Your search keyword '"Jose M Moraleda"' showing total 5 results

1. CAR-T Related Cytopenia Profile in Relapsed/Refractory Multiple Myeloma: Results of Patients Treated with ARI0002h, an Academic BCMA-Directed CAR-T Cell

Author

Aina Oliver-Caldes, Luis Gerardo Rodríguez-Lobato, Veronica Gonzalez-Calle, Natalia Tovar, Valentin Cabañas, Paula Rodríguez-Otero, Juan Luis Reguera, Marta Español-Rego, Beatriz Martin-Antonio, Aintzane Zabaleta, Marta Lasa, Susana Inogés, Ascensión López-Diaz de Cerio, Bruno Paiva, Sara Varea, Joaquin Saez-Peñataro, Manel Juan, Laura Rosiñol, Felipe Prosper, Jose M. Moraleda, Álvaro Urbano-Ispizua, Mariona Pascal, Maria-Victoria Mateos, and Carlos Fernandez de Larrea

Subjects

Immunology, Cell Biology, Hematology, Biochemistry

Published

2022

2. Enforced mesenchymal stem cell tissue colonization counteracts immunopathology

Author

David García-Bernal, Miguel Blanquer, Carlos M. Martínez, Ana I. García-Guillén, Ana M. García-Hernández, M. Carmen Algueró, Rosa Yáñez, María L. Lamana, Jose M. Moraleda, and Robert Sackstein

Subjects

Biomedical Engineering, Medicine (miscellaneous), Cell Biology, Developmental Biology

Abstract

Mesenchymal stem/stromal cells (MSCs) are distributed within all tissues of the body. Though best known for generating connective tissue and bone, these cells also display immunoregulatory properties. A greater understanding of MSC cell biology is urgently needed because culture-expanded MSCs are increasingly being used in treatment of inflammatory conditions, especially life-threatening immune diseases. While studies in vitro provide abundant evidence of their immunomodulatory capacity, it is unknown whether tissue colonization of MSCs is critical to their ability to dampen/counteract evolving immunopathology in vivo. To address this question, we employed a murine model of fulminant immune-mediated inflammation, acute graft-versus-host disease (aGvHD), provoked by donor splenocyte-enriched full MHC-mismatched hematopoietic stem cell transplant. aGvHD induced the expression of E-selectin within lesional endothelial beds, and tissue-specific recruitment of systemically administered host-derived MSCs was achieved by enforced expression of HCELL, a CD44 glycoform that is a potent E-selectin ligand. Compared to mice receiving HCELL−MSCs, recipients of HCELL+MSCs had increased MSC intercalation within aGvHD-affected site(s), decreased leukocyte infiltrates, lower systemic inflammatory cytokine levels, superior tissue preservation, and markedly improved survival. Mechanistic studies reveal that ligation of HCELL/CD44 on the MSC surface markedly potentiates MSC immunomodulatory activity by inducing MSC secretion of a variety of potent immunoregulatory molecules, including IL-10. These findings indicate that MSCs counteract immunopathology in situ, and highlight a role for CD44 engagement in unleashing MSC immunobiologic properties that maintain/establish tissue immunohomeostasis.

Published

2022

3. Optimization of Mesenchymal Stromal Cell (MSC) Manufacturing Processes for a Better Therapeutic Outcome

Author

Maria Eugenia Fernández-Santos, Mariano Garcia-Arranz, Enrique J. Andreu, Ana Maria García-Hernández, Miriam López-Parra, Eva Villarón, Pilar Sepúlveda, Francisco Fernández-Avilés, Damian García-Olmo, Felipe Prosper, Fermin Sánchez-Guijo, Jose M. Moraleda, and Agustin G. Zapata

Subjects

Extracellular Vesicles, Treatment Outcome, Immunology, Cell- and Tissue-Based Therapy, Immunology and Allergy, Mesenchymal Stem Cells, Umbilical Cord

Abstract

MSCs products as well as their derived extracellular vesicles, are currently being explored as advanced biologics in cell-based therapies with high expectations for their clinical use in the next few years. In recent years, various strategies designed for improving the therapeutic potential of mesenchymal stromal cells (MSCs), including pre-conditioning for enhanced cytokine production, improved cell homing and strengthening of immunomodulatory properties, have been developed but the manufacture and handling of these cells for their use as advanced therapy medicinal products (ATMPs) remains insufficiently studied, and available data are mainly related to non-industrial processes. In the present article, we will review this topic, analyzing current information on the specific regulations, the selection of living donors as well as MSCs from different sources (bone marrow, adipose tissue, umbilical cord, etc.), in-process quality controls for ensuring cell efficiency and safety during all stages of the manual and automatic (bioreactors) manufacturing process, including cryopreservation, the use of cell banks, handling medicines, transport systems of ATMPs, among other related aspects, according to European and US legislation. Our aim is to provide a guide for a better, homogeneous manufacturing of therapeutic cellular products with special reference to MSCs.

Published

2022

4. The current status of mesenchymal stromal cells: controversies, unresolved issues and some promising solutions to improve their therapeutic efficacy

Author

David García-Bernal, Mariano García-Arranz, Rosa M. Yáñez, Rosario Hervás-Salcedo, Alfonso Cortés, María Fernández-García, Miriam Hernando-Rodríguez, Óscar Quintana-Bustamante, Juan A. Bueren, Damián García-Olmo, Jose M. Moraleda, José C. Segovia, and Agustín G. Zapata

Subjects

Cell type, medicine.medical_treatment, Cell, MSC homing, Review, MSC immunomodulation, Cell and Developmental Biology, Cell dose, medicine, MSC bioengineering, MSC therapeutic efficacy, lcsh:QH301-705.5, Biología celular, business.industry, Mesenchymal stem cell, Immunosuppression, Cell Biology, Cell delivery, Review article, Clinical trial, medicine.anatomical_structure, lcsh:Biology (General), Cancer research, business, Developmental Biology, MSC preconditioning

Abstract

Mesenchymal stromal cells (MSCs) currently constitute the most frequently used cell type in advanced therapies with different purposes, most of which are related with inflammatory processes. Although the therapeutic efficacy of these cells has been clearly demonstrated in different disease animal models and in numerous human phase I/II clinical trials, only very few phase III trials using MSCs have demonstrated the expected potential therapeutic benefit. On the other hand, diverse controversial issues on the biology and clinical applications of MSCs, including their specific phenotype, the requirement of an inflammatory environment to induce immunosuppression, the relevance of the cell dose and their administration schedule, the cell delivery route (intravascular/systemic vs. local cell delivery), and the selected cell product (i.e., use of autologous vs. allogeneic MSCs, freshly cultured vs. frozen and thawed MSCs, MSCs vs. MSC-derived extracellular vesicles, etc.) persist. In the current review article, we have addressed these issues with special emphasis in the new approaches to improve the properties and functional capabilities of MSCs after distinct cell bioengineering strategies.

Published

2021

5. Exofucosylation of adipose mesenchymal stromal cells alters their secretome profile

Author

David García-Bernal, Mariano García-Arranz, Ana I. García-Guillén, Ana M. García-Hernández, Miguel Blanquer, Damián García-Olmo, Robert Sackstein, Jose M. Moraleda, and Agustín G. Zapata

Subjects

0301 basic medicine, Cell type, HCELL, Cell, regenerative medicine, Regenerative medicine, Cell therapy, Cell and Developmental Biology, 03 medical and health sciences, 0302 clinical medicine, medicine, Splenocyte, lcsh:QH301-705.5, Original Research, biology, Biología celular, Cell adhesion molecule, Mesenchymal stem cell, CD44, Cell Biology, Cell biology, adipose tissue, secretome, 030104 developmental biology, medicine.anatomical_structure, lcsh:Biology (General), biology.protein, mesenchymal stromal cells, 030215 immunology, Developmental Biology

Abstract

Mesenchymal stromal cells (MSCs) constitute the cell type more frequently used in many regenerative medicine approaches due to their exclusive immunomodulatory properties, and they have been reported to mediate profound immunomodulatory effects in vivo. Nevertheless, MSCs do not express essential adhesion molecules actively involved in cell migration, a phenotypic feature that hampers their ability to home inflamed tissues following intravenous administration. In this study, we investigated whether modification by fucosylation of murine AdMSCs (mAdMSCs) creates Hematopoietic Cell E-/L-selectin Ligand, the E-selectin-binding CD44 glycoform. This cell surface glycan modification of CD44 has previously shown in preclinical studies to favor trafficking of mAdMSCs to inflamed or injured peripheral tissues. We analyzed the impact that exofucosylation could have in other innate phenotypic and functional properties of MSCs. Compared to unmodified counterparts, fucosylated mAdMSCs demonstrated higher in vitro migration, an altered secretome pattern, including increased expression and secretion of anti-inflammatory molecules, and a higher capacity to inhibit mitogen-stimulated splenocyte proliferation under standard culture conditions. Together, these findings indicate that exofucosylation could represent a suitable cell engineering strategy, not only to facilitate the in vivo MSC colonization of damaged tissues after systemic administration, but also to convert MSCs in a more potent immunomodulatory/anti-inflammatory cell therapy-based product for the treatment of a variety of autoimmune, inflammatory, and degenerative diseases.

Published

2020