用激光共聚焦显微镜和光学影像证明了靶向纳米粒子介导的细胞内吞和特异性结合。在裸鼠肿瘤模型中,造影剂纳米粒子Tf^NIR-Lip^NBD-Magnevist经尾静脉注入后,显著增强了肿瘤内信号与周围组织的对比度。由造影剂纳米粒子介导的肿瘤内信号显著强于单独Magnevist辅助的肿瘤内信号。同时,利用光学影像方法,在肿瘤内检测到特异的荧光信号。其结果进一步支持了转铁蛋白一脂质体一造影利（Tf^NIR-Lip^NBD-Magnevist）纳米粒子的靶向性和肿瘤影像诊断的有效性。     

转铁蛋白导向脂质体核磁造影剂纳米粒子(TfNTR-LipNBD-Magnevist)——一种肿瘤靶向磁共振造影剂

造影剂辅助的核磁共振成像是目前肿瘤诊断的最好方法之一.但是由于核磁共振成像内在的低灵敏性以及造影剂的非特异性,导致肿瘤早期诊断较为困难.文章将一种新的肿瘤靶向核磁造影剂纳米粒子应用于早期肿瘤的影像诊断.这种新的肿瘤靶向核磁造影剂纳米粒子由配体转铁蛋白(Tf)、纳米水平的正电脂质体(Lip)载体和临床常用的造影剂Magnevist(TfNIR-LipNBD-Magnevist)三部分构成.另外转铁蛋白和脂质体粒子上,亦标记了荧光物质用于确定转铁蛋白-脂质体-造影剂纳米粒子的靶向性,以及肿瘤的光学影像诊断.在体外实验中,利用激光共聚焦显微镜和光学影像证明了靶向纳米粒子介导的细胞内吞和特异性结合.在裸鼠肿瘤模型中,造影剂纳米粒子TfNIR-LipNBD-Magnevist经尾静脉注入后,显著增强了肿瘤内信号与周围组织的对比度.由造影剂纳米粒子介导的肿瘤内信号显著强于单独Magnevist辅助的肿瘤内信号.同时,利用光学影像方法,在肿瘤内检测到特异的荧光信号.其结果进一步支持了转铁蛋白-脂质体-造影剂(TfNIR-LipNBD-Magnevist)纳米粒子的靶向性和肿瘤影像诊断的有效性.     

利用萤光素酶标记的肿瘤细胞建立肝癌原位移植模型及其活体成像

目的：利用生物发光成像技术非侵入性地监测活体裸鼠原位肝癌发展过程。方法：将包含有萤火虫萤光素酶基因的pCI-neo-Luc载体转染人肝癌HepG2细胞系,筛选获得具有高萤光素酶活性的细胞克隆;利用流式细胞仪对萤光素酶表达的稳定性进行初步研究,并分析细胞的生物发光情况;持续表达萤光素酶的肿瘤细胞培养扩增后被植入裸鼠皮下,2周后以形成的异体瘤作为供体瘤,进行肝脏原位移植手术;对建立的肝癌原位移植模型,用影像学资料显示肿瘤部位,用IVIS成像系统动态监测肿瘤生长情况。结果：体外影像的结果显示,表达萤光素酶细胞的数量与发光强度呈正相关;活体成像的结果显示。成功地建立了萤光素酶标记的原位肝癌动物模型。结论：生物发光成像可以监测活体内肝癌演进过程,为抗肿瘤药物的筛选和评价提供了新的手段和工具。     

荧光素酶标的人肝癌细胞裸鼠异种移植瘤模型的生物发光成像和PET-CT成像比较

目的利用荧光素酶基因标记的人肝癌细胞株BEL-7402建立裸鼠肝原位移植模型,及小鼠肝原位移植模型的生物发光和小动物PET-CT成像的比较。方法构建表达荧光素酶基因的真核表达载体并将其转入人肝癌细胞BEL-7402,经梯度浓度G418筛选获得稳定表达荧光素酶基因的细胞克隆并扩大培养。BALB/cA-nu裸鼠肝门静脉接种5×105个发光细胞使其成瘤,活体荧光成像和小动物PET-CT成像系统观察肿瘤的生长情况。结果获得了稳定表达Luc的人肝癌细胞株,将其接种到裸鼠体内,活体荧光成像系统观察发现能够成瘤,小动物PET-CT影像观察发现小鼠肝脏边缘对18 F-FDG有高摄取区域。结论利用荧光素酶基因标记的人肝癌细胞BEL-7402成功建立了原位肝癌裸鼠模型,小动物活体成像结合小动物PET-CT技术为原位肿瘤模型的建立提供了一种新的可靠的技术,为进一步研究肝癌生长转移机制和药物开发提供了新的有用工具。     

慢病毒介导荧光素酶表达的人鼻咽癌细胞小鼠模型的建立

目的：建立荧光素酶标记的人鼻咽癌细胞裸鼠模型,活体成像系统监测肿瘤的生长并与肿瘤的体积进行对比。方法：构建表达荧光素酶基因2（1uc2）的慢病毒载体,与辅助质粒共转染293T细胞以制备慢病毒,感染人鼻咽癌SUNEl细胞后经嘌呤霉素筛选获得表达luc2的细胞株。活体成像设备体外检测不同数量细胞的发光强度,最后以5×10 6个细胞皮下接种BALB／cnu／nu裸鼠,活体成像系统动态记录接种后肿瘤的信号并与肿瘤的体积对比。结果：成功构建慢病毒表达质粒pLenti．1uc2并包装出慢病毒颗粒,病毒感染后嘌呤霉素筛选6天得到鼻咽癌细胞株SUNEl一luc2。细胞株传代后有稳定的发光强度,且经活体检测的每秒光子数与细胞数成正相关（R2=0．96）;活体成像观察发现裸鼠接种第2天接种部位的发光强度就达到3-2×10^8,而且成瘤过程中发光强度的变化与肿瘤大小一致。结论：成功构建适用于活体成像的人鼻咽癌SUNEl细胞的裸鼠成瘤模型,该模型从细胞接种开始即可有效动态监测鼻咽癌皮下瘤的生长及转移,从而为鼻咽癌的成瘤机制及药物干预研究提供一个新的手段。     

Osteotropic cancer diagnosis by an osteocalcin inspired molecular imaging mimetic

Background

Although microcalcifications of hydroxyapatite can be found in both benign and malignant osteotropic tumors, they are mostly seen in proliferative lesions, including carcinoma. The aim of this present study is to develop a molecular imaging contrast agent for selective identification of hydroxyapatite calcification in human osteotropic tumor tissues ex vivo and in human osteosarcoma cells in vitro.

Methods

A bioinspired biomarker, hydroxyapatite binding peptide (HABP), was designed to mimic natural protein osteocalcin property in vivo. A fluorescein isothiocyanate dye conjugated HABP (HABP-19) was utilized to characterize hydroxyapatite on human osteotropic tumor tissue sections ex vivo and to selectively image hydroxyapatite calcifications in human osteosarcoma cells in vitro.

Results

Using a HABP-19 molecular imaging probe, we have shown that it is possible to selectively image hydroxyapatite calcifications in osteotropic cancers ex vivo and in human SaOS-2 osteosarcoma cells in vitro.

Conclusion

Hydroxyapatite calcifications were selectively detected in osteotropic tissues ex vivo and in the early stage of the calcification process of SaOS-2 human osteosarcoma in vitro using our HABP-19 molecular imaging probe. This new target-selective molecular imaging probe makes it possible to study the earliest events associated with hydroxyapatite deposition in various osteotropic cancers at the cellular and molecular levels.

General significance

It potentially could be used to diagnose and treat osteotropic cancer or to anchor therapeutic agents directing the local distribution of desired therapy at calcified sites.     

Frequent expression of receptors for granulocyte-macrophage colony-stimulating factor on human nonhematopoietic tumor cell lines

Receptors for granulocyte-macrophage colony-stimulating factor (GM-CSF) were identified on 9 of 35 (26%) human nonhematopoietic tumor cell lines including non-small cell lung cancer, stomach cancer, colon cancer, and osteosarcoma cells. GM-CSF receptors distributed on these human tumor cells were low affinity types with an equilibrium dissociation constant of 1.5-10.0 nM. Cross-linking studies revealed that the molecular weights of the low affinity GM-CSF receptors were 65-85 kilodaltons. The high affinity receptors identified on hematopoietic cells were not detected on human nonhematopoietic tumor cells which we studied, and we could detect no effects of GM-CSF on cell growth of these tumor cells.     

Multiple target-specific molecular imaging agents detect liver cancer in a preclinical model

Liver cancer is the fifth most common cause of cancer deaths worldwide. Noninvasive diagnosis is difficult and the disease heterogeneity reduces the accuracy of pathological assays. Improvement in diagnostic imaging of specific molecular disease markers has provided hope for accurate and early noninvasive detection of liver cancer. However, all current imaging technologies, including ultrasonography, computed tomography (CT), positron emission tomography (PET), and magnetic resonance imaging, are not specific targets for detection of liver cancer. The aim of this study was to test the feasibility of injecting a cocktail of specific molecular imaging agents to noninvasively image liver cancer. The target-specific cocktail contained agents for imaging the neovasculature (RGD peptide), matrix metalloproteinase (MMP), and glucose transport (18F-fluorodeoxyglucose [18F-FDG]). Imaging studies were performed in liver cancer cells and xenograft models. The distribution of MMP at the intracellular level was imaged by confocal microscopy. RGD, MMP, and 18F-FDG were imaged on tumor-bearing mice using PET, CT, X-ray, and multi-wavelength optical imaging modalities. Image data demonstrated that each agent bound to a specific disease target component. The same liver cancer xenograft contained multiple disease markers. Those disease markers were heterogenetically distributed in the same tumor nodule. The molecular imaging agents had different distributions in the whole body and inside the tumor nodule. All target-specific agents yielded high tumor-to-background ratios after injection. In conclusion, target-specific molecular imaging agents can be used to study liver cancer in vitro and in vivo. Noninvasive multimodal/multi-target-specific molecular imaging agents could provide tools to simultaneously study multiple liver cancer components.     

Targeted Herceptin–dextran iron oxide nanoparticles for noninvasive imaging of HER2/neu receptors using MRI

A novel magnetic resonance imaging (MRI) contrast agent containing Herceptin is reported. The surfaces of superparamagnetic iron oxide nanoparticles were modified with dextran and conjugated with Herceptin (Herceptin–nanoparticles) to improve their dispersion, magnetization, and targeting of the specific receptors on cells. From analytical results, we found that Herceptin–nanoparticles were well dispersed in solutions of various pH range, and had no hysteresis, high saturation magnetization (80 emu/g), and low cytotoxicity to a variety of cells. Notably, the magnetic resonance enhancements for the different breast cancer cell lines (BT-474, SKBR-3, MDA-MB-231, and MCF-7) are proportional to the HER2/neu expression level in vitro. When Herceptin–nanoparticles were administered to mice bearing breast tumor allograft by intravenous injection, the tumor site was detected in T ₂-weighted magnetic resonance images as a 45% enhancement drop, indicating a high level of accumulation of the contrast agent within the tumor sites. Therefore, targeting of cancer cells was observed by in vitro and in vivo MRI studies using Herceptin–nanoparticles contrast agent. In addition, Herceptin–nanoparticles enhancing the magnetic resonance signal intensity were sufficient to detect the cell lines with a low level of HER2/neu expression. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

阳离子脂质体介导RNA干扰的效果评价

考察自制的肽型阳离子脂质体CDO14作为RNA转染载体的细胞毒性及其运载si RNA进行RNA干扰的效果。通过MTT法检测脂质体对稳定表达荧光素酶的肺癌A549(Luc-A549)细胞的毒性。以脂质体为载体将荧光素酶si RNA(Luc-si RNA)转染至Luc-A549细胞内,用发光仪检测转染细胞内荧光素酶含量,BCA法检测细胞内总蛋白含量。在裸鼠腋下接种Luc-A549细胞,成瘤后尾静脉注射Luc-si RNA和脂质体的复合物,利用活体成像系统检测模型小鼠体内荧光素酶的表达量。细胞毒性实验表明,自制脂质体的毒性与商品脂质体DOTAP相近,低于商品脂质体Lipo2000;细胞转染实验表明自制脂质体作为基因转染载体的转染效率高于DOTAP;体内转染实验表明CDO14作为载体转染效果优于DOTAP。结果表明,肽型阳离子脂质体CDO14具有毒性小、转染效率高等优点,有望作为转染载体用于基因治疗。     

Receptor-targeted optical imaging of tumors with near-infrared fluorescent ligands

We report here the in vivo diagnostic use of a peptide-dye conjugate consisting of a cyanine dye and the somatostatin analog octreotate as a contrast agent for optical tumor imaging. When used in whole-body in vivo imaging of mouse xenografts, indotricarbocyanine-octreotate accumulated in tumor tissue. Tumor fluorescence rapidly increased and was more than threefold higher than that of normal tissue from 3 to 24 h after application. The targeting conjugate was also specifically internalized by primary human neuroendocrine tumor cells. This imaging approach, combining the specificity of ligand/receptor interaction with near-infrared fluorescence detection, may be applied in various other fields of cancer diagnosis.     

高压氧在放射性核素治疗大鼠种植癌后乏氧研究

目的：研究大鼠种植癌在高压氧（HBO）干预及放射治疗前后99mTc-HL91乏氧显像的变化,并探讨其与病理学改变之间的关系,为HBO联合放射性药物对恶性肿瘤治疗效果提供实验支持。方法：建立肿瘤株walker-256细胞大鼠皮下种植癌的动物模型,60只荷瘤大鼠随机分为四组：对照组,高压氧（HBO）组、胶体磷[^32P]酸铬和HBO＋胶体磷[^32P]酸铬组。尾静脉注射99mTc-HL9137MBq（0．1mL）,4h后利用SPECT显像,计算肿瘤组织与对侧相应部位放射性计数比值（T小T）,显像当日游标卡尺测量肿瘤最大长径（a）和最大垂直横径（b）,计算肿瘤体积以及治疗后不同时间的肿瘤生长率（f）。最后一次显像结束后处死全部模型大鼠,取肿瘤组织制成病理切片,观察各组大鼠肿瘤细胞的凋亡情况。比较实验各组T／NT与肿瘤生长率（f）以及凋亡的关系。结果：肿瘤99mTc-HL91显像良好,肿瘤部位与对侧相应部位具有较高的放射性计数比。治疗后大鼠肿瘤的乏氧区域及肿瘤体积均减少,以HBO＋胶体磷[^32P]酸铬组为著,T／NT与f呈正相关;大鼠肿瘤的细胞凋亡数明显高于对照组,以HBO＋胶体磷[^32P]酸铬组增加明显,治疗后T／NT与大鼠肿瘤细胞的凋亡数呈负相关。结论：HBO在放射性核素治疗大鼠种植癌中起到协同作用,通过99mTc—HL91乏氧显像观察HBO干预后胶体磷[^32P]酸铬治疗肿瘤效果,从而为二者联合在肿瘤治疗的应用提供依据。     

Multi-modal Imaging of Angiogenesis in a Nude Rat Model of Breast Cancer Bone Metastasis Using Magnetic Resonance Imaging,Volumetric Computed Tomography and Ultrasound

Angiogenesis is an essential feature of cancer growth and metastasis formation. In bone metastasis, angiogenic factors are pivotal for tumor cell proliferation in the bone marrow cavity as well as for interaction of tumor and bone cells resulting in local bone destruction. Our aim was to develop a model of experimental bone metastasis that allows in vivo assessment of angiogenesis in skeletal lesions using non-invasive imaging techniques.For this purpose, we injected 10⁵ MDA-MB-231 human breast cancer cells into the superficial epigastric artery, which precludes the growth of metastases in body areas other than the respective hind leg¹. Following 25-30 days after tumor cell inoculation, site-specific bone metastases develop, restricted to the distal femur, proximal tibia and proximal fibula¹. Morphological and functional aspects of angiogenesis can be investigated longitudinally in bone metastases using magnetic resonance imaging (MRI), volumetric computed tomography (VCT) and ultrasound (US).MRI displays morphologic information on the soft tissue part of bone metastases that is initially confined to the bone marrow cavity and subsequently exceeds cortical bone while progressing. Using dynamic contrast-enhanced MRI (DCE-MRI) functional data including regional blood volume, perfusion and vessel permeability can be obtained and quantified^2-4. Bone destruction is captured in high resolution using morphological VCT imaging. Complementary to MRI findings, osteolytic lesions can be located adjacent to sites of intramedullary tumor growth. After contrast agent application, VCT angiography reveals the macrovessel architecture in bone metastases in high resolution, and DCE-VCT enables insight in the microcirculation of these lesions^5,6. US is applicable to assess morphological and functional features from skeletal lesions due to local osteolysis of cortical bone. Using B-mode and Doppler techniques, structure and perfusion of the soft tissue metastases can be evaluated, respectively. DCE-US allows for real-time imaging of vascularization in bone metastases after injection of microbubbles⁷.In conclusion, in a model of site-specific breast cancer bone metastases multi-modal imaging techniques including MRI, VCT and US offer complementary information on morphology and functional parameters of angiogenesis in these skeletal lesions.