CIBERER : Spanish national network for research on rare diseases: A highly productive collaborative initiative

Altres ajuts: Instituto de Salud Carlos III (ISCIII); Ministerio de Ciencia e Innovación.CIBER (Center for Biomedical Network Research; Centro de Investigación Biomédica En Red) is a public national consortium created in 2006 under the umbrella of the Spanish National Institute of Health Carlos III (ISCIII). This innovative research structure comprises 11 different specific areas dedicated to the main public health priorities in the National Health System. CIBERER, the thematic area of CIBER focused on rare diseases (RDs) currently consists of 75 research groups belonging to universities, research centers, and hospitals of the entire country. CIBERER's mission is to be a center prioritizing and favoring collaboration and cooperation between biomedical and clinical research groups, with special emphasis on the aspects of genetic, molecular, biochemical, and cellular research of RDs. This research is the basis for providing new tools for the diagnosis and therapy of low-prevalence diseases, in line with the International Rare Diseases Research Consortium (IRDiRC) objectives, thus favoring translational research between the scientific environment of the laboratory and the clinical setting of health centers. In this article, we intend to review CIBERER's 15-year journey and summarize the main results obtained in terms of internationalization, scientific production, contributions toward the discovery of new therapies and novel genes associated to diseases, cooperation with patients' associations and many other topics related to RD research

CIBERER: Spanish national network for research on rare diseases: A highly productive collaborative initiative

13 páginas,1 figura, 3 tablas, 1 apéndice. Se extraen los autores pertenecientes a The CIBERER network que trabajan en Centros del CSIC del Appendix ACIBER (Center for Biomedical Network Research; Centro de Investigación Biomédica En Red) is a public national consortium created in 2006 under the umbrella of the Spanish National Institute of Health Carlos III (ISCIII). This innovative research structure comprises 11 different specific areas dedicated to the main public health priorities in the National Health System. CIBERER, the thematic area of CIBER focused on rare diseases (RDs) currently consists of 75 research groups belonging to universities, research centers, and hospitals of the entire country. CIBERER's mission is to be a center prioritizing and favoring collaboration and cooperation between biomedical and clinical research groups, with special emphasis on the aspects of genetic, molecular, biochemical, and cellular research of RDs. This research is the basis for providing new tools for the diagnosis and therapy of low-prevalence diseases, in line with the International Rare Diseases Research Consortium (IRDiRC) objectives, thus favoring translational research between the scientific environment of the laboratory and the clinical setting of health centers. In this article, we intend to review CIBERER's 15-year journey and summarize the main results obtained in terms of internationalization, scientific production, contributions toward the discovery of new therapies and novel genes associated to diseases, cooperation with patients' associations and many other topics related to RD research.This study has been funded by Instituto de Salud Carlos III (ISCIII) and Spanish Ministry of Science and InnovationPeer reviewe

Correction to: Cluster identification, selection, and description in Cluster randomized crossover trials: the PREP-IT trials

An amendment to this paper has been published and can be accessed via the original article

In vitro effects of SIKVAV retro and retro-enantio analogues on tumor metastatic events

The SIKVAV peptide, located on the long arm of the laminin α1 chain, promotes cell adhesion, invasion and migration of tumor and endothelial cells, resulting in tumor growth, angiogenesis and metastasis. In this paper, we report the synthesis of the SIKVAV peptide and its retro (reverse l-amino acid order) and retro-enantio (reverse d-amino acid order) analogues and their effect on three critical steps in the metastatic process: cell–extracellular matrix protein (ECM) adhesion, cell migration and homotypic cell adhesion, using B16F10 melanoma cells. Results show that all peptides compete with laminin-1 cell attachment, but only SIKVAV induces peptide–cell adhesion. Retro analogue, but not retro-enantio, inhibits cell adhesion to SIKVAV, indicating that retro peptide recognizes the SIKVAV receptors while retro-enantio does not. Retro-enantio peptide is able to inhibit cell migration, by contrast of the SIKVAV chemoattractant activity. All three peptides reduce the homotypic cell adhesion in a dose-dependent manner, but retro-enantio sequence is the most effective reaching a 35% inhibition of controls at the higher concentration. These findings suggest that that both analogues of SIKVAV peptide, especially retro-enantio, may be considered as potential antimetastatic agents.This work was financial supported by a SAF 97-0174 project from the Ministry of Science and Technology from the Spanish Government and Lipotec S.A. Núria Almiñana was recipient of a grant from the Ministry of Science and Technology from the Spanish Government

Simultaneous changes in various mechanisms that mediate the cell incorporation of folate compounds account for low levels of resistance to methotrexate

Changes in the mechanisms of folate incorporation were studied in cells treated with low concentrations of methotrexate in order to evaluate their contribution to the development of resistance to antifolate drugs. The uptake of methotrexate via reduced-folate system, the membrane-associated high-affinity folate binding capacity and the activity, levels and affinity for methotrexate of dihydrofolate reductase were measured in L5178 murine leukemic lymphoblasts and in a subline, MTX/R16, 16 times more resistant to methotrexate which was isolated after a short exposure to the antifolate. Various simultaneous changes were characterized in MTX/R16 cells which co-participated in the development of resistance: a decreased affinity of the carrier for methotrexate uptake via the reduced-folate system of entry, the increase of dihydrofolate reductase activity and levels and a two-fold increased expression of a membrane-associated high-affinity folate-binding protein (mFBP). The increase of the mFBP expression, besides ensuring the growth of resistant cells by its contribution to the reduced folate intake, also participates in the methotrexate resistance by the internalization of folate cofactor which would compete with methotrexate hindering the effective inhibition of dihydrofolate reductase by the antifolate.This work was supported by Research Grant 891 0384, from the Fondo de Investigacion Sanitaria de la Seguridad Social. Ministerio de Sanidad y Consumo, Spain

Improved therapeutic responses for liposomal doxorubicin targeted via thrombospondin peptidomimetics versus untargeted doxorubicin

New therapies in cancer treatment are focusing on multifaceted approaches to starve and kill tumors utilizing both antiangiogenic and chemotherapeutic compounds. In this work, we searched for a peptide vector that would home liposomes both to endothelial and tumor cells. [Abu6]TSPB and [Abu6]TSPA, aspartimide analogs of natural sequences of TSP-1 and TSP-2, respectively, were tested for adhesion of tumor and endothelial cells, in vivo and in vitro antiangiogenic effects, and in vivo antitumor action. Both peptides support the adhesion of both types of cells, but only [Abu6]TSPA inhibits the angiogenesis in vivo, and [Abu6]TSPA-targeted L-DOX decreases by 58% (P < 0.008) the HT29 tumor growth in nude mice. The improvement in the doxorubicin antitumor effect should be attributed to the antiangiogenic effect of [Abu6]TSPA, since [Abu6]TSPB, despite being a good ligand for both cell types, had no effect on tumor growth.This work was supported by the Spanish Ministry of Science and Technology, Grant No. PTR1995-0596-OP

Método de control de la ruptura celular

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