Management of Natural History collections: criteria and parameters of evaluation

[ES] Las colecciones de historia natural son una herramienta básica para la investigación científica y el estudio de la distribución en el pasado de muchas especies, así como de la propia historia de la ciencia. Además del uso científico de estas colecciones, destacan otros como el histórico, el divulgativo-pedagógico y el estético. De ahí la importancia que tiene una gestión eficaz de las mismas, la cual implica diversos aspectos, que van desde la conservación y su mantenimiento, su inventario, ordenación y procesamiento informático hasta las múltiples tareas relacionadas con su uso en consultas, visitas, préstamos científicos y participación en actividades de carácter divulgativo. En este artículo se examinan los criterios para evaluar la gestión de las colecciones de historia natural y se definen una serie de parámetros, útiles para medir el estado de una colección y su evolución en el tiempo, tanto en su crecimiento como en su uso, principalmente. Se ejemplifica todo ello en el grupo de los poliquetos, del que el Museo Nacional de Ciencias Naturales de Madrid (MNCN) cuenta con una estimable colección, y se comparan los resultados, según varios parámetros seleccionados, con los de otras colecciones de poliquetos de diversas instituciones de todo el mundo.[EN] Natural History collections are a basic and essential tool for scientific research, the study of the distribution in the past of many species of animals and plants and the History of Science. As well as the scientific aspect of these collections, stand outs other uses as the historic one, the educational and the aesthetic. All these are reasons that show the importance of an effective management of the Natural History collections as well as the several tasks related to it, as consults, visits, scientific loans and educational activities. In this article various criteria and useful parameters are provided for evaluating the curatorial state of a Natural History collection and its evolution, both in growth and use mainly. Finally, an example based on the Polychaeta, an estimable group in the Invertebrates Collection of the Museo Nacional de Ciencias Naturales of Madrid (MNCN), is provided. The results of several selected parameters are compared with other Polychaeta collections from several institutions around the world.Peer reviewe

Electrolyzed Hydrogen Water Protects against Ethanol-Induced Cytotoxicity by Regulating Aldehyde Metabolism-Associated Enzymes in the Hepatic Cell Line HepG2

Excessive alcohol consumption can cause multi-systemic diseases. Among them, alcoholic liver disease is the most frequent and serious disease. Electrolytic hydrogen water (EHW) is produced at the cathode during electrolysis of water and contains a large amount of molecular hydrogen and a low content of platinum nanoparticles with alkaline properties. In this study, we found that EHW inhibits ethanol-induced cytotoxicity by decreasing the intracellular acetaldehyde, a toxic substance produced by ethanol degradation, in hepatocyte cell lines HepG2. Analysis of the mechanism of action revealed that EHW inhibits the metabolism of ethanol to acetaldehyde by suppressing alcohol dehydrogenase. EHW also promotes the metabolism of acetaldehyde to acetic acid by activating aldehyde dehydrogenase, which plays to reduce aldehyde toxicity and intracellular reactive oxygen species in HepG2 cells. These functions were correlated with the concentration of molecular hydrogen in EHW, and were abolished by degassing treatment, suggesting that molecular hydrogen may contribute as a functional factor in the suppression of ethanol-induced hepatocellular damage. Furthermore, hydrogen water with high dissolved hydrogen molecule showed the same hepatocellular protective effect against ethanol as the EHW. These results suggest that EHW may be useful in the prevention of alcoholic liver disease

Electrolyzed Hydrogen Water Alleviates Abdominal Pain through Suppression of Colonic Tissue Inflammation in a Rat Model of Inflammatory Bowel Disease

Inflammatory bowel disease (IBD) is characterized by chronic inflammation of the digestive tract and is typically accompanied by characteristic symptoms, such as abdominal pain, diarrhea, and bloody stool, severely deteriorating the quality of the patient’s life. Electrolyzed hydrogen water (EHW) has been shown to alleviate inflammation in several diseases, such as renal disease and polymyositis/dermatomyositis. To investigate whether and how daily EHW consumption alleviates abdominal pain, the most common symptom of IBD, we examined the antioxidative and anti-inflammatory effects of EHW in an IBD rat model, wherein colonic inflammation was induced by colorectal administration of 2,4,6-trinitrobenzene sulfonic acid (TNBS). We found that EHW significantly alleviated TNBS-induced abdominal pain and tissue inflammation. Moreover, the production of proinflammatory cytokines in inflamed colon tissue was also decreased significantly. Meanwhile, the overproduction of reactive oxygen species (ROS), which is intricately involved in intestinal inflammation, was significantly suppressed by EHW. Additionally, expression of S100A9, an inflammatory biomarker of IBD, was significantly suppressed by EHW. These results suggest that the EHW prevented the overproduction of ROS due to its powerful free-radical scavenging ability and blocked the crosstalk between oxidative stress and inflammation, thereby suppressing colonic inflammation and alleviating abdominal pain

Low Concentration Platinum Nanoparticles Effectively Scavenge Reactive Oxygen Species in Rat Skeletal L6 Cells

Prolonged exposure to excessive reactive oxygen species (ROS) increases risk factors for many diseases. Therefore, elimination of ROS as well as prevention of its production becomes critically important. In the present study, we evaluated the levels of cytotoxicity and ROS scavenging activity induced by synthetic platinum nanoparticles (PtNPs). Average size of synthesized PtNPs was 2.2 nm. Synthetic PtNPs were found to scavenge both induced and endogenous H2O2 significantly in L6 rat skeletal muscle cells at a very low concentration (10-2 mg/l). To investigate the mechanism of action, the hierarchical oxidative stress model was used as an experimental model. To evaluate this possibility, we assessed glutathione concentration and gene levels of several antioxidant enzymes in PtNPs-treated (10-3-10 mg/l) L6 cells. Reduced glutathione (GSH) was increased in the range of 10-3-1 mg/l, but not in the 10 mg/l PtNP-treated cells. The GSH/GSSG ratio increased significantly at 1 mg/l and decreased in the 10 mg/l PtNPtreated cells. Most of the gene transcripts for oxidative stress inducible heme oxygenase-1 (HO-1), glutathione reductase (GR), copper-zinc superoxide dismutase (CuZn-SOD), manganese superoxide dismutase (Mn-SOD), glutathione peroxidase (GPx), and catalase were increased significantly by PtNPs at 10-1-10 mg/l. Such upregulatory effects induced by synthetic PtNPs at high concentrations (1-10 mg/l) in L6 cells can be explained by the hierarchical oxidative stress model. However, the cellular responses induced by low levels (10-3-10-2 mg/l) of PtNPs could not be fully explained by this model

Electrochemically reduced water exerts superior reactive oxygen species scavenging activity in HT1080 cells than the equivalent level of hydrogen-dissolved water.

Electrochemically reduced water (ERW) is produced near a cathode during electrolysis and exhibits an alkaline pH, contains richly dissolved hydrogen, and contains a small amount of platinum nanoparticles. ERW has reactive oxygen species (ROS)-scavenging activity and recent studies demonstrated that hydrogen-dissolved water exhibits ROS-scavenging activity. Thus, the antioxidative capacity of ERW is postulated to be dependent on the presence of hydrogen levels; however, there is no report verifying the role of dissolved hydrogen in ERW. In this report, we clarify whether the responsive factor for antioxidative activity in ERW is dissolved hydrogen. The intracellular ROS scavenging activity of ERW and hydrogen-dissolved water was tested by both fluorescent stain method and immuno spin trapping assay. We confirm that ERW possessed electrolysis intensity-dependent intracellular ROS-scavenging activity, and ERW exerts significantly superior ROS-scavenging activity in HT1080 cells than the equivalent level of hydrogen-dissolved water. ERW retained its ROS-scavenging activity after removal of dissolved hydrogen, but lost its activity when autoclaved. An oxygen radical absorbance capacity assay, the 2,2-diphenyl-1-picrylhydrazyl assay and chemiluminescence assay could not detect radical-scavenging activity in both ERW and hydrogen-dissolved water. These results indicate that ERW contains electrolysis-dependent hydrogen and an additional antioxidative factor predicted to be platinum nanoparticles