The Expansion of the “Right to Die”: Physician-Assisted Suicide, Concepts of State Autonomy & the Proper Political Process for Legalization

Physician-assisted suicide has been the subject of fierce debate over the past few decades, and there is no doubt that it is an extremely sensitive issue with compelling arguments from both its detractors and its supporters. Its opponents usually refer to the practice of physician-assisted suicide by either that name, simply “suicide”, or euthanasia. Advocates of physician-assisted suicide term the procedure as physician-assisted death, physician aid in dying, or “death with dignity.” This Note will use the term “physician-assisted suicide”, as that seems to be the most neutral way to term the practice. In order to make sure that the connotations behind this term are expressed correctly and persuasively, it is important to begin with a discussion of various terms related to the broader concept of “the right to die”, of which physician-assisted suicide is one subcategory

Calcium-independent stimulation of membrane fusion and SNAREpin formation by synaptotagmin I

Ñeurotransmitter release requires the direct coupling of the calcium sensor with the machinery for membrane fusion. SNARE proteins comprise the minimal fusion machinery, and synaptotagmin I, a synaptic vesicle protein, is the primary candidate for the main neuronal calcium sensor. To test the effect of synaptotagmin I on membrane fusion, we incorporated it into a SNARE-mediated liposome fusion assay. Synaptotagmin I dramatically stimulated membrane fusion by facilitating SNAREpin zippering. This stimulatory effect was topologically restricted to v-SNARE vesicles (containing VAMP 2) and only occurred in trans to t-SNARE vesicles (containing syntaxin 1A and SNAP-25). Interestingly, calcium did not affect the overall fusion reaction. These results indicate that synaptotagmin I can directly accelerate SNARE-mediated membrane fusion and raise the possibility that additional components might be required to ensure tight calcium coupling

Digital Signaling and Hysteresis Characterize Ras Activation in Lymphoid Cells

Activation of Ras proteins underlies functional decisions in diverse cell types. Two molecules, RasGRP and SOS, catalyze Ras activation in lymphocytes. Binding of active Ras to SOS' allosteric pocket markedly increases SOS' activity establishing a positive feedback loop for SOS-mediated Ras activation. Integrating in silico and in vitro studies, we demonstrate that digital signaling in lymphocytes (cells are “on” or “off”) is predicated upon feedback regulation of SOS. SOS' feedback loop leads to hysteresis in the dose-response curve, which can enable a capacity to sustain Ras activation as stimuli are withdrawn and exhibit “memory” of past encounters with antigen. Ras activation via RasGRP alone is analog (graded increase in amplitude with stimulus). We describe how complementary analog (RasGRP) and digital (SOS) pathways act on Ras to efficiently convert analog input to digital output. Numerous predictions regarding the impact of our findings on lymphocyte function and development are noted.National Institutes of Health (U.S.). Pioneer AwardNational Institutes of Health (U.S.) (1PO1/AI071195/01

Regulation of RasGRP1 Function in T Cell Development and Activation by Its Unique Tail Domain

The Ras-guanyl nucleotide exchange factor RasGRP1 plays a critical role in T cell receptor-mediated Erk activation. Previous studies have emphasized the importance of RasGRP1 in the positive selection of thymocytes, activation of T cells, and control of autoimmunity. RasGRP1 consists of a number of well-characterized domains, which it shares with its other family members; however, RasGRP1 also contains an ∼200 residue-long tail domain, the function of which is unknown. To elucidate the physiological role of this domain, we generated knock-in mice expressing RasGRP1 without the tail domain. Further analysis of these knock-in mice showed that thymocytes lacking the tail domain of RasGRP1 underwent aberrant thymic selection and, following TCR stimulation, were unable to activate Erk. Furthermore, the deletion of the tail domain led to enhanced CD4+ T cell expansion in aged mice, as well as the production of autoantibodies. Mechanistically, the tail-deleted form of RasGRP1 was not able to traffic to the cell membrane following stimulation, indicating a potential reason for its inability to activate Erk. While the DAG-binding C1 domain of RasGRP1 has long been recognized as an important factor mediating Erk activation, we have revealed the physiological relevance of the tail domain in RasGRP1 function and control of Erk signaling

Phosphorylation of SOS1 on tyrosine 1196 promotes its RAC GEF activity and contributes to BCR-ABL leukemogenesis

Son of Sevenless 1 (SOS1) is a dual guanine nucleotide exchange factor (GEF) that activates the small GTPases RAC and RAS. Although the molecular mechanisms of RAS GEF catalysis have been unveiled, how SOS1 acquires RAC GEF activity and what is the physio-pathological relevance of this activity is much less understood. Here we show that SOS1 is tyrosine phosphorylated on Y1196 by ABL. Phosphorylation of Y1196 controls SOS1 inter-molecular interaction, is required to promote the exchange of nucleotides on RAC in vitro and for platelet-derived growth factor (PDGF) activation of RAC- and RAC-dependent actin remodeling and cell migration. SOS1 is also phosphorylated on Y1196 by BCR-ABL in chronic myelogenous leukemic cells. Importantly, in these cells, SOS1 is required for BCR-ABL-mediated activation of RAC, cell proliferation and transformation in vitro and in a xenograft mouse model. Finally, genetic removal of Sos1 in the bone marrow-derived cells (BMDCs) from Sos1fl/flmice and infected with BCR-ABL causes a significant delay in the onset of leukemogenesis once BMDCs are injected into recipient, lethally irradiated mice. Thus, SOS1 is required for full transformation and critically contribute to the leukemogenic potential of BCR-ABL

An empirical Bayesian approach for model-based inference of cellular signaling networks

Background A common challenge in systems biology is to infer mechanistic descriptions of biological process given limited observations of a biological system. Mathematical models are frequently used to represent a belief about the causal relationships among proteins within a signaling network. Bayesian methods provide an attractive framework for inferring the validity of those beliefs in the context of the available data. However, efficient sampling of high-dimensional parameter space and appropriate convergence criteria provide barriers for implementing an empirical Bayesian approach. The objective of this study was to apply an Adaptive Markov chain Monte Carlo technique to a typical study of cellular signaling pathways. Results As an illustrative example, a kinetic model for the early signaling events associated with the epidermal growth factor (EGF) signaling network was calibrated against dynamic measurements observed in primary rat hepatocytes. A convergence criterion, based upon the Gelman-Rubin potential scale reduction factor, was applied to the model predictions. The posterior distributions of the parameters exhibited complicated structure, including significant covariance between specific parameters and a broad range of variance among the parameters. The model predictions, in contrast, were narrowly distributed and were used to identify areas of agreement among a collection of experimental studies. Conclusion In summary, an empirical Bayesian approach was developed for inferring the confidence that one can place in a particular model that describes signal transduction mechanisms and for inferring inconsistencies in experimental measurements

Métodos multivariados aplicados ao melhoramento genético do feijoeiro visando ao aumento da tolerância ao estresse osmótico e biofortificação de grãos

O feijoeiro (Phaseolus vulgaris L.) é uma cultura agrícola muito importante economicamente e nutricionalmente para a população brasileira e necessita de metodologias simples e eficazes que auxiliem o processo de melhoramento genético. As técnicas empregadas devem minimizar os efeitos indesejáveis da multicolinearidade entre as características estudadas durante o processo de seleção. A produção de sementes de feijão, normalmente, é limitada pela escassez hídrica e solos salinos. No entanto, devido a grande variabilidade genética, característica da espécie, é possível encontrar materiais genéticos mais tolerantes a esses estresses osmóticos. A germinação e o desenvolvimento inicial da plântula são fases críticas e desta maneira é importante selecionar os matérias genéticos mais tolerantes nestas fases. Além de selecionar genótipos tolerantes é necessário selecionar materiais genéticos que sejam ricos nutricionalmente, principalmente, em relação à composição mineralógica. Os principais objetivos almejados com este trabalho foram reduzir a multicolinearidade e selecionar genótipos para a tolerância ao estresse osmótico e a biofortificação dos grãos do feijoeiro, com base nos valores genéticos. Desta maneira, foram utilizadas duas técnicas para reduzir a influência da multicolinearidade: o descarte de variáveis redundantes pelas variáveis canônicas, e o uso das análises de fatores para reduzir o número de variáveis. As variáveis analisadas foram: porcentagem de germinação e de plântulas normais, tempo médio de germinação, índice de velocidade de germinação, comprimentos de raiz e de hipocótilo, massas seca de raiz e da parte aérea, razão raiz/parte aérea e o produto da porcentagem de plântulas normais pelo comprimento das plântulas. Avaliou-se também a composição mineralógica dos grãos em relação à concentração de cálcio, ferro, zinco, potássio, magnésio, manganês e fósforo. Adicionalmente, para estimar os parâmetros e os valores genéticos realizou-se análise via modelos mistos, utilizando-se a técnica de REML/BLUP. Os genótipos foram selecionados com base da média genética, estabilidade e adaptabilidade, utilizando-se a técnica da média harmônica da performance relativa dos valores genéticos. Os genótipos que apresentaram as maiores tolerâncias, adaptabilidade e estabilidade quanto aos estresses osmóticos foram: CNFC 15466, CNFC 15462, CNFC 15630, BRS Valente, Capixaba Precoce, CNFP 15290, CNFP 15292 e CNFP 15302. Enquanto os genótipos mais ricos e divergentes geneticamente do grupo comercial carioca foram: CNFC 15475 e CNFC 15625, e do grupo comercial preto foram: CNFP 15310 e CNFP 15304. Conclui-se que a utilização de técnicas multivariadas facilita a seleção de genótipos promissores como parentais na formação de linhagens tolerantes ao estresse osmótico e biofortificados. Palavras-chave: feijoeiro comum; seleção de genótipos; estresse hídrico e salino; multicolinearidade; composição mineral

Education professionals' attitudes towards the inclusion of children with ADHD : the role of knowledge and stigma

Attitudes play a pivotal role in the inclusion of children with Attention Deficit/Hyperactivity Disorder (ADHD) in mainstream schools but little is known about factors that influence these. This study investigated the effect of ADHD knowledge and stigma on professionals attitudes towards mainstream inclusion. Teachers, support staff, school managers and educational psychologists completed questionnaires assessing ADHD knowledge, stigma and attitudes towards inclusion. Psychologists displayed more knowledge, had less stigmatising beliefs and more inclusive attitudes than other professions. Regression analyses revealed those with more knowledge of ADHD and less stigma held more positive attitudes towards mainstream inclusion. Results have implications for how to promote inclusive beliefs about ADHD

Negative feedback regulation of the ERK1/2 MAPK pathway

The extracellular signal-regulated kinase 1/2 (ERK1/2) mitogen-activated protein kinase (MAPK) signalling pathway regulates many cellular functions, including proliferation, differentiation, and transformation. To reliably convert external stimuli into specific cellular responses and to adapt to environmental circumstances, the pathway must be integrated into the overall signalling activity of the cell. Multiple mechanisms have evolved to perform this role. In this review, we will focus on negative feedback mechanisms and examine how they shape ERK1/2 MAPK signalling. We will first discuss the extensive number of negative feedback loops targeting the different components of the ERK1/2 MAPK cascade, specifically the direct posttranslational modification of pathway components by downstream protein kinases and the induction of de novo gene synthesis of specific pathway inhibitors. We will then evaluate how negative feedback modulates the spatiotemporal signalling dynamics of the ERK1/2 pathway regarding signalling amplitude and duration as well as subcellular localisation. Aberrant ERK1/2 activation results in deregulated proliferation and malignant transformation in model systems and is commonly observed in human tumours. Inhibition of the ERK1/2 pathway thus represents an attractive target for the treatment of malignant tumours with increased ERK1/2 activity. We will, therefore, discuss the effect of ERK1/2 MAPK feedback regulation on cancer treatment and how it contributes to reduced clinical efficacy of therapeutic agents and the development of drug resistance