Birgitta Sauer scite author profile

Purpose: Paclitaxel encapsulated in cationic liposomes (EndoTAG-1) is a vascular targeting formulation for the treatment of solid tumors. It triggers intratumoral microthrombosis, causing significant inhibition of tumor perfusion and tumor growth associated with endothelial cell apoptosis. Here, we quantified the effects of repeated EndoTAG-1therapy on tumor microvascular leakiness with respect to leukocyte-endothelial cell interactions, the targeting property of cationic liposomes, and the therapeutic combination with conventional cisplatin chemotherapy. Experimental Design: Using dorsal skinfold chamber preparations in Syrian Golden hamsters, in vivo fluorescence microscopy experiments were done after repeated EndoTAG-1 treatment of A-Mel-3 tumors. Controls received glucose, paclitaxel alone, or cationic liposomes devoid of paclitaxel. Extravasation of rhodamine-labeled albumin was measured to calculate microvessel permeability, and intratumoral leukocyte-endothelial cell interactions were quantified. Subcutaneous tumor growth was evaluated after combination therapy followed by histologic analysis. Results: Microvascular permeability was significantly increased only after treatment with EndoTAG-1, whereas intratumoral leukocyte-endothelial cell interactions were not affected by any treatment. In separate skinfold chamber experiments, fluorescently labeled cationic liposomes kept their targeting property for tumor endothelial cells after repeated EndoTAG-1 treatment and no signs of extravasation were observed. Subcutaneous A-Mel-3 tumor growth was significantly inhibited by the combination of cisplatin and EndoTAG-1. Conclusions: These data show that vascular targeting with EndoTAG-1increases tumor microvessel leakiness probably due to vascular damage. This mechanism is not mediated by inflammatory leukocyte-endothelial cell interactions. Manipulating the blood-tumor barrier by repeated tumor microvessel targeting using EndoTAG-1 can effectively be combined with tumor celld irected conventional cisplatin chemotherapy.

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Endostatin cDNA/Cationic liposome complexes as a promising therapy to prevent lung metastases in osteosarcoma: study in a human-like rat orthotopic tumor

Dutour

Monteil

Paraf

et al. 2005

Molecular Therapy

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Antiangiogenesis or destruction of tumor neovessels is an effective strategy to prevent tumor growth. Endostatin, one of the many inhibitors of angiogenesis that have been discovered, has shown conflicting results in preclinical assays. We studied the therapeutic potential of lipid/DNA complexes consisting of cationic liposomes and an endostatin-coding plasmid (Endo cDNA/CLP) in an orthotopic osteosarcoma model in rats. Empty plasmid without the endostatin gene complexed with cationic liposomes served as control. Animals were treated intravenously three times a week starting on the day tumors were detectable by (18)FDG tomoscintigraphy. During treatment, tumor progression was followed by PET scan and angioscintigraphy, and the effects of antivascular therapy on primary tumor, metastases, and tumor vascular density were confirmed by histologic analysis. Our results demonstrate that therapy using Endo cDNA/CLP is associated with pronounced delay in tumor growth. Moreover, it effectively prevented the occurrence of lung metastases, the major reason for bad prognosis and death in osteosarcoma patients. This approach could be used as an adjuvant therapy for osteosarcoma.

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Cationic lipid complexed camptothecin (EndoTAG®-2) improves antitumoral efficacy by tumor vascular targeting

Eichhorn

Luedemann²,

Strieth³

et al. 2007

Cancer Biology & Therapy

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Neo-vascular targeting by cationic colloidal carriers enables to realize an innovative approach for tumor therapy. EndoTag-2 is a novel vascular targeting agent, comprising the mammalian topoisomerase I inhibitor camptothecin in its carboxylate form complexed to cationic lipid (cationic lipid complexed camptothecin). Here we studied tumor vascular targeting properties, antitumoral effects and mode of action of EndoTag-2. Tumor vascular targeting properties of fluorescently labelled EndoTag-2 were investigated by in vivo microscopy using A-MEL-3 tumors grown in the dorsal skinfold chamber preparation and by fluorescence histology of s.c. LLC-1 carcinomas. Therapeutic effects have been investigated in the s.c. LLC-1 carcinoma model and the L3.6pl human pancreatic cancer model implanted orthotopically in athymic nude mice. Antivascular effects have been studied by histological investigation of tumor microvessel density and non invasive investigation of tumor blood flow by dynamic contrast enhanced MRI imaging (DCE-MRI). EndoTag-2 selectively targeted tumor microvessels as confirmed by quantitative fluorescence microscopy. Compared to controls EndoTag-2 revealed remarkable antitumoral efficiency in s.c. LLC-1 carcinomas implanted in C57/Bl6 mice. Growth and metastasis of orthotopic L3.6pl human pancreatic tumors was significantly inhibited by EndoTag-2 treatment. Quantitative analysis of tumor microvessel density revealed significant reduction of microvessel density in lewis lung carcinomas up to 50%. DCE-MRI confirmed significant reduction of intratumoral vascular volume as well as tumor perfusion upon EndoTag-2 treatment. In conclusion this study shows that cationic lipid complexed camptothecin (EndoTag-2) is a markedly active antitumor agent based on an innovative vascular targeting approach.

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Birgitta Sauer

Effect of the surface charge of liposomes on their uptake by angiogenic tumor vessels

Neovascular targeting chemotherapy: Encapsulation of paclitaxel in cationic liposomes impairs functional tumor microvasculature

Paclitaxel Encapsulated in Cationic Liposomes Increases Tumor Microvessel Leakiness and Improves Therapeutic Efficacy in Combination with Cisplatin

Endostatin cDNA/Cationic liposome complexes as a promising therapy to prevent lung metastases in osteosarcoma: study in a human-like rat orthotopic tumor

Cationic lipid complexed camptothecin (EndoTAG®-2) improves antitumoral efficacy by tumor vascular targeting

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