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Human mesenchymal stromal cells inhibit tumor growth in orthotopic glioblastoma xenografts
Human mesenchymal stromal cells inhibit tumor growth in orthotopic glioblastoma xenografts
by Giannetti, Stefano , Buccarelli, Mariachiara , Falchetti, Maria Laura , Ricci-Vitiani, Lucia , Coccè, Valentina , Alessandri, Giulio , Bonomi, Arianna , Pessina, Augusto , Pallini, Roberto , Pacioni, Simone , D’Alessandris, Quintino Giorgio , Morgante, Liliana , Pascucci, Luisa
in Adipocytes / Angiogenesis / Animal models / Animals / Apoptosis / Biomedical and Life Sciences / Biomedical Engineering and Bioengineering / Bone marrow / Brain cancer / Brain tumors / Carotid artery / Cell Biology / Cell Line, Tumor / Cell Proliferation / Cell survival / Combined Modality Therapy / Cytotoxicity / Femur / Fibroblasts / Glioblastoma / Glioblastoma - pathology / Glioblastoma - therapy / Glioma / Glioma cells / Green fluorescent protein / Growth factors / Humans / Injection / Life Sciences / Mesenchymal Stem Cell Transplantation / Mesenchymal stem cells / Mesenchymal Stromal Cells / Mesenchyme / Mice / Microglia / Neostriatum / Paclitaxel - administration & dosage / Rats / Regenerative Medicine/Tissue Engineering / Skin & tissue grafts / Stem Cells / Survival / Tropism / Tumor cells / Tumors / Xenograft Model Antitumor Assays / Xenografts
2017
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Human mesenchymal stromal cells inhibit tumor growth in orthotopic glioblastoma xenografts
by Giannetti, Stefano , Buccarelli, Mariachiara , Falchetti, Maria Laura , Ricci-Vitiani, Lucia , Coccè, Valentina , Alessandri, Giulio , Bonomi, Arianna , Pessina, Augusto , Pallini, Roberto , Pacioni, Simone , D’Alessandris, Quintino Giorgio , Morgante, Liliana , Pascucci, Luisa
in Adipocytes / Angiogenesis / Animal models / Animals / Apoptosis / Biomedical and Life Sciences / Biomedical Engineering and Bioengineering / Bone marrow / Brain cancer / Brain tumors / Carotid artery / Cell Biology / Cell Line, Tumor / Cell Proliferation / Cell survival / Combined Modality Therapy / Cytotoxicity / Femur / Fibroblasts / Glioblastoma / Glioblastoma - pathology / Glioblastoma - therapy / Glioma / Glioma cells / Green fluorescent protein / Growth factors / Humans / Injection / Life Sciences / Mesenchymal Stem Cell Transplantation / Mesenchymal stem cells / Mesenchymal Stromal Cells / Mesenchyme / Mice / Microglia / Neostriatum / Paclitaxel - administration & dosage / Rats / Regenerative Medicine/Tissue Engineering / Skin & tissue grafts / Stem Cells / Survival / Tropism / Tumor cells / Tumors / Xenograft Model Antitumor Assays / Xenografts
2017
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Human mesenchymal stromal cells inhibit tumor growth in orthotopic glioblastoma xenografts
Human mesenchymal stromal cells inhibit tumor growth in orthotopic glioblastoma xenografts
by Giannetti, Stefano , Buccarelli, Mariachiara , Falchetti, Maria Laura , Ricci-Vitiani, Lucia , Coccè, Valentina , Alessandri, Giulio , Bonomi, Arianna , Pessina, Augusto , Pallini, Roberto , Pacioni, Simone , D’Alessandris, Quintino Giorgio , Morgante, Liliana , Pascucci, Luisa
in Adipocytes / Angiogenesis / Animal models / Animals / Apoptosis / Biomedical and Life Sciences / Biomedical Engineering and Bioengineering / Bone marrow / Brain cancer / Brain tumors / Carotid artery / Cell Biology / Cell Line, Tumor / Cell Proliferation / Cell survival / Combined Modality Therapy / Cytotoxicity / Femur / Fibroblasts / Glioblastoma / Glioblastoma - pathology / Glioblastoma - therapy / Glioma / Glioma cells / Green fluorescent protein / Growth factors / Humans / Injection / Life Sciences / Mesenchymal Stem Cell Transplantation / Mesenchymal stem cells / Mesenchymal Stromal Cells / Mesenchyme / Mice / Microglia / Neostriatum / Paclitaxel - administration & dosage / Rats / Regenerative Medicine/Tissue Engineering / Skin & tissue grafts / Stem Cells / Survival / Tropism / Tumor cells / Tumors / Xenograft Model Antitumor Assays / Xenografts
2017

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Human mesenchymal stromal cells inhibit tumor growth in orthotopic glioblastoma xenografts
Human mesenchymal stromal cells inhibit tumor growth in orthotopic glioblastoma xenografts
Journal Article

Human mesenchymal stromal cells inhibit tumor growth in orthotopic glioblastoma xenografts

Giannetti, Stefano,
Buccarelli, Mariachiara,
Falchetti, Maria Laura,
Ricci-Vitiani, Lucia,
Coccè, Valentina,
Alessandri, Giulio,
Bonomi, Arianna,
Pessina, Augusto,
Pallini, Roberto,
Pacioni, Simone,
D’Alessandris, Quintino Giorgio,
Morgante, Liliana,
Pascucci, Luisa
2017
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Overview
Background Mesenchymal stem/stromal cells (MSCs) represent an attractive tool for cell-based cancer therapy mainly because of their ability to migrate to tumors and to release bioactive molecules. However, the impact of MSCs on tumor growth has not been fully established. We previously demonstrated that murine MSCs show a strong tropism towards glioblastoma (GBM) brain xenografts and that these cells are able to uptake and release the chemotherapeutic drug paclitaxel (PTX), maintaining their tropism towards the tumor. Here, we address the therapy-relevant issue of using MSCs from human donors (hMSCs) for local or systemic administration in orthotopic GBM models, including xenografts of patient-derived glioma stem cells (GSCs). Methods U87MG or GSC1 cells expressing the green fluorescent protein (GFP) were grafted onto the striatum of immunosuppressed rats. Adipose hMSCs (Ad-hMSCs), fluorescently labeled with the mCherry protein, were inoculated adjacent to or into the tumor. In rats bearing U87MG xenografts, systemic injections of Ad-hMSCs or bone marrow (BM)-hMSCs were done via the femoral vein or carotid artery. In each experiment, either PTX-loaded or unloaded hMSCs were used. To characterize the effects of hMSCs on tumor growth, we analyzed survival, tumor volume, tumor cell proliferation, and microvascular density. Results Overall, the AD-hMSCs showed remarkable tropism towards the tumor. Intracerebral injection of Ad-hMSCs significantly improved the survival of rats with U87MG xenografts. This effect was associated with a reduction in tumor growth, tumor cell proliferation, and microvascular density. In GSC1 xenografts, intratumoral injection of Ad-hMSCs depleted the tumor cell population and induced migration of resident microglial cells. Overall, PTX loading did not significantly enhance the antitumor potential of hMSCs. Systemically injected Ad- and BM-hMSCs homed to tumor xenografts. The efficiency of hMSC homing ranged between 0.02 and 0.5% of the injected cells, depending both on the route of cell injection and on the source from which the hMSCs were derived. Importantly, systemically injected PTX-loaded hMSCs that homed to the xenograft induced cytotoxic damage to the surrounding tumor cells. Conclusions hMSCs have a therapeutic potential in GBM brain xenografts which is also expressed against the GSC population. In this context, PTX loading of hMSCs seems to play a minor role.
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Publisher
BioMed Central,Springer Nature B.V
Subject

Adipocytes

/ Angiogenesis

/ Animal models

/ Animals

/ Apoptosis

/ Biomedical and Life Sciences

/ Biomedical Engineering and Bioengineering

/ Bone marrow

/ Brain cancer

/ Brain tumors

/ Carotid artery

/ Cell Biology

/ Cell Line, Tumor

/ Cell Proliferation

/ Cell survival

/ Combined Modality Therapy

/ Cytotoxicity

/ Femur

/ Fibroblasts

/ Glioblastoma

/ Glioblastoma - pathology

/ Glioblastoma - therapy

/ Glioma

/ Glioma cells

/ Green fluorescent protein

/ Growth factors

/ Humans

/ Injection

/ Life Sciences

/ Mesenchymal Stem Cell Transplantation

/ Mesenchymal stem cells

/ Mesenchymal Stromal Cells

/ Mesenchyme

/ Mice

/ Microglia

/ Neostriatum

/ Paclitaxel - administration & dosage

/ Rats

/ Regenerative Medicine/Tissue Engineering

/ Skin & tissue grafts

/ Stem Cells

/ Survival

/ Tropism

/ Tumor cells

/ Tumors

/ Xenograft Model Antitumor Assays

/ Xenografts

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