Base de datos de flora y fauna en Galicia

Sección: NoticiasLa Biblioteca del Instituto de Investigaciones Marinas de Vigo recopila, desde 1984 aproximadamente, una base de datos sobre Galicia que nació a partir de unas citas bibliográficas seleccionadas por un investigador de este centro y se fue ampliando en vista de la enorme solicitud de esta información que nos iban haciendo nuestros usuarios, sobre todo los externos al centroPeer reviewe

Экспериментальное исследование синхронного генератора периодических импульсов

Приводятся результаты экспериментального исследования влияния величины нагрузки синхронного генератора периодических импульсов с обычной геометрией зубцовой зоны на форму импульсов тока. Рассматривается возможность регулировки параметров импульсов

Shed syndecan-2 inhibits angiogenesis

Angiogenesis is essential for the development of a normal vasculature, tissue repair and reproduction, and also has roles in the progression of diseases such as cancer and rheumatoid arthritis. The heparan sulphate proteoglycan syndecan-2 is expressed on mesenchymal cells in the vasculature and, like the other members of its family, can be shed from the cell surface resulting in the release of its extracellular core protein. The purpose of this study was to establish whether shed syndecan-2 affects angiogenesis. We demonstrate that shed syndecan-2 regulates angiogenesis by inhibiting endothelial cell migration in human and rodent models and, as a result, reduces tumour growth. Furthermore, our findings show that these effects are mediated by the protein tyrosine phosphatase receptor CD148 (also known as PTPRJ) and this interaction corresponds with a decrease in active beta1 integrin. Collectively, these data demonstrate an unexplored pathway for the regulation of new blood vessel formation and identify syndecan-2 as a therapeutic target in pathologies characterised by angiogenesis

A-Disintegrin and metalloprotease (ADAM) 10 and 17 promote self-renewal of brain tumor sphere forming cells

It has been proposed that gliomas contain a subpopulation of 'Brain Tumor Stem Cells' (BTSCs), which demonstrate resistance to conventional therapies. A potential component of the environment governing the behavior of these BTSCs is a class of transmembrane proteins with structural and signaling functions, the A-Disintegrin And Metalloproteases (ADAMs). In this study we confirm overexpression of ADAM10 and 17 in human glioma tissue compared to human controls, and especially in tumor sphere cultures thought to enrich for BTSCs. Inhibition of ADAM10/17 function impairs the growth of tumor spheres with evidence of depletion of the sphere forming cell population. This results from a combination of reduced proliferation, cell death and a switch of sphere-forming cells away from symmetric self-renewal division towards neuronal differentiation. A developing appreciation of the role of ADAMs in BTSC promises insights into pathophysiology and potential therapeutic avenues in this intractable group of tumors

Stimulated release and functional activity of surface expressed metalloproteinase ADAM17 in exosomes.

By mediating proteolytic shedding on the cell surface the disintegrin and metalloproteinases ADAM10 and ADAM17 function as critical regulators of growth factors, cytokines and adhesion molecules. We here report that stimulation of lung epithelial A549 tumor cells with phorbol-12-myristate-13-acetate (PMA) leads to the downregulation of the surface expressed mature form of ADAM17 without affecting ADAM10 expression. This reduction could not be sufficiently explained by metalloproteinase-mediated degradation, dynamin-mediated internalization or microdomain redistribution of ADAM17. Instead, surface downregulation of ADAM17 was correlated with the presence of its mature form in exosomes. Exosomal ADAM17 release was also observed in monocytic and primary endothelial cells where it could be induced by stimulation with lipopolysaccharide. Antibody-mediated surface labelling of ADAM17 revealed that at least part of exosomal ADAM17 was oriented with the metalloproteinase domain outside and had been expressed on the cell surface. Suppression of iRHOM2-mediated ADAM17 maturation prevented surface expression and exosomal release of ADAM17. Further, deletion of the protease's C-terminus or cell treatment with a calcium chelator diminished exosomal release as well as surface downregulation of ADAM17, underlining that both processes are closely associated. Co-incubation of ADAM17 containing exosomes with cells expressing the ADAM17 substrates TGFalpha or amphiregulin lead to increased shedding of both substrates. This was prevented when exosomes were prepared from cells with shRNA-mediated ADAM17 knockdown. These data indicate that cell stimulation can downregulate expression of mature ADAM17 from the cell surface and induce release of exosomal ADAM17, which can then distribute and contribute to substrate shedding on more distant cells