Hernandez Rao (flavorspring32)

Stress and abnormal stress response are associated with schizophrenia spectrum disorder (SSD), but the brain mechanisms linking stress to symptomatology remain unclear. In this study, we used a stress-based functional neuroimaging task, reverse-translated from preclinical studies, to test the hypothesis that abnormal corticolimbic processing of stressful threat anticipation is associated with psychosis and affective symptoms in SSD. Participants underwent an MRI-compatible ankle-shock task (AST) in which the threat of mild electrical shock was anticipated. We compared functional brain activations during anticipatory threat periods from N = 18 participants with SSD (10 M/8F) to those from N = 12 community controls (9 M/3F). After family-wise error correction, only one region, the ventral anterior cingulate cortex (vACC), showed significantly reduced activation compared with controls. vACC activation significantly correlated with clinical symptoms measured by the Brief Psychiatric Rating Scale total score (r = 0.54) and the psychosis subscale (r = 0.71), and inversely correlated with trait depression measured by the Maryland Trait and State Depression scale (r=-0.48). Deficient activation in vACC under stress of anticipated threat may lead to aberrant interpretation of such threat, contributing to psychosis and mood symptoms in SSD. This experimental paradigm has translational potential and may identify circuitry-level mechanisms of stress-related mental illness, leading to more targeted treatment.Soil salinity is one of the most important environmental factors that adversely affect plant growth and productivity. Quinoa emerges as a good food candidate due to its exceptional nutritive value, and its adaptability to various abiotic stresses. This high quinoa potential was investigated in the present study by evaluating the impact of salinity and post-stress restorative processes, in order to test how a pulse of saline water affects the growth and survival of two quinoa genotypes differing in salt resistance, Kcoito (salt sensitive) and UDEC-5 (salt resistant). Plants established in non-saline nutrient solution (hydroponic system) were exposed to a pulse of 0, 100 and 300 mM NaCl salinity for three weeks followed by four weeks in nutrient solution. Both genotypes survived exposure to salinity pulses. After stress removal, only the salt resistant variety UDEC-5 presented a significant stimulation of growth above the level of the non-pulsed treatment. Furthermore, the two varieties showed different responsfense and water relations even above the level of non-pulsed plants.Schizophrenia is a highly heritable, polygenic disorder. A growing list of common genetic variants have been associated with schizophrenia; there is a clear need to understand the role of these risk factors in the etiology of disease. The majority of these variants occur in noncoding regions of the genome and are thought to regulate the expression of one or more genes in a cell type-specific fashion. Recent advances in stem cell biology and molecular genetics have resulted in two invaluable advances hiPSC technology makes possible the generation of donor-specific disease-relevant neural cell types, whereas CRISPR-based techniques can be applied to manipulate individual variants and/or their gene targets. New multiplexed gene manipulation and CRISPR screening techniques show great promise toward dissecting the complex interactions between the myriad disease-associated variants. This review outlines key advances in hiPSC and CRISPR technology, describing their applications and future potential in the field of schizophrenia research.Most existing approaches to border health focus on identifying the social determinants that produce ill health and health disparities among migrants, including language barriers, documentation status, and trauma associated with migration. Attention to these kinds of problems can lead to policy and clinical changes that indeed help improv