IL-12 gene therapy using an electrically mediated nonviral approach reduces metastatic growth of melanoma

Interleukin-12 (IL-12) has been evaluated in both preclinical and clinical immunotherapy protocols as a potential therapy for melanoma. However, delivery of IL-12 in the form of recombinant protein can result in severe toxicity, and gene therapy has had limited success against B16.F10 murine melanoma. This study investigated the therapeutic effect of delivering a plasmid encoding IL-12 followed by electroporation on primary and secondary tumors. Three treatments of intratumoral (i.t.) plasmid injection and electroporation resulted in 80% of mice with B16.F10 melanoma tumors being tumor free for >100 days (cure). The "cured animals" were resistant to challenge with B16 cells. In a separate experiment, B16 cells were injected on the opposite flank of the treated tumor on the day of treatment. Eighty-seven percent of control mice developed a distant tumor while only 43.8% of mice receiving two or three i.t. electroporation treatments developed a distant tumor. For examination of tumor development in the lungs, mice were injected intravenously with B16.F10 cells then treated with i.m. injections of plasmid with or without electroporation. Only 37.5% of mice receiving i.m. injections and electroporation developed nodules in the lungs compared to 87.5% of mice in the no-treatment group. The results show that administration of a plasmid encoding IL-12 with electroporation has a therapeutic effect on primary tumors as well as distant tumors and metastases.     

荧光标记技术在肿瘤模型研究中的应用

目的利用绿色荧光小鼠和红色荧光蛋白标记肿瘤细胞,建立荧光标记的小鼠肿瘤模型,并建立活体荧光成像和荧光显微镜成像在整体和细胞水平直接观察肿瘤的技术。方法将小鼠B16黑色素瘤细胞接种到绿色荧光蛋白转基因小鼠皮下,建立GFP小鼠肿瘤模型。以红色荧光蛋白作为标记基因导入小鼠黑色素瘤细胞B16细胞,建立稳定表达红色荧光蛋白的细胞株。将表达红色荧光蛋白B16细胞接种到绿色荧光转基因小鼠皮下,建立双荧光小鼠肿瘤模型。用荧光显微镜和活体荧光成像系统检测小鼠肿瘤的发生发展。结果分别建立了GFP小鼠肿瘤模型和双色荧光小鼠肿瘤模型。利用活体荧光影像仪可以观察双色荧光小鼠模型中受体绿色荧光组织和红色荧光移植肿瘤相互融合。利用荧光显微镜,可以观察到肿瘤内绿色荧光标记的来源于受体小鼠的血管和免疫细胞。经香菇多糖刺激的GFP小鼠肿瘤模型的移植瘤组织中,来源于受体小鼠绿色荧光标记的免疫细胞明显多于经生理盐水刺激的对照小鼠。结论利用绿色荧光小鼠和红色荧光RFP标记肿瘤细胞建立荧光标记的小鼠肿瘤模型,采用活体荧光成像仪和荧光显微镜可在整体和细胞水平直接观察肿瘤的生长以及肿瘤与宿主的相互作用。     

Vascularization of liver metastases: a corrosion cast study

22 livers with multiple metastases from different primaries were injected with acrylate resin and examined stereoscopically. All metastases had developed an individual pattern of vascularization. The metastases of 8 out of 12 livers injected via the portal vein showed a distinct blood supply by the portal vessels. In all 16 livers with arterial hypervascularized metastases the development of pathological tumor vessels could be demonstrated. All metastases of the same liver showed an identical pattern of vascularization. Larger branches of the hepatic vein always were displaced by the growing tumor. It was impossible however to infer from the vascularization pattern of the metastases to the primaries. The clinical relevance of these anatomical findings will be discussed.     

siRNA干扰MMP-9和FAK双基因抑制小鼠黑色素瘤生长和在体迁移

目的:观察干扰MMP-9和FAK双基因对恶性黑色素瘤高转移细胞B16F10体内转移的影响。方法:构建PGV102-MMP9-siRNA、PGV102-FAK-siRNA重组质粒载体,脂质体^TM2000介导转染小鼠黑色素瘤B16F10细胞,RT-PCR检测基因的干扰效果;建立C57BL/6小鼠皮下移植瘤模型观察细胞在体成瘤和肿瘤的生长情况,常规组织切片,H&E染色观察肿瘤组织病理学特征;经C57BL/6小鼠尾静脉注射细胞5×10⁵个/只,24天后计数小鼠肺转移结节数评价肿瘤细胞在体迁移能力。结果:RT-PCR结果表明,重组质粒转染细胞组的MMP-9和FAK的mRNA水平显著低于正常细胞组(P<0.01),转染细胞组C57BL/6小鼠皮下成瘤的肿瘤生长速率、黑色素瘤肺转移结节数明显低于正常细胞组(P<0.01)。结论:干扰B16F10细胞MMP-9和FAK双基因可明显抑制小鼠体内恶性肿瘤的生长和迁移。     

Biodistribution and tumor localization of lymphokine-activated killer T cells following different routes of administration into tumor-bearing animals

The efficiency of adoptive cellular immunotherapy of cancer might depend on the number of effector cells that reach the malignant tissues. In the present study, the biodistribution and tumor localization of ex vivo lymphokine-activated T killer (T-LAK) cells was investigated. Methods: T-LAK cells were labeled with ¹²⁵I-dU or the fluorescent dye tetramethylrhodamine isothiocyanate (TRITC) and transferred by intravenous, -cardiac, -portal or -peritoneal injection into normal (C57BL/6) mice or mice with syngeneic day-7 to day-12 B16 melanoma metastases established in various organs. The overall biodistribution of the T-LAK cells was measured by gamma counting and their tumor localization by fluorescence microscopy. Results: At 16 h after intravenous injection, the organ distribution of ¹²⁵I-dU-labeled T-LAK cells was identical in normal and tumor-bearing animals. Fluorescence microscopy of lung tissue from animals receiving TRITC-labeled T-LAK cells revealed, however, a fivefold higher accumulation of T-LAK cells in lung metastases than in the surrounding normal lung tissue (1174 and 226 cells/mm² respectively). Some pulmonary metastases were, however, resistant to infiltration. Very few intravenously injected cells redistributed to other organs or to tumors in these, since only 60 and 30 T-LAK cells/mm² were found within metastases of the adrenal glands and the liver respectively. However, following injection of T-LAK cells via the left ventricle of the heart, a threefold increase (from 60 to 169 cells/mm²) in the number of transferred cells in metastases of the adrenal glands was observed. Moreover, following locoregional administration of T-LAK cells into the portal vein, tenfold higher numbers (from 30 to 400 cells/mm²) were found in hepatic metastases than were observed following intravenous or intracardiac injection. In the liver, a surprisingly large number of intraportally injected T-LAK cells (approx. 1300/mm²) were observed to accumulate in the perivascular spaces of the portal, but not the central veins. Even though some superficial ovarian and liver metastases were separated from the peritoneal cavity by only the peritoneal lining, no localization into these metastases was seen following intraperitoneal injection of the T-LAK cells. While treatment of tumor-bearing animals with T-LAK cells plus IL-2 reduced lung metastases by 76% as compared to treatment with IL-2 alone (P < 0.03), no significant reduction of liver metastases was seen. Conclusions: T-LAK cells are able to localize substantially into tumor metastases in various anatomical locations, but mainly following locoregional injection. This finding might have important implications for the design of future clinical protocols of adoptive immunotherapy based on T cells. Received: 29 April 1999 / Accepted: 5 August 1999     

Galectin-9 suppresses tumor metastasis by blocking adhesion to endothelium and extracellular matrices

We previously described an inverse correlation between galectin-9 (Gal-9) expression and metastasis in patients with malignant melanoma and breast cancer. This study verified the ability of Gal-9 to inhibit lung metastasis in experimental mouse models using highly metastatic B16F10 melanoma and Colon26 colon cancer cells. B16F10 cells transfected with a secreted form of Gal-9 lost their metastatic potential. Intravenous Gal-9 administration reduced the number of metastases of both B16F10 and Colon26 cells in the lung, indicating that secreted Gal-9 suppresses metastasis. Analysis of adhesive molecule expression revealed that B16F10 cells highly express CD44, integrin alpha1, alpha 4, alpha V, and beta1, and that Colon26 cells express CD44, integrin alpha2, alpha 5, alpha V, and beta1, suggesting that Gal-9 may inhibit the adhesion of tumor cells to vascular endothelium and the extracellular matrix (ECM) by binding to such adhesive molecules. Indeed, Gal-9 suppressed the binding of hyaluronic acid to CD44 on both B16F10 and Colon26 cells, and also suppressed the binding of vascular cell adhesion molecule-1 to very late antigen-4 on B16F10 cells. Furthermore, Gal-9 inhibited the binding of tumor cells to ECM components, resulting in the suppression of tumor cell migration. The present results suggest that Gal-9 suppresses both attachment and invasion of tumor cells by inhibiting the binding of adhesive molecules on tumor cells to ligands on vascular endothelium and ECM.     

Antimetastatic effect of recombinant human macrophage-colony-stimulating factor against lung and liver metastatic B16 melanoma

 We studied the effect of recombinant human macrophage-colony-stimulating factor (rhM-CSF) on the formation of lung and liver metastases following the i.v. injection of the B16 melanoma subline (B16 LiLu) into mice. When rhM-CSF was administered before the B16 inoculation, the number of tumor metastases decreased in the lung and liver. However, the administration of rhM-CSF after B16 inoculation did not produce an antimetastatic effect in the lung, but did in the liver. B16 cells labeled with 5-[¹²⁵I]-iodo-2′-deoxyuridine (¹²⁵I-dUrd) were injected and the arrest of tumor cell emboli was examined in the capillary beds of the lung and liver of mice treated with either vehicle or rhM-CSF. In both groups, there were the same numbers of B16 cells in both the lung and the liver 3 minutes after the B16 injection, and almost all tumor cells died within 24 h. However, the number of cells surviving in the lung was decreased in mice injected with rhM-CSF (37%). There was no difference in the number of cells in the livers of mice treated either with vehicle or rhM-CSF in the first 24 h after tumor cell injection. The administration of rhM-CSF increased NK 1.1⁺ cells in the mouse spleen and facilitated NK activity in vivo. At the same time, the administration of an anti-NK 1.1 antibody blocked the antimetastatic effect of rhM-CSF in the lung but not in the liver. The antibody was effective only when it was injected before the B16 inoculation. These results suggest that the antimetastatic effect of rhM-CSF in the lung was mediated by NK 1.1⁺ cells within 24 h of B16 injection. In contrast, the antimetastatic effect of rhM-CSF in the liver was mediated not only by NK 1.1⁺ cells but also by other antimetastatic systems such as macrophages. Received: 8 April 1996 / Accepted: 26 November 1996     

Dual roles of sialyl Lewis X oligosaccharides in tumor metastasis and rejection by natural killer cells

Aberrant expression of cell surface carbohydrates such as sialyl Lewis X is associated with tumor formation and metastasis. In order to determine the roles of sialyl Lewis X in tumor metastasis, mouse melanoma B16-F1 cells were stably transfected with alpha1, 3-fucosyltransferase III to express sialyl Lewis X structures. The transfected B16-F1 cells, B16-FTIII, were separated by cell sorting into three different groups based on the expression levels of sialyl Lewis X. When these transfected cells were injected into tail veins of C57BL/6 mice, B16-FTIII.M cells expressing moderate amounts of sialyl Lewis X in poly-N-acetyllactosamines produced large numbers of lung tumor nodules. Surprisingly, B16-FTIII.H cells expressing the highest amount of sialyl Lewis X in shorter N-glycans died in lung blood vessels, producing as few lung nodules as B16-FTIII.N cells which lack sialyl Lewis X. In contrast, B16-FIII.H cells formed more tumors in beige mice and NK cell-depleted C57BL/6 mice than did B16-FTIII.M cells. B16-FTIII.H cells bound to E-selectin better than did B16-FTIII.M cells, but both cells grew at the same rate. These results indicate that excessive expression of sialyl Lewis X in tumor cells leads to rejection by NK cells rather than tumor formation facilitated by attachment to endothelial cells.     

Brugia malayi microfilaraemia in mice: a model for the study of the host response to microfilariae

Microfilariae of Brugia malayi were obtained from the peritoneal cavities of infected gerbils and were then injected intravenously into mice. A sub-periodic, nocturnal microfilaraemia was produced. The level of microfilaraemia was proportional to the number of parasites injected, with approximately 1-3% of microfilariae being found in the peripheral circulation. The duration of microfilaraemia was proportional to the number of parasites injected; it subsided by 30 days after injection of 104 microfilariae but was still present at a low level 120 days after injection of 2 x 105 microfilariae. A transient splenomegaly developed after injection of microfilariae. Histopathological examination revealed large numbers of microfilariae free in the lumens of pulmonary small blood vessels and without any accompanying inflammatory reaction. Lesser numbers of microfilariae were seen in the cardiac blood and hepatic and renal blood vessels for the first few days after injection. There was cellular proliferation in the splenic white pulp and vascular congestion of the red pulp. Microfilariae labelled with 51Cr were injected intravenously; 57% of radioactivity was found in the lungs, 8.5% in the liver and 2.9% in the spleen. Mice developed immediate hypersensitivity reactions to B. malayi antigen by 4 weeks after injection, but Arthus and delayed hypersensitivity reactions were not seen at any time. when mice which had been injected 5 months previously were challenged with a 2nd injection of microfilariae, there was an accelerated clearance of parasites over 2 weeks and a marked peripheral blood eosinophilia developed. In contrast with natural infections, in which the continuous production of microfilariae complicates assessment, this model provides a system in which factors controlling the circulation of microfilariae in the bloodstream can be studied independently.     

Three-dimensional characterization of the vascular bed in bone metastasis of the rat by microcomputed tomography (MicroCT)

Background

Angiogenesis contributes to proliferation and metastatic dissemination of cancer cells. Anatomy of blood vessels in tumors has been characterized with 2D techniques (histology or angiography). They are not fully representative of the trajectories of vessels throughout the tissues and are not adapted to analyze changes occurring inside the bone marrow cavities.

Methodology/Principal Findings

We have characterized the vasculature of bone metastases in 3D at different times of evolution of the disease. Metastases were induced in the femur of Wistar rats by a local injection of Walker 256/B cells. Microfil®, (a silicone-based polymer) was injected at euthanasia in the aorta 12, 19 and 26 days after injection of tumor cells. Undecalcified bones (containing the radio opaque vascular casts) were analyzed by microCT, and a first 3D model was reconstructed. Bones were then decalcified and reanalyzed by microCT; a second model (comprising only the vessels) was obtained and overimposed on the former, thus providing a clear visualization of vessel trajectories in the invaded metaphysic allowing quantitative evaluation of the vascular volume and vessel diameter. Histological analysis of the marrow was possible on the decalcified specimens. Walker 256/B cells induced a marked osteolysis with cortical perforations. The metaphysis of invaded bones became progressively hypervascular. New vessels replaced the major central medullar artery coming from the diaphyseal shaft. They sprouted from the periosteum and extended into the metastatic area. The newly formed vessels were irregular in diameter, tortuous with a disorganized architecture. A quantitative analysis of vascular volume indicated that neoangiogenesis increased with the development of the tumor with the appearance of vessels with a larger diameter.

Conclusion

This new method evidenced the tumor angiogenesis in 3D at different development times of the metastasis growth. Bone and the vascular bed can be identified by a double reconstruction and allowed a quantitative evaluation of angiogenesis upon time.     

Colonization of the rat liver by syngeneic tumor cells. An experimental approach by in vivo and in situ studies

Syngeneic colon carcinoma cells and glioma cells were injected into the portal vein of BD IX rats. After various time periods the animals were sacrificed and the livers and lungs were fixed and prepared for histology. Atypical cells were observed in the liver 4 and 7 days after the injection of tumor cells, whereas distinct colonies of both colon carcinoma and glioma cells were demonstrated after 14 days. Lung metastases of both tumor cell types were seen after 14 and 30 days. Furthermore, injection of glioma and carcinoma cells into the tail vein gave detectable lung metastases after 7 and 4 days respectively. Intraperitoneal injection of tumor cells resulted in the accumulation of large tumor masses, particularly in the mesentery. By in situ perfusions of the liver with tumor cells included in the perfusion medium it was possible to establish that all the tumor cells were arrested in the course of 4 min. In contrast, normal rat leukocytes were not trapped in the liver, whereas trypsin-treated leukocytes were, suggesting the importance of trypsin-sensitive structures for binding to hepatic tissue. The binding of both glioma and carcinoma cells to the liver and the ensuing growth of tumor nodules in this organ indicate a lack of specificity on part of the malignant cell types for metastasis to the liver in the rat. Both tumor cell types colonized the first organ encountered after injection.     

尼泊尔马桑根瘤维管束形态发育研究

以生物制片和光学显微技术研究了尼泊尔马桑根瘤维管束的形态结构和发育特点。尼泊尔马桑根瘤维管束呈多重二叉分枝的树状结构,这是由根瘤顶端分生组织不断分裂形成的。它在基部与植物维管系统联成一体,在本质上是由植物侧根原基衍生而来。马桑根瘤维管束的这种形态结构和发育特点不同于豆科植物根瘤,也不同于杨梅属、木麻黄属等非豆科植物的根瘤。     

GFP-SA融合蛋白的表达纯化及其锚定修饰肿瘤细胞的研究

目的　GFP（绿色荧光蛋白）-SA（链亲和素）双功能融合蛋白的制备及其鉴定研究,以展示我们建立的技术平台,即用含链亲和素的双功能融合蛋白对生物素化的细胞表面进行高效的锚定修饰。方法　构建原核表达载体pET24d/GFP-SA转化大肠杆菌BL21(DE3)。用IPTG诱导重组蛋白的表达,用镍金属螯合（Ni-NTA）层析柱进行纯化。用制备的GFP-SA双功能融合蛋白,对B16肿瘤细胞已生物素化的细胞表面进行修饰,经荧光显微镜和流式细胞仪进行修饰效率分析。此外,用MTT法检测细胞表面修饰对肿瘤细胞活力及其生长情况的影响。结果　GFP-SA重组融合蛋白在大肠杆菌实现了高效表达（约占细菌总蛋白的20%）,通过纯化和复性制备的GFP-SA双功能融合蛋白具有双重活性,即：链亲和素介导的、对生物素高效特异的结合活性,和GFP发射绿色荧光的活性,并能高效修饰表面已生物素化的肿瘤细胞。此外,GFP-SA双功能融合蛋白的细胞表面修饰对细胞的活力及其生长无显著影响。结论　GFP-SA融合蛋白能高效修饰表面已生物素化的肿瘤细胞,可用作肿瘤疫苗研究的示踪蛋白及实验对照体系。     

Highly sensitive fluorescence imaging of cancer with avidin-protease probe conjugate

It is a long-term goal of cancer diagnosis to develop tumor-imaging techniques that have sufficient specificity and sensitivity to detect small tumor nodules during surgery or endoscopic surgery. Here, we introduce an avidin-conjugated fluorescence probe, Avidin-Leu-HMRG, which consists of a cancer-targeting macromolecule (avidin) and a protease-activatable probe. The conjugate has a high affinity for lectin on cancer cells and undergoes endocytosis, followed by irreversible fluorescence activation due to cleavage by lysosomal leucine aminopeptidase. In a mouse model of peritoneal ovarian metastases, the probe could detect submillimeter-sized tumor nodules with a high S/N ratio at 1 h after intraperitoneal injection.     

Tumor cells loaded with alpha-galactosylceramide induce innate NKT and NK cell-dependent resistance to tumor implantation in mice

Dendritic cells (DCs) loaded with alpha-galactosylceramide (alpha-GalCer) are known to be active APCs for the stimulation of innate NKT and NK cell responses in vivo. In this study, we evaluated the capacity of non-DCs to present alpha-GalCer in vitro and in vivo, particularly tumor cells loaded with alpha-GalCer (tumor/Gal). Even though the tumor cells lacked expression of CD40, CD80, and CD86 costimulatory molecules, the i.v. injection of tumor/Gal resulted in IFN-gamma secretion by NKT and NK cells. These innate responses to tumor/Gal, including the induction of IL-12p70, were comparable to or better than alpha-GalCer-loaded DCs. B16 melanoma cells that were stably transduced to express higher levels of CD1d showed an increased capacity relative to wild-type B16 cells to present alpha-GalCer in vivo. Three different tumor cell lines, when loaded with alpha-GalCer, failed to establish tumors upon i.v. injection, and the mice survived for at least 6 mo. The resistance against tumor cells was independent of CD4 and CD8 T cells but dependent upon NKT and NK cells. Mice were protected from the development of metastases if the administration of live B16 tumor cells was followed 3 h or 3 days later by the injection of CD1d(high)-alpha-GalCer-loaded B16 tumor cells with or without irradiation. Taken together, these results indicate that tumor/Gal are effective APCs for innate NKT and NK cell responses, and that these innate immune responses are able to resist the establishment of metastases in vivo.     

Oncolytic viral therapy for human colorectal cancer and liver metastases using a multi-mutated herpes simplex virus type-1 (G207).

G207 is a multi-mutated, replication-competent type-1 herpes simplex virus designed to target, infect, and lyse neurological tumors. This study examines the feasibility of using G207 in the treatment of human colorectal cancer and defines the biological determinants of its antitumor efficacy. This virus was tested on five human colorectal cancer cell lines in vitro to determine efficacy of infection and tumor cell kill. These results were correlated to measures of tumor cell proliferation. In vivo testing was performed through direct injections of G207 into xenografts of human colorectal cancer tumors grown in flanks of athymic rats. To evaluate an alternate method of administration, hepatic portal vein infusion of G207 was performed in a syngeneic model of liver metastases in Buffalo rats. Among the five cell lines tested, infection rates ranged between 10% and 90%, which correlated directly with S-phase fraction (8.6%-36.6%) and was proportional to response to G207 therapy in vitro (1%-93%). Direct injection of G207 into nude rat flank tumors suppressed tumor growth significantly vs. control (0.58 +/- 0.60 cm(3) vs. 9.16 +/- 3.70 cm(3), P<0. 0001). In vivo tumor suppression correlated with in vitro effect. In the syngeneic liver tumor model, portal infusion resulted in significant reduction in number of liver nodules (13 +/- 10 nodules in G207-treated livers vs. 80 +/- 30 nodules in control livers, P<0.05). G207 infects and kills human colorectal cancer cells efficiently. In vitro cytotoxicity assay and tumor S-phase fraction can be used to predict response to treatment in vivo. This antineoplastic agent can be delivered effectively by both direct tumor injection and regional vascular infusion. G207 should be investigated further as therapy for colorectal cancer and liver metastases.     

VCAM-1 directed immunoliposomes selectively target tumor vasculature in vivo

Targeting the tumor vasculature and selectively modifying endothelial functions is an attractive anti-tumor strategy. We prepared polyethyleneglycol modified immunoliposomes (IL) directed against vascular cell adhesion molecule 1 (VCAM-1), a surface receptor over-expressed on tumor vessels, and investigated the liposomal targetability in vitro and in vivo. In vitro, anti-VCAM-1 liposomes displayed specific binding to activated endothelial cells under static conditions, as well as under simulated blood flow conditions. The in vivo targeting of IL was analysed in mice bearing human Colo 677 tumor xenografts 30 min and 24 h post i.v. injection. Whereas biodistribution studies using [3H]-labelled liposomes displayed only marginal higher tumor accumulation of VCAM-1 targeted versus unspecific ILs, fluorescence microscopy evaluation revealed that their localisations within tumors differed strongly. VCAM-1 targeted ILs accumulated in tumor vessels with increasing intensities from 30 min to 24 h, while control ILs accumulated in the tumor tissue by passive diffusion. ILs that accumulated in non-affected organs, mainly liver and spleen, primarily co-localised with macrophages. This is the first morphological evidence for selective in vivo targeting of tumor vessels using ILs. VCAM-directed ILs are candidate drug delivery systems for therapeutic anti-cancer approaches designed to alter endothelial function.