The extent of involvement of ouabain, hippocampal expression of Na+/K+-ATPase, and corticosterone/melatonin receptors ratio in modifying stress-induced behavior differs according to the stressor in context

The aim of this study was to assess the effect of two types of stressors, regarding the extent of involvement of ouabain (OUA), hippocampal sodium/potassium ATPase (NKA) expression, and the hippocampal corticosterone receptors (CR)/melatonin receptors (MR) expression ratio, on the behavioral and cardiovascular responses and on the hippocampal cornu ammonis zone 3 (CA3) and dentate gyrus (DG). Thirty adult male Wistar albino rats aged 7-8 months were exposed to either chronic immobilization or a disturbed dark/light cycle and treated with either ouabain or vehicle. In the immobilized group, in the absence of hippocampal corticosterone (CORT) changes, rats were non-responsive to stress, despite experiencing increased pulse rate, downregulated hippocampal sodium/potassium pump, and enhanced hippocampal CR/MR expression ratio. Prolonged darkness precipitated a reduced upright attack posture, with elevated CORT against hippocampal MR downregulation. Both immobilization and, to a lesser extent, prolonged darkness stress resulted in histopathological and ultrastructural neurodegenerative changes in the hippocampus. OUA administration did not change the behavioral resilience in restrained rats, despite persistence of the underlying biochemical derangements, added to decreased CORT. On the contrary, with exposure to short photoperiods, OUA reverted the behavior towards a combative reduction of inactivity, with unvaried CR/MR and CORT, while ameliorating hippocampal neuro-regeneration, with co-existing NKA and MR repressions. Therefore, the extent of OUA, hippocampal NKA expression, and CR/MR expression, and subsequent behavioral and cardiac responses and hippocampal histopathology, differ according to the type of stressor, whether immobilization or prolonged darkness.

Trastornos electrolíticos inducidos por fármacos y sustancias tóxicas / Electrolyte disorders induced by drugs and toxic substances

Las enfermedades pueden generar un desequilibrio de electrolitos como parte de su fisiopatología, al igual que los medicamentos usados crónicamente y algunas sustancias tóxicas disponibles en nuestro medio. A pesar de todos los datos estadísticos existentes, la incidencia global de los trastornos electrolíticos secundarios a fármacos o sustancias tóxicas permanece desconocida, y, posiblemente, subregistrada; por lo tanto, el objetivo de esta revisión es analizar los trastornos electrolíticos que causan algunos medicamentos y sustancias tóxicas, y describir el mecanismo a través del cual se producen las alteraciones, en particular, del sodio, potasio, magnesio, calcio y fósforo, con el fin de alertar a los profesionales de la salud en el momento de enfrentarse a este tipo de condiciones en su práctica clínica. El conocimiento de los efectos adversos relacionados con medicamentos y tóxicos es importante para prevenir, identificar y gestionar de forma eficaz, complicaciones que son potencialmente peligrosas. Esta revisión pretende ser un referente de apoyo para los profesionales de la salud en estas situaciones

Diseases can generate an electrolyte imbalance as part of their pathophysiology, as well as chronic use of some medications, and toxic substances available in our environment. Despite all the separate statistical data, the overall incidence of fluid and electrolyte disorders secondary to drugs or toxic substances remains unknown, and possibly underreported; therefore, the objective of this review is to analyze electrolyte disorders caused by some medications and toxic substances, and describe the mechanism through which changes in sodium, potassium, magnesium, calcium and phosphorus occur, in particular, in order to alert health professionals when facing this type of conditions in their clinical practice. Knowledge of drug and toxic-related adverse effects is important to effectively prevent, identify, and manage complications that can be potentially life-threatening. This review intends to be a reference for supporting health professionals in these situations

Isoform-specific regulation of sodium pump ?-subunit gene expression in the cortex of kidney from the one kidney one clip hypertensive rat / 中国病理生理杂志

AIM: To investigate the regulation of sodium pump ?-subunit gene expression in the cortex of kidneys from one kidney one clip (1k1c) hypertensive rats. METHODS: 1k1c hypertensive rats were prepared by partially ligating the left renal artery and removing the right kidney. 4 weeks later, all the rats were killed, the levels of sodium pump ? 1-, ? 2-, and ? 3-subunit mRNA and protein in the cortex of kidney were detected with reverse transcription polymerase chain reaction (RT-PCR) method and immunohistochemical assay, respectively. RESULTS: The mRNA levels of sodium pump ? 1-subunit increased and ? 2- and ? 3-subunit were unchanged in the cortex of kidneys from 1k1c hypertensive rats compared with control rats, while no change has been found for all the three subunits gene expressions at protein level. CONCLUSION: There were some changes in the expression of sodium pump ?-subunit gene in the cortex of kidney of the 1k1c hypertensive rat, which might be related to the development of hypertension in this hypertensive model.