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Abstract
Importance of the field: Several works have shown the feasibility of engineering functional blood vessels in vivo using human endothelial cells and mural cells. In this context, the genetic modification of endothelial cells would ensure the secretion of a therapeutic protein into the systemic circulation for a prolonged period of time.
Areas covered in this review: We discuss the different strategies aimed at the formation of long-lasting neovessels in vivo, using human endothelial and mural cells. The main focus is the potential of these constructs in gene therapy strategies for the in vivo production of therapeutic proteins.
What the reader will gain: The reader will have an outline of the different types of cells that have been used for microvessel engineering in vivo, as well as scaffolds employed to seed these cells. We provide a critical review of their advantages and drawbacks, along with examples of their potential in cell-based gene therapy strategies.
Take home message: There is a real potential for neovessels derived from human endothelial and mural cells to be incorporated in clinical interventions, either as a cell-based gene therapy to produce a therapeutic protein or as a component of engineered tissue constructs in regenerative medicine.
Acknowledgements
This study was supported by grants from the Ministerio de Ciencia e Innovación (BIO2008-03233 and PSE-01000-2009-11), the Comunidad de Madrid (S-BIO-0236-2006), and the European Union (SUDOE-FEDER. IMMUNONET-SOE1/P1/E014) to L Álvarez-Vallina; and from the Fondo de Investigación Sanitaria/Instituto de Salud Carlos III (PI08/90856 and PS09/00227) and Fundación Investigación Biomédica Hospital Puerta de Hierro to L Sanz.
Notes
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