FTS与NIRF共轭化合物用于小鼠肿瘤模型的成像和治疗

目的研究法尼基硫代水杨酸(farnesylthiosalicylic Acid,FTS)与七甲川菁(heptamethine carbocyanine)近红外(near infrared,NIR)荧光染料共轭化合物的肿瘤靶向性及其在活体成像中的应用,明确该化合物对肿瘤生长的抑制作用。方法将人乳腺癌细胞MCF-7、胶质瘤细胞U251和前列腺癌细胞PC3培养至对数生长期后,分别加入不同浓度的FTS和FTS-IR783,观察两种化合物对肿瘤细胞的生长抑制作用;培养的三种肿瘤细胞中加入FTS-IR783(20μmol/L),荧光显微镜下观察荧光染料在肿瘤细胞中的聚集;将三种肿瘤细胞(每只1×10~6个)皮下移植裸鼠,两周后荷瘤鼠腹腔注射FTS-IR783(每只10 nmol/L),活体成像分别测定肿瘤部位近红外荧光信号和肿瘤体积的相关性。结果与FTS相比较,FTS-IR783可显著抑制MCF-7、U251和PC3的生长;三种肿瘤细胞可特异性识别FTS-IR783,呈现近红外荧光集聚;皮下荷瘤模型注射FTS-IR783后,活体成像显示肿瘤部位荧光强度与生物发光强度相关性分别达到0.987,0.998和0.971。结论 FTS与近红外荧光染料IR-783共轭结合后可特异性识别肿瘤细胞,用于肿瘤模型的活体成像,同时该化合物具有的肿瘤靶向性可显著抑制肿瘤细胞的生长,有望成为新型的靶向药物。     

近红外荧光染料在胃癌人源性肿瘤组织异种移植模型研究中的应用

目的建立胃癌人源性肿瘤组织异种移植(patient-derived tumor xenograft,PDX)裸鼠模型,探讨近红外荧光(near infrared fluorescence,NIRF)染料IR-783在胃癌PDX模型活体成像研究中的应用。方法取临床胃癌新鲜手术切除标本,裸鼠肾包膜移植建立PDX模型,HE染色比较移植肿瘤组织与患者肿瘤组织形态结构的一致性。将移植肿瘤组织裸鼠皮下接种,20 d后,荷瘤小鼠腹腔注射NIRF染料IR-783(每只10 nmol/L),活体成像连续测定肿瘤部位近红外荧光强度并分析肿瘤体积与荧光强度的相关性;免疫组织化学检测移植肿瘤组织中HIF1α与OATP1B3的表达强度。结果成功建立了3个人胃癌PDX模型,移植肿瘤组织较好的保持了原发肿瘤的特征,NIRF活体成像早期检测到肾包膜部位荧光信号。PDX模型中肿瘤体积与荧光强度的相关性均在98%以上。移植肿瘤组织中HIF1α与OATP1B3表达呈强阳性。结论 NIRF染料IR-783可在PDX模型肿瘤部位特异性聚集,用于PDX模型的早期检测,这种肿瘤靶向性可能与HIF1α和OATP1B3的表达相关。     

近红外荧光染料IR-783在膀胱癌中的成像研究

目的:观察研究近红外荧光染料IR-783在膀胱癌中的特异性成像。方法:通过染料与膀胱癌细胞及正常细胞共孵育,观察近红外荧光染料IR-783是否能够实现膀胱癌细胞的选择性成像。利用细胞器示踪剂观察近红外荧光染料在膀胱癌细胞内的共定位;使用IR-783检测循环血液中及尿液中的膀胱癌细胞。结果:近红外荧光染料IR-783可被膀胱癌细胞选择性摄取。IR-783可选择性聚集在膜性细胞器如线粒体和溶酶体内,这种选择性聚集作用使IR-783可以保持较长的染色效果。近红外染料可以检测到血液或尿液极少量的膀胱癌细胞。结论:近红外荧光染料IR-783能够被膀胱癌细胞特异性吸收,可用于血液和尿液中膀胱肿瘤细胞的特异性诊断,具有重要的临床应用前景。     

七甲川菁近红外荧光染料对胃癌原位移植模型的靶向识别

目的研究七甲川菁近红外荧光(NIRF)染料在胃癌原位移植模型活体成像中的应用效果。方法将标记荧光酶素的人胃癌细胞系Hep G2原位移植裸鼠建立肿瘤模型,同时诱发制备胃溃疡模型;对上述模型分别采用生物发光成像和NIRF成像,观察胃癌组织对近红外荧光染料的吸收;探索缺氧和阴离子转运肽(OATP)对胃癌组织吸收NIRF染料的影响,明确NIRF染料靶向识别肿瘤细胞的特异性。结果 NIRF信号与生物发光信号在胃癌原位移植模型活体成像中具有较好的相关性。胃癌组织部位可获得较强的NIRF荧光信号,而胃溃疡部位未检测到荧光信号。缺氧能够增强胃癌细胞对NIRF染料的吸收,而阴离子转运肽特异性抑制剂磺溴酞钠(BSP)能够显著降低肿瘤细胞对NIRF染料的吸收。结论七甲川菁近红外荧光染料能够靶向识别胃癌原位移植模型。     

鼠抗人hMIC-l单克隆抗体抑制裸鼠移植人胰腺癌体内研究

目的：初步研究鼠抗人hMIC-l单克隆抗体对胰腺癌体内给药的抗肿瘤活性,为hMIC-l抗体应用于肿瘤治疗提供实验依据。方法2种人胰腺癌细胞株PANC-1和SW1990各腋窝皮下接种24只Balb/c裸鼠,共计48只皮下接种荷瘤裸鼠分别随机共分为8组,每组6只荷瘤鼠。模型对照组荷瘤裸鼠腹腔注射0.9％氯化钠注射液（10 mL/kg,NS,Biw,ip ×8）,阳性对照组荷瘤裸鼠腹腔注射键择（50 mg/kg,qw,ip ×4）,鼠抗人hMIC-l单克隆抗体组分别荷瘤鼠尾静脉内注射鼠抗人hMIC-l单克隆抗体（10 mg/kg,Biw,ip ×8）共4周或（2 mg/kg,Biw,ip ×8）共4周。观察荷瘤裸鼠日常表现、肿瘤生长、实验后肿瘤组织切片HE染色后光镜下的组织形态学改变。结果荷瘤裸鼠尾静脉内注射鼠抗人hMIC-l单克隆抗体组裸鼠（10 mg/kg,Biw,iv ×8）肿瘤生长缓慢,瘤体明显小于模型对照组,并呈现量效关系。镜下观察鼠抗人hMIC-l单克隆抗体组实验后肿瘤组织切片胰腺结构破坏,有大量淋巴细胞浸润,肿瘤细胞明显坏死,细胞溶解。结论尾静脉内注射鼠抗人hMIC-l单克隆抗体（10 mg/kg,Biw,iv ×8）能有效抑制裸鼠移植人胰腺癌PANC-1肿瘤生长,使瘤组织坏死、结构破坏。     

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。     

七甲川花菁染料作为肿瘤靶向和光动力治疗载体的研究进展

七甲川花菁近红外荧光染料(NIRF)可直接被肿瘤细胞特异性吸收,具有肿瘤靶向性。与化疗药物偶联后,该类染料可通过血脑屏障将药物转运至肿瘤部位,不仅可以减少化疗药物使用剂量,降低药物的毒副作用,也可通过近红外荧光成像实现对肿瘤治疗的实时监控。七甲川花菁染料所展示的线粒体毒性和光敏特性,可直接杀死肿瘤细胞,抑制肿瘤新生血管的形成。通过纳米包裹,能够显著增强该类染料的肿瘤靶向能力,实现实时跟踪药物释放情况。七甲川花菁染料特异性识别肿瘤细胞的能力与有机阴离子转运肽的作用密切相关,缺氧和线粒体膜电位也参与了染料吸收的调控。这些发现有利于将近红外荧光染料应用于肿瘤的靶向治疗。     

基于临床手术标本的胰腺癌原位移植模型建立及评价

目的建立基于临床肿瘤标本的胰腺癌原位移植模型,开展模型的评价研究。方法将临床新鲜的胰腺癌手术标本移植到裸鼠胰腺部位,建立原位异种移植模型(PDOX),通过活体成像技术和PET/CT对肿瘤生长状况进行评价;采用STR技术分析移植瘤的来源,通过组织形态观察和免疫组化判定移植瘤的病理学特征,同时检测PDOX模型外周血中CA19-9的表达水平。结果模型建立6周后,通过活体成像观察到近红外荧光信号明显富集在肿瘤部位,通过荧光强度可以初步判断肿瘤位置和大小;使用小动物PET/CT可清晰观察到腹部18F-FDG分子探针富集区域,与预期的肿瘤位置和大小一致;安死术后,解剖分离的各个脏器组织及肿瘤组织,通过近红外荧光成像进一步确认肿瘤生长状况;STR检测证实移植瘤人源性比率为99.99%;组织形态学和免疫组化分析表明移植肿瘤生长于裸鼠胰腺;血清中CA19-9检测进一步证实了胰腺癌的发生。结论成功建立了人胰腺癌原位异种移植模型,通过小动物活体成像、PET/CT等技术对模型进行了全面评估,为胰腺癌的发病机制和治疗研究提供了良好的动物模型。     

GFP标记的肿瘤生长和转移的整体荧光成像

Fugene 6脂质体介导pEGFP-C1转染人源肺癌细胞(SPC-A1),经G418抗性筛选和96孔板有限稀释获得稳定高表达GFP的单克隆细胞株SPC-A1-EGFP。裸鼠腹腔注射SPC-A1-EGFP细胞建立自发转移模型;裸鼠尾静脉注射SPC-A1-EGFP细胞建立实验转移模型。利用整体光学成像系统(wllole-body optical imaging system)对荷瘤鼠整体荧光成像。结果表明,整体光学成像系统可实时非侵入监测腹腔肿瘤生长和扩散过程,通过胸腔皮瓣窗chest—wall skin-flap window)可低侵入检测肺转移。该研究为在体监测原位移植瘤的自发转移和发现抗肿瘤新药物提供了良好实验平台。     

基于双荧光系统的HepG2肝细胞癌原位移植裸鼠模型建立及活体荧光成像动态定量分析

目的:建立一种可以实时、定量、动态监测的肝细胞癌原位移植模型,并利用活体荧光成像系统对裸鼠体内原位肝细胞癌生长进行分析。方法:利用慢病毒包装系统包装pCDH-GFP-Luc质粒,将绿色荧光蛋白(GFP)和萤光素酶(Luc)基因通过病毒感染的方式整合到HepG2肝癌细胞染色体中,利用流式细胞术分选GFP+细胞,扩增培养后,将该细胞注射到裸鼠皮下进行成瘤,成瘤后分离肿瘤组织接种裸鼠肝脏,将造模成功的裸鼠分为对照组和治疗组,分别灌胃给与0.5%羧甲基纤维素钠(CMC-Na)和50 mg/kg索拉非尼,2/d,连续28 d,每7 d利用活体荧光成像系统观察肝癌细胞在对照组和治疗组裸鼠肝脏内的生长情况。实验结束后,分离裸鼠肝脏肿瘤,拍照称重。结果:建立了稳定表达双荧光的人肝癌细胞系HepG2-GFP-Luc,体外发光强度与表达萤光素酶的细胞数量呈正相关(R2=0.9945);建立了肝细胞癌原位移植活体荧光成像模型,对照组和治疗组肝脏内肿瘤细胞荧光强度随时间的延长逐渐增加,治疗组荧光强度明显低于对照组。定量分析结果显示,在第24、31和38 d,治疗组荧光总光子数值显著低于对照组;治疗组平均瘤重显著低于对照组。结论:建立了一种肝细胞癌原位移植荧光成像模型,可通过活体成像系统对肿瘤大小进行动态定量分析,为抗肝癌药物的药效学评价提供了实时定量分析动物模型。     

A new optical and nuclear dual-labeled imaging agent targeting interleukin 11 receptor alpha-chain

Optical imaging has great potential for studying molecular recognitions both in vivo and in vitro, yet nuclear imaging is the most effective clinical molecular imaging modality. The combination of optical and nuclear imaging modalities may provide complementary information for improving diagnosis and management of diseases. In this study we developed an optical and nuclear dual-labeled imaging agent, 111In-DTPA-Bz-NH-SA-K(IR-783-S-Ph-CO)-c(CGRRAGGSC)NH2, called DLIA-IL11Ralpha. 111In-DTPA-Bz-NH-SA is the radiotracer moiety; a near-infrared dye IR-783-S-Ph-COOH serves as the fluorescent emitter; and the cyclic peptide c(CGRRAGGSC), which is known to target interleukin 11 receptor alpha-chain (IL-11Ralpha), delivers the desired imaging agent to its target. Experiments revealed that the cyclic peptide c(CGRRAGGSC) continued to possess the targeting capability to IL-11Ralpha after the conjugation of the optical and nuclear tracers. Furthermore, the presence of the metal isotope chelator did not cause quenching of fluorescence emission. The cross validation and direct comparison of optical and nuclear imaging of a tumor was achieved using a single injection, and the preliminary results show the conjugate has tumor targeting capabilities in vivo.     

The application of anti‐ESAT‐6 monoclonal antibody fluorescent probe in ex vivo near‐infrared fluorescence imaging in mice with pulmonary tuberculosis

Here, we aimed to assess the feasibility of anti‐ESAT‐6 monoclonal antibody (mAb) coupling with IR783 and rhodamine fluorescent probe in the detection of ESAT‐6 expression in tuberculosis tissue of mice using near‐infrared fluorescence imaging. IR783 and rhodamine were conjugated to the anti‐ESAT‐6 mAb or IgG. Mice in the experimental group were injected with fluorescence‐labeled mAb probe, and mice in the control group were injected with fluorescence‐labeled non‐specific IgG antibody. Twenty‐four hours later, the lung tissue of mice was examined using ex vivo near‐infrared fluorescence imaging. In addition, the contrast‐to‐noise ratio (CNR) was calculated by measuring the signal intensities of the pulmonary lesions, normal lung tissue and background noise. The frozen lung tissue section was examined under fluorescence microscopy and compared with hemoxylin and eosin (HE) staining. The ex vivo near‐infrared fluorescence imaging showed that the fluorescence signal in the lung tuberculosis lesions in the experimental group was significantly enhanced, whereas there was only a weak fluorescence signal or even no fluorescence signal in the control group. CNR values were 64.40 ± 7.02 (n = 6) and 8.75 ± 3.87 (n = 6), respectively (t = 17.01, p < 0.001). The fluorescence accumulation distribution detected under fluorescence microscopy was consistent with HE staining of the tuberculosis region. In conclusion, anti‐ESAT‐6 mAb fluorescent probe could target and be applied in specific ex vivo imaging of mice tuberculosis, and may be of further use in tuberculosis in living mice. Copyright © 2013 John Wiley & Sons, Ltd.     

Near-Infrared Imaging of Adoptive Immune Cell Therapy in Breast Cancer Model Using Cell Membrane Labeling

The overall objective of this study is to non-invasively image and assess tumor targeting and retention of directly labeled T-lymphocytes following their adoptive transfer in mice. T-lymphocytes obtained from draining lymph nodes of 4T1 (murine breast cancer cell) sensitized BALB/C mice were activated in-vitro with Bryostatin/Ionomycin for 18 hours, and were grown in the presence of Interleukin-2 for 6 days. T-lymphocytes were then directly labeled with 1,1-dioctadecyltetramethyl indotricarbocyanine Iodide (DiR), a lipophilic near infrared fluorescent dye that labels the cell membrane. Assays for viability, proliferation, and function of labeled T-lymphocytes showed that they were unaffected by DiR labeling. The DiR labeled cells were injected via tail vein in mice bearing 4T1 tumors in the flank. In some cases labeled 4T1 specific T-lymphocytes were injected a week before 4T1 tumor cell implantation. Multi-spectral in vivo fluorescence imaging was done to subtract the autofluorescence and isolate the near infrared signal carried by the T-lymphocytes. In recipient mice with established 4T1 tumors, labeled 4T1 specific T-lymphocytes showed marked tumor retention, which peaked 6 days post infusion and persisted at the tumor site for up to 3 weeks. When 4T1 tumor cells were implanted 1-week post-infusion of labeled T-lymphocytes, T-lymphocytes responded to the immunologic challenge and accumulated at the site of 4T1 cell implantation within two hours and the signal persisted for 2 more weeks. Tumor accumulation of labeled 4T1 specific T-lymphocytes was absent in mice bearing Meth A sarcoma tumors. When lysate of 4T1 specific labeled T-lymphocytes was injected into 4T1 tumor bearing mice the near infrared signal was not detected at the tumor site. In conclusion, our validated results confirm that the near infrared signal detected at the tumor site represents the DiR labeled 4T1 specific viable T-lymphocytes and their response to immunologic challenge can be imaged in vivo.     

Dynamic Near-Infrared Optical Imaging of 2-Deoxyglucose Uptake by Intracranial Glioma of Athymic Mice

Background

It is recognized that cancer cells exhibit highly elevated glucose metabolism compared to non-tumor cells. We have applied in vivo optical imaging to study dynamic uptake of a near-infrared dye-labeled glucose analogue, 2-deoxyglucose (2-DG) by orthotopic glioma in a mouse model.

Methodology and Principal Findings

The orthotopic glioma model was established by surgically implanting U87-luc glioma cells into the right caudal nuclear area of nude mice. Intracranial tumor growth was monitored longitudinally by bioluminescence imaging and MRI. When tumor size reached >4 mm diameter, dynamic fluorescence imaging was performed after an injection of the NIR labeled 2-DG, IRDye800CW 2-DG. Real-time whole body images acquired immediately after i.v. infusion clearly visualized the near-infrared dye circulating into various internal organs sequentially. Dynamic fluorescence imaging revealed significantly higher signal intensity in the tumor side of the brain than the contralateral normal brain 24 h after injection (tumor/normal ratio, TNR  = 2.8±0.7). Even stronger contrast was achieved by removing the scalp (TNR  = 3.7±1.1) and skull (TNR  = 4.2±1.1) of the mice. In contrast, a control dye, IRDye800CW carboxylate, showed little difference (1.1±0.2). Ex vivo fluorescence imaging performed on ultrathin cryosections (20 µm) of tumor bearing whole brain revealed distinct tumor margins. Microscopic imaging identified cytoplasmic locations of the 2-DG dye in tumor cells.

Conclusion and Significance

Our results suggest that the near-infrared dye labeled 2-DG may serve as a useful fluorescence imaging probe to noninvasively assess intracranial tumor burden in preclinical animal models.     

间充质干细胞双标记光学成像的体内试验研究

目的:验证双标记生物发光成像活体观测MSCs在肝癌裸鼠模型向肿瘤病灶的趋化作用的可行性。方法:应用fluorescence(荧光)与bioluminescence(生物发光)两种成像方法,对MSCs进行CM-Di I荧光标记及对人肝癌细胞Hep G2进行Fluc-慢病毒感染并由此建立裸鼠肝癌模型,构建双标记成像系统,应用精诺真小动物光学成像仪在裸鼠肝癌模型中观测间充质干细胞向肿瘤的趋化作用。结果:在鼠尾静脉注射标记MSCs细胞后21天荧光成像可见MSCs主要积聚于肿瘤病灶处及肝脏。生物发光成像后可监测到病灶处由luciferase标记肿瘤细胞(Hep G2)发出荧光;将荧光成像与生物发光成像所得图像经后处理融合后,可见证间充质干细胞像肿瘤病灶定向迁徙的生物过程。经肿瘤病理切片证实间充质干细胞成功迁徙至肿瘤病灶中。结论:应用间充质干细胞双标记光学成像系统实现MSCs在活体内对肿瘤的趋化过程进行观测是可行的。这种成像方法可作为下一步以MSCs为载体的肿瘤基因治疗的有效监测手段。     

胡桃醌不同给药途径对人肝癌细胞BEL-7402裸鼠皮下移植瘤生长的影响

目的采用裸鼠皮下移植瘤模型,通过不同给药途径对胡桃醌抗肿瘤活性和毒性进行评价。方法建立人肝癌BEL-7402细胞裸鼠皮下移植瘤模型,通过腹腔注射和局部注射两个给药途径观察胡桃醌抑制肿瘤生长的效果。结果①以600、300和150μg/kg胡桃醌腹腔注射于人肝癌BEL-7402细胞裸鼠皮下移植瘤模型,发现该剂量胡桃醌对肿瘤生长没有明显的影响;NK细胞活性检测发现,600、300μg/kg胡桃醌对裸鼠免疫功能有影响(P均<0.01),150μg/kg胡桃醌则没有影响(P>0.05);与阳性对照组(5-Fu)相比,600μg/kg胡桃醌组NK细胞活性差异无显著性(P>0.05),300和150μg/kg胡桃醌组NK细胞活性差异有显著性(P<0.05,P<0.01),结果提示胡桃醌对小鼠免疫系统有一定的损伤作用。②以4.5、3和1.5 mg/kg胡桃醌腹腔注射于人肝癌BEL-7402细胞裸鼠皮下移植瘤模型,抑瘤率分别为为78.24%、66.57%、48.94%;4.5、3 mg/kg胡桃醌的抑瘤作用可与阳性对照组比拟(P均>0.05)。但4.5 mg/kg胡桃醌组裸鼠出现明显的皮下脂肪减少、消瘦,并有死亡现象。③以pH 7.4和pH 4.0的600、300和150μg/kg胡桃醌人肝癌BEL-7402细胞裸鼠皮下移植瘤模型局部给药,结果发现不同pH(pH 7.4或4.0)600、300μg/kg的胡桃醌局部注射抑瘤作用与阳性对照组(5-Fu)组差异无显著性(P>0.05),而不同pH的150μg/kg胡桃醌抑瘤作用不明显。同一浓度不同pH药物的抑瘤作用差异无显著性(P均>0.05),但pH 4.0的胡桃醌组肿瘤细胞肝转移较少。结论胡桃醌不同给药途径均可抑制人肝癌BEL-7402细胞裸鼠皮下移植瘤的生长,但有一定的毒副作用,药物安全范围较小。     

绿色荧光裸鼠的建立和验证

目的建立系统性表达绿色荧光蛋白的裸鼠,接种人源肺癌细胞验证该模型是否具有免疫缺陷性,并观察双色荧光的成像效果。方法利用系统性表达绿色荧光蛋白的C57BL/6J小鼠与BALB/C裸小鼠多代杂交和互交,建立稳定表达绿色荧光蛋白的裸鼠。大体解剖观察胸腺生长情况,整体和器官荧光成像验证绿色荧光蛋白的表达情况。以2×106/只的剂量对其皮下腋下接种表达红色荧光蛋白的人类A549肺癌细胞（RFP-A549）,通过观测肿瘤生长来验证模型的免疫缺陷性。同时,利用红色荧光标记的肿瘤和绿色宿主鼠,对双色的整体成像效果进行观测。结果构建出系统性表达绿色荧光蛋白的裸鼠,大体解剖可见胸腺缺失。在激发光的激发下,绿色荧光裸鼠全身发出清晰的绿色荧光,脑、心脏、肺脏、肝脏、肾脏,肠胃及胰腺等主要器官可见明显绿色荧光。接种RFP-A549细胞后,成瘤率达到100%,整体动物荧光成像表现出清晰的双色。结论本研究构建出的绿色荧光裸鼠,动物整体可以清晰地表达绿色荧光并具有免疫缺陷性     

肿瘤移植裸鼠粪类圆线虫感染病原和分子诊断

目的：肿瘤移植裸鼠粪类圆虫病诊断。方法肿瘤移植裸鼠的尸体解剖显微镜检查发现类圆线虫作形态学鉴定并采用二重PCR进行分子诊断。结果尸检发现肿瘤移植裸鼠样本中出现大量粪类圆线虫,初步确诊粪类圆线虫病,二重PCR检出样本中粪类圆线虫特定DNA进一步确诊。结论防止这种严重后果是早期诊断。肿瘤移植受体和供体应进行寄生虫感染包括类圆线虫病筛查。本研究第一个广泛报道了肿瘤移植裸鼠粪类圆虫病诊断。