Domino Transformations of Ene/Yne Tethered Salicylaldehyde Derivatives: Pluripotent Platforms for the Construction of High sp3 Content and Privileged Architectures.

Diversity-oriented synthesis (DOS) has become a powerful synthetic tool that facilitates the construction of nature-inspired and privileged chemical space, particularly for sp3 -rich non-flat scaffolds, which are needed for phenotypic screening campaigns. These diverse compound collections led to the discovery of novel chemotypes that can modulate the protein function in underrepresented biological space. In this context, starting material-driven DOS is one of the most important tools used to build diverse compound libraries with rich stereochemical and scaffold diversity. To this end, ene/yne tethered salicylaldehyde derivatives have emerged as a pluripotent chemical platform, the products of which led to the construction of a privileged chemical space with significant biological activities. In this review, various domino transformations employing o-alkene/alkyne tethered aryl aldehyde/ketone platforms are described and discussed, with emphasis on the period from 2011 to date.

Potential Application of Plant-derived Bioengineered Human VEGF for Tissue Regeneration.

The design and development of novel biological drugs are among the most exciting new areas of biotechnology which are gaining the attention of scientists. In the last few decades several fabrication processes have been proposed and developed for the production of recombinant growth factors. However, traditional production processes have several limitations in terms of scale- up, cost-efficiency and purity grade of the proteins. In the present study, we propose for the first time the proof-of-concept of large-scale production of growth factors in plants as a new alternative to other production processes. We have decided to select vascular endothelial growth factor (VEGF) as model assuming its key role in cell survival and regenerative medicine. Results show that the present protocol is efficient to scale up a purification procedure of rh VEGF isoform 165 in Nicotiana benthamiana plants. Our procedure resulted in dimeric VEGF protein with high purity degree and yield, which showed full biological activity over endothelial and epithelial cells, suggesting great potential for its use in regenerative medicine. This protein could be exploited not only in tissue repair and regeneration but also as a biologically active ingredient in dermocosmetics.

Ingeniería Tisular: retos y realidades / Tissue engineering: progress and challenges

La ingeniería tisular es una técnica biomédica prometedora que implica la correcta combinación de células, materiales y procesos tecnológicos con el objeto de promover la regeneración tisular y orgánica. A pesar de estar todavía en su infancia, el potencial de esta disciplina abre nuevas vías para el tratamiento de múltiples enfermedades. Esta revisión resume el progreso y las aplicaciones terapéuticas más recientes así como las perspectivas.