Assessing the reaction to and efficacy of the Screener drug discovery and development board game as a pedagogical tool in postgraduate courses

Screener, a board game supplemented with online resources, was introduced and distributed by the Brazilian Society of Pharmacology and Experimental Therapeutics to postgraduate programs as an instructional tool for the process of drug discovery and development (DDD). In this study, we provided a comprehensive analysis of five critical aspects for evaluating the quality of educational games, namely: 1) description of the intervention; 2) underlying pedagogical theory; 3) identification of local educational gaps; 4) impact on diverse stakeholders; and 5) elucidation of iterative quality enhancement processes. We also present qualitative and quantitative assessments of the effectiveness of this game in 11 postgraduate courses. We employed the MEEGA+ online survey, comprising thirty-three close-ended unipolar items with 5-point Likert-type response scales, to assess student perceptions of the quality and utility of Screener. Based on 115 responses, the results indicated a highly positive outlook among students. In addition, we performed a preliminary evaluation of learning outcomes in two courses involving 28 students. Pre- and post-quizzes were applied, each consisting of 20 True/False questions directly aligned with the game's content. The analysis revealed significant improvement in students' performance following engagement with the game, with scores rising from 8.4 to 13.3 (P<0.0001, paired t-test) and 9.7 to 12.7 (P<0.0001, paired t-test). These findings underscore the utility of Screener as an enjoyable and effective tool for facilitating a positive learning experience in the DDD process. Notably, the game can also reduce the educational disparities across different regions of our continental country.

Methylmercury inhibits prolactin release in a cell line of pituitary origin

Heavy metals, such as methylmercury, are key environmental pollutants that easily reach human beings by bioaccumulation through the food chain. Several reports have demonstrated that endocrine organs, and especially the pituitary gland, are potential targets for mercury accumulation; however, the effects on the regulation of hormonal release are unclear. It has been suggested that serum prolactin could represent a biomarker of heavy metal exposure. The aim of this study was to evaluate the effect of methylmercury on prolactin release and the role of the nitrergic system using prolactin secretory cells (the mammosomatotroph cell line, GH3B6). Exposure to methylmercury (0-100 μM) was cytotoxic in a time- and concentration-dependent manner, with an LC50 higher than described for cells of neuronal origin, suggesting GH3B6 cells have a relative resistance. Methylmercury (at exposures as low as 1 μM for 2 h) also decreased prolactin release. Interestingly, inhibition of nitric oxide synthase by N-nitro-L-arginine completely prevented the decrease in prolactin release without acute neurotoxic effects of methylmercury. These data indicate that the decrease in prolactin production occurs via activation of the nitrergic system and is an early effect of methylmercury in cells of pituitary origin.

Therapeutic concentration of morphine reduces oxidative stress in glioma cell line

Morphine is a potent analgesic opioid used extensively for pain treatment. During the last decade, global consumption grew more than 4-fold. However, molecular mechanisms elicited by morphine are not totally understood. Thus, a growing literature indicates that there are additional actions to the analgesic effect. Previous studies about morphine and oxidative stress are controversial and used concentrations outside the range of clinical practice. Therefore, in this study, we hypothesized that a therapeutic concentration of morphine (1 μM) would show a protective effect in a traditional model of oxidative stress. We exposed the C6 glioma cell line to hydrogen peroxide (H2O2) and/or morphine for 24 h and evaluated cell viability, lipid peroxidation, and levels of sulfhydryl groups (an indicator of the redox state of the cell). Morphine did not prevent the decrease in cell viability provoked by H2O2 but partially prevented lipid peroxidation caused by 0.0025% H2O2 (a concentration allowing more than 90% cell viability). Interestingly, this opioid did not alter the increased levels of sulfhydryl groups produced by exposure to 0.0025% H2O2, opening the possibility that alternative molecular mechanisms (a direct scavenging activity or the inhibition of NAPDH oxidase) may explain the protective effect registered in the lipid peroxidation assay. Our results demonstrate, for the first time, that morphine in usual analgesic doses may contribute to minimizing oxidative stress in cells of glial origin. This study supports the importance of employing concentrations similar to those used in clinical practice for a better approximation between experimental models and the clinical setting.

Mercurio y neurotoxicidad / Mercury and neurotoxicity

Introducción y objetivo. El mercurio es un metal ampliamente utilizado hoy día en cientos de aplicaciones. Este metal ha demostrado ser sumamente tóxico para el ser humano, especialmente para el sistema nervioso central, tanto por la exposición a sus aplicaciones cotidianas (p. ej., las amalgamas dentales), como por exposiciones ambientales. Desdichadamente, la mayor parte de la investigación desarrollada sobre este metal es relativamente reciente, y quedan todavía muchos interrogantes por responder. El objetivo de este trabajo es revisar todo lo que se conoce hasta ahora sobre los mecanismos de acción de este metal. Desarrollo. Para ello, se discuten los hallazgos científicos más recientes sobre los procesos tóxicos activados, como las alteraciones en el citoesqueleto celular, la toxicidad genética o la producción de compuestos relacionadas con la neurodegeneración. Conclusiones. Un prolongado período de latencia, una sintomatología esquiva y la activación de mecanismos tóxicos generalizados, demandan urgentemente la aplicación de grandes esfuerzos en investigación básica para ayudarnos a discernir lo más claramente posible la forma de actuación de este metal. Este conocimiento nos proporcionará no sólo el camino para la obtención de terapias, sino la esperanza de desarrollar biomarcadores que posibiliten un diagnóstico precoz y fiable del daño producido y de la susceptibilidad individual

Introduction and aims. Mercury is a metal that is widely used in hundreds of applications nowadays. This metal has proved to be extremely toxic in humans, especially for the central nervous system, both in cases of exposure from everyday applications (e.g. dental fillings) and from environmental exposure. Unfortunately, most of the research carried out on this metal is relatively recent and many questions remain unanswered. The aim of this work is to review all the knowledge we have at the present time about the mechanisms of action of this metal. Development. To do so, we discuss the latest scientific findings about the toxic processes that are activated, as well as its effects on the cellular cytoskeleton, its genotoxicity or the production of compounds that have been linked to neurodegeneration. Conclusions. Its prolonged period of latency, ambiguous symptoms and the activation of generalised toxic mechanisms call for urgent efforts to be made in basic research to help determine as clearly as possible the way this metal acts in the body. This knowledge will provide us not only with the way to obtain therapies but also with the hope of developing biomarkers that make it possible to carry out early and reliable diagnoses of the damage done and of individual susceptibility