Mariana Cañas-Arboleda scite author profile

Manufacturing of mesenchymal stromal cell (MSC)-based therapies for regenerative medicine requires the use of suitable supply of growth factors that enhance proliferation, cell stability and potency during cell expansion. Human blood derivatives such as human platelet lysate (hPL) have emerged as a feasible alternative for cell growth supplement. Nevertheless, composition and functional characterization of hPL in the context of cell manufacturing is still under investigation, particularly regarding the content and function of pro-survival and pro-regenerative factors. We performed comparative analyses of hPL, human serum (hS) and fetal bovine serum (FBS) stability and potency to support Wharton’s jelly (WJ) MSC production. We demonstrated that hPL displayed low inter-batch variation and unique secretome profile that was not present in hS and FBS. Importantly, hPL-derived factors including PDGF family, EGF, TGF-alpha, angiogenin and RANTES were actively taken up by WJ-MSC to support efficient expansion. Moreover, hPL but not hS or FBS induced secretion of osteoprotegerin, HGF, IL-6 and GRO-alpha by WJ-MSC during the expansion phase. Thus, hPL is a suitable source of factors supporting viability, stability and potency of WJ-MSC and therefore constitutes an essential raw material that in combination with WJ-MSC introduces a great opportunity for the generation of potent regenerative medicine products.

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Strategy for the Generation of Engineered Bone Constructs Based on Umbilical Cord Mesenchymal Stromal Cells Expanded with Human Platelet Lysate

Silva-Cote¹,

Cruz-Barrera²,

Cañas-Arboleda³

et al. 2019

Stem Cells International

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Umbilical cord mesenchymal stromal cells (UC-MSC) are promising candidates for cell therapy due to their potent multilineage differentiation, enhanced self-renewal capacity, and immediate availability for clinical use. Clinical experience has demonstrated satisfactory biosafety profiles and feasibility of UC-MSC application in the allogeneic setting. However, the use of UC-MSC for bone regeneration has not been fully established. A major challenge in the generation of successful therapeutic strategies for bone engineering lies on the combination of highly functional proosteogenic MSC populations and bioactive matrix scaffolds. To address that, in this study we proposed a new approach for the generation of bone-like constructs based on UC-MSC expanded in human platelet lysate (hPL) and evaluated its potential to induce bone structures in vivo. In order to obtain UC-MSC for potential clinical use, we first assessed parameters such as the isolation method, growth supplementation, microbiological monitoring, and cryopreservation and performed full characterization of the cell product including phenotype, growth performance, tree-lineage differentiation, and gene expression. Finally, we evaluated bone-like constructs based on the combination of stimulated UC-MSC and collagen microbeads for in vivo bone formation. UC-MSC were successfully cultured from 100% of processed UC donors, and efficient cell derivation was observed at day 14 ± 3 by the explant method. UC-MSC maintained mesenchymal cell morphology, phenotype, high cell growth performance, and probed multipotent differentiation capacity. No striking variations between donors were recorded. As expected, UC-MSC showed tree-lineage differentiation and gene expression profiles similar to bone marrow- and adipose-derived MSC. Importantly, upon osteogenic and endothelial induction, UC-MSC displayed strong proangiogenic and bone formation features. The combination of hPL-expanded MSC and collagen microbeads led to bone/vessel formation following implantation into an immune competent mouse model. Collectively, we developed a high-performance UC-MSC-based cell manufacturing bioprocess that fulfills the requirements for human application and triggers the potency and effectivity of cell-engineered scaffolds for bone regeneration.

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Rol de la función mitocondrial en el corazón y sus implicaciones en disfunciones cardíacas

Cañas-Arboleda

Franco‐Sierra

2017

ing. cienc.

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Rol de la función mitocondrial en el corazón y sus implicaciones en disfunciones cardíacas Resumen En este artículo de revisión, examinamos el papel de la mitocondria en el buen funcionamiento del corazón, y en la generación de diversas afecciones cardíacas, las cuales están caracterizadas por una baja producción de energía por parte de las mitocondrias y, por ende, hay un aumento en la pérdida de cardiomiocitos que conlleva al mal funcionamiento del corazón. Se ha determinado, que ciertas disfunciones mitocondriales asociadas a trastornos cardíacos se relacionan con alteraciones del sistema de fosforilación oxidativa, así como, con la disminución de ciertos componentes estructurales como la cardiolipina y la formación de supercomplejos. Se estima que cerca del 2.3 % de la población colombiana puede presentar una prevalencia a la falla cardíaca. La presente revisión tiene como objetivo dar a conocer los avances investigativos relacionados con enfermedades cardíacas ocasionadas por disfunción mitocondrial, así como, la identificación de diferentes investigaciones dirigidas en la creación de alternativas de tratamiento para dichas patologías, todo esto con el fin de contribuir Universidad EAFIT 233|

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Sales Forecasting Difficulties’ Analysis on Colombian Direct Sales Companies

Zuluaga

Cañas-Arboleda

2020

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