Your search keyword '"Calì, B"' showing total 3 results

1. Administration of Human MSC-Derived Extracellular Vesicles for the Treatment of Primary Sclerosing Cholangitis: Preclinical Data in MDR2 Knockout Mice.

Author

Angioni R, Calì B, Vigneswara V, Crescenzi M, Merino A, Sánchez-Rodríguez R, Liboni C, Hoogduijn MJ, Newsome PN, Muraca M, Russo FP, and Viola A

Subjects

Alanine Transaminase blood, Alkaline Phosphatase blood, Animals, Bile Acids and Salts blood, Cholangitis, Sclerosing blood, Cholangitis, Sclerosing genetics, Cholangitis, Sclerosing pathology, Disease Models, Animal, Extracellular Vesicles genetics, Gene Expression Regulation drug effects, Granulocytes pathology, Humans, Inflammation blood, Inflammation genetics, Inflammation pathology, Liver pathology, Mesenchymal Stem Cell Transplantation, Mesenchymal Stem Cells cytology, Mesenchymal Stem Cells metabolism, Mice, Mice, Knockout, T-Lymphocytes pathology, Vascular Cell Adhesion Molecule-1 genetics, ATP-Binding Cassette Sub-Family B Member 4, ATP Binding Cassette Transporter, Subfamily B genetics, Cholangitis, Sclerosing therapy, Inflammation therapy, Liver metabolism

Abstract

Primary Sclerosing Cholangitis (PSC) is a progressive liver disease for which there is no effective medical therapy. PSC belongs to the family of immune-mediated biliary disorders and it is characterized by persistent biliary inflammation and fibrosis. Here, we explored the possibility of using extracellular vesicles (EVs) derived from human, bone marrow mesenchymal stromal cells (MSCs) to target liver inflammation and reduce fibrosis in a mouse model of PSC. Five-week-old male FVB.129P2-Abcb 4tm1Bor mice were intraperitoneally injected with either 100 µL of EVs (± 9.1 × 10 9 particles/mL) or PBS, once a week, for three consecutive weeks. One week after the last injection, mice were sacrificed and liver and blood collected for flow cytometry analysis and transaminase quantification. In FVB.129P2-Abcb4 tm1Bor mice, EV administration resulted in reduced serum levels of alkaline phosphatase (ALP), bile acid (BA), and alanine aminotransferase (ALT), as well as in decreased liver fibrosis. Mechanistically, we observed that EVs reduce liver accumulation of both granulocytes and T cells and dampen VCAM-1 expression. Further analysis revealed that the therapeutic effect of EVs is accompanied by the inhibition of NFkB activation in proximity of the portal triad. Our pre-clinical experiments suggest that EVs isolated from MSCs may represent an effective therapeutic strategy to treat patients suffering from PSC.

Published

2020

2. Correction: Marcuzzi, E., et al. Chemokines and Chemokine Receptors: Orchestrating Tumor Metastasization. Int. J. Mol. Sci. 2019, 20 , 96.

Author

Marcuzzi E, Angioni R, Molon B, and Calì B

Abstract

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Published

2019

3. Chemokines and Chemokine Receptors: Orchestrating Tumor Metastasization.

Author

Marcuzzi E, Angioni R, Molon B, and Calì B

Subjects

Caspases metabolism, Humans, Mitogen-Activated Protein Kinases metabolism, Neoplasm Metastasis, Neoplasms blood supply, Neoplasms metabolism, Neovascularization, Pathologic, Proto-Oncogene Proteins c-bcl-2 metabolism, Signal Transduction, Chemokines metabolism, Neoplasms pathology, Receptors, Chemokine metabolism

Abstract

Metastasis still represents the primary cause of cancer morbidity and mortality worldwide. Chemokine signalling contributes to the overall process of cancer growth and metastasis, and their expression in both primary tumors and metastatic lesions correlate with prognosis. Chemokines promote tumor metastasization by directly supporting cancer cell survival and invasion, angiogenesis, and by indirectly shaping the pre-metastatic niches and antitumor immunity. Here, we will focus on the relevant chemokine/chemokine receptor axes that have been described to drive the metastatic process. We elaborate on their role in the regulation of tumor angiogenesis and immune cell recruitment at both the primary tumor lesions and the pre-metastatic foci. Furthermore, we also discuss the advantages and limits of current pharmacological strategies developed to target chemokine networks for cancer therapy.

Published

2018