Atrial Fibrillation in Heart Failure Is Associated with High Levels of Circulating microRNA-199a-5p and 22–5p and a Defective Regulation of Intracellular Calcium and Cell-to-Cell Communication

HL-1 cells; L-type calcium channels; Calcium regulationCélulas HL-1; Canales de calcio tipo L; Regulación del calcioCel·lules HL-1; Canals de calci tipus L; Regulació del calciMicroRNAs (miRNAs) participate in atrial remodeling and atrial fibrillation (AF) promotion. We determined the circulating miRNA profile in patients with AF and heart failure with reduced ejection fraction (HFrEF), and its potential role in promoting the arrhythmia. In plasma of 98 patients with HFrEF (49 with AF and 49 in sinus rhythm, SR), differential miRNA expression was determined by high-throughput microarray analysis followed by replication of selected candidates. Validated miRNAs were determined in human atrial samples, and potential arrhythmogenic mechanisms studied in HL-1 cells. Circulating miR-199a-5p and miR-22-5p were significantly increased in HFrEF patients with AF versus those with HFrEF in SR. Both miRNAs, but particularly miR-199a-5p, were increased in atrial samples of patients with AF. Overexpression of both miRNAs in HL-1 cells resulted in decreased protein levels of L-type Ca2+ channel, NCX and connexin-40, leading to lower basal intracellular Ca2+ levels, fewer inward currents, a moderate reduction in Ca2+ buffering post-caffeine exposure, and a deficient cell-to-cell communication. In conclusion, circulating miR-199a-5p and miR-22-5p are higher in HFrEF patients with AF, with similar findings in human atrial samples of AF patients. Cells exposed to both miRNAs exhibited altered Ca2+ handling and defective cell-to-cell communication, both findings being potential arrhythmogenic mechanisms.This work was funded by the following grants, awarded to B.B.: Sociedad Española de Cardiología, Sección de Arritmias y Electrofisiología 2012; Sociedad Española de Cardiología, Sección de Insuficiencia Cardíaca 2013; Fondo Investigación Sanitaria (FIS)—Instituto Carlos III 2013 (PI13/01830); and Societat Catalana de Cardiologia 2016. Awarded to K.W.A-A. and S.R.: British Heart Foundation (BHF) Intermediate Research Fellowship. Awarded to J.M.F.F.: grant from the Spanish Ministry of Science and Innovation (RTI2018-094809-B-I00). “María de Maeztu” Programme for Units of Excellence in R&D to the Departament de Ciències Experimentals i de la Salut (MDM-2014-0370) and FEDER (Fondo Europeo de Desarrollo Regional) also contributed to this work

Do sodium channel proteolytic fragments regulate sodium channel expression?

© 2017 Taylor & Francis The cardiac voltage-gated sodium channel (gene: SCN5A, protein: Na V 1.5) is responsible for the sodium current that initiates the cardiomyocyte action potential. Research into the mechanisms of SCN5A gene expression has gained momentum over the last few years. We have recently described the transcriptional regulation of SCN5A by GATA4 transcription factor. In this addendum to our study, we report our observations that 1) the linker between domains I and II (L DI-DII ) of Na V 1.5 contains a nuclear localization signal (residues 474–481) that is necessary to localize L DI-DII into the nucleus, and 2) nuclear L DI-DII activates the SCN5A promoter in gene reporter assays using cardiac-like H9c2 cells. Given that voltage-gated sodium channels are known targets of proteases such as calpain, we speculate that Na V 1.5 degradation is signaled to the cell transcriptional machinery via nuclear localization of L DI-DII and subsequent stimulation of the SCN5A promoter

Neurohormonal activation induces intracellular iron deficiency and mitochondrial dysfunction in cardiac cells

Cèl·lula cardíaca; Deficiència de ferro; Activació neurohormonalCardiac cell; Iron deficiency; Neurohormonal activationCélula cardíaca; Deficiencia de hierro; Activación neurohormonalBackground Iron deficiency (ID) is common in patients with heart failure (HF) and is associated with poor outcomes, yet its role in the pathophysiology of HF is not well-defined. We sought to determine the consequences of HF neurohormonal activation in iron homeostasis and mitochondrial function in cardiac cells. Methods HF was induced in C57BL/6 mice by using isoproterenol osmotic pumps and embryonic rat heart-derived H9c2 cells were subsequently challenged with Angiotensin II and/or Norepinephrine. The expression of several genes and proteins related to intracellular iron metabolism were assessed by Real time-PCR and immunoblotting, respectively. The intracellular iron levels were also determined. Mitochondrial function was analyzed by studying the mitochondrial membrane potential, the accumulation of radical oxygen species (ROS) and the adenosine triphosphate (ATP) production. Results Hearts from isoproterenol-stimulated mice showed a decreased in both mRNA and protein levels of iron regulatory proteins, transferrin receptor 1, ferroportin 1 and hepcidin compared to control mice. Furthermore, mitoferrin 2 and mitochondrial ferritin were also downregulated in the hearts from HF mice. Similar data regarding these key iron regulatory molecules were found in the H9c2 cells challenged with neurohormonal stimuli. Accordingly, a depletion of intracellular iron levels was found in the stimulated cells compared to non-stimulated cells, as well as in the hearts from the isoproterenol-induced HF mice. Finally, neurohormonal activation impaired mitochondrial function as indicated by the accumulation of ROS, the impaired mitochondrial membrane potential and the decrease in the ATP levels in the cardiac cells. Conclusions HF characteristic neurohormonal activation induced changes in the regulation of key molecules involved in iron homeostasis, reduced intracellular iron levels and impaired mitochondrial function. The current results suggest that iron could be involved in the pathophysiology of HF.This work was funded by the following Grants: unrestricted grant from Vifor Pharma and Basic Research Competitive Grant in Cardiology from the Spanish Society of Cardiology 2015

Aging Impairs Reverse Remodeling and Recovery of Ventricular Function after Isoproterenol-Induced Cardiomyopathy

Abstract: Information about heart failure with reduced ejection fraction (HFrEF) in women and the potential effects of aging in the female heart is scarce. We investigated the vulnerability to develop HFrEF in female elderly mice compared to young animals, as well as potential differences in reverse remodeling. First, HF was induced by isoproterenol infusion (30 mg/kg/day, 28 days) in young (10-week-old) and elderly (22-month-old) female mice. In a second set of animals, mice underwent isoproterenol infusion followed by no treatment during 28 additional days. Cardiac remodeling was assessed by echocardiography, histology and gene expression of collagen-I and collagen-III. Following isoproterenol infusion, elderly mice developed similar HFrEF features compared to young animals, except for greater cell hypertrophy and tissue fibrosis. After beta-adrenergic withdrawal, young female mice experienced complete reversal of the HFrEF phenotype. Conversely, reversed remodeling was impaired in elderly animals, with no significant recovery of LV ejection fraction, cardiomyocyte hypertrophy and collagen deposition. In conclusion, chronic isoproterenol infusion is a valid HF model for elderly and young female mice and induces a similar HF phenotype in both. Elderly animals, unlike young, show impaired reverse remodeling, with persistent tissue fibrosis and cardiac dysfunction even after beta-adrenergic withdrawal

Clinical evaluation of allogeneic eye drops from cord blood platelet lysate

Background - Current treatments for several corneal lesions show limited efficacy. Here we report the clinical evaluation of the efficacy of a novel eye drop preparation produced in a public cord blood (CB) bank. Material and methods - In a multicentre, retrospective, consecutive case study we evaluated 33 patients (46 eyes) unresponsive to conventional treatments who required urgent intervention. The patients were given allogeneic eye drops obtained from cord blood platelet lysate (CBED) to treat severe ocular surface lesions under a compassionate use protocol. The CBED were prepared from CB units donated for haematopoietic stem cell transplantation that did not contain the minimum stem cell dose required for this use. Patients were grouped by acute conditions (neurotrophic ulcers: group I; other corneal ulcers: group II; corneal burns: group III), and chronic conditions (ocular graft-versus-host disease: group IV; severe dry eye syndrome: group V). The patients received one or two drops of the product to the affected eye four to six times per day for 19 days. A further 19-day cycle of treatment could be repeated according to the initial clinical response. Results - Patients received a median of 19 CBED vials (interquartile range 19-57, range 19-442) to complete the therapy. Group I-II-III patients showed full and partial ulcer recovery in 25 (78%) and six (19%) eyes respectively. One eye (3%) did not respond to treatment. For groups IV-V improvement was reported for 12 (85%) eyes and lesions worsened on treatment in both eyes (15%) of one patient. No severe adverse events were directly attributed to CBED. Discussion - Promptly available CBED resulted in a well-tolerated allogeneic treatment that showed evidence of efficacy in this cohort of patients. These positive results support further studies on CBED from platelet lysate as a novel product of CB banks. A prospective clinical trial in neurotrophic keratitis (NCT03084861) is ongoing to confirm these preliminary data. Keywords: cord blood, eye drops, corneal ulcers, neurotrophic keratitis, dry eye

TRPV4 Channels Promote Pathological, but Not Physiological, Cardiac Remodeling through the Activation of Calcineurin/NFAT and TRPC6

TRPV4 channels, which respond to mechanical activation by permeating Ca2+ into the cell, may play a pivotal role in cardiac remodeling during cardiac overload. Our study aimed to investigate TRPV4 involvement in pathological and physiological remodeling through Ca2+-dependent signaling. TRPV4 expression was assessed in heart failure (HF) models, induced by isoproterenol infusion or transverse aortic constriction, and in exercise-induced adaptive remodeling models. The impact of genetic TRPV4 inhibition on HF was studied by echocardiography, histology, gene and protein analysis, arrhythmia inducibility, Ca2+ dynamics, calcineurin (CN) activity, and NFAT nuclear translocation. TRPV4 expression exclusively increased in HF models, strongly correlating with fibrosis. Isoproterenol-administered transgenic TRPV4-/- mice did not exhibit HF features. Cardiac fibroblasts (CFb) from TRPV4+/+ animals, compared to TRPV4-/-, displayed significant TRPV4 overexpression, elevated Ca2+ influx, and enhanced CN/NFATc3 pathway activation. TRPC6 expression paralleled that of TRPV4 in all models, with no increase in TRPV4-/- mice. In cultured CFb, the activation of TRPV4 by GSK1016790A increased TRPC6 expression, which led to enhanced CN/NFATc3 activation through synergistic action of both channels. In conclusion, TRPV4 channels contribute to pathological remodeling by promoting fibrosis and inducing TRPC6 upregulation through the activation of Ca2+-dependent CN/NFATc3 signaling. These results pose TRPV4 as a primary mediator of the pathological response

EDILAB : el laboratori d'edició en confinament

A coberta: Grau en Arts i Disseny, Escola Massana. 2019-2020.A l'assignatura de Laboratori de llenguatges del Grau en Arts i Disseny de l'Escola Massana treballem el llenguatge en totes les seves accepcions. Aquesta obra és el recull de 10 treballs realitzats en el confinament arran de la pandèmia de COVID-19 a la primavera de 2020. Els treballs del Laboratori d'edició que aquí es mostren, gaudeixen de dos característiques a destacar. En primer lloc, tots ells recuperen una pràctica de la creativitat que podríem definir com a «innata»: una creativitat que no requereix de grans artificis ni flotadors tecnològics per, a través del que hi ha i amb el que hi ha, donar lloc a la manifestació d'una idea. En segon lloc l'heterogeneïtat i singularitat dels discursos, tant a nivell conceptual com formal. Lluny de les pràctiques més academicistes, la riquesa del treball pedagògic es troba en saber donar espai, considerar i acompanyar la llavor d'originalitat de cadascun dels alumnes per, així, extreure'n el màxim aprenentatge, capacitat de recerca i també, cal reivindicar-ho, gaudi

Trends in the epidemiology of catheter-related bloodstream infections; towards a paradigm shift, Spain, 2007 to 2019

Altres ajuts: Departament de Salut. Generalitat de Catalunya ("Pla estratègic de recerca i innovació en salut (PERIS) 2019-2021"); Ministerio de Asuntos Económicos y Transformación Digital; Red Española de Investigación en Patología Infecciosa (REIPI).Background: Catheter-related bloodstream infections (CRBSI) are frequent healthcare-associated infections and an important cause of death. Aim: To analyse changes in CRBSI epidemiology observed by the Infection Control Catalan Programme (VINCat). Methods: A cohort study including all hospital-acquired CRBSI episodes diagnosed at 55 hospitals (2007-2019) in Catalonia, Spain, was prospectively conducted. CRBSI incidence rates were adjusted per 1,000patientdays. To assess the CRBSI rate trend per year, negative binomial models were used, with the number of events as the dependent variable, and the year as the main independent variable. From each model, the annual rate of CRBSI diagnosed per 1,000patientdays and the incidence rate ratio (IRR) with its 95% confidence intervals (CI) were reported. Results: During the study, 9,290 CRBSI episodes were diagnosed (mean annual incidence rate:0.20episodes/1,000patientdays). Patients' median age was 64.1years; 36.6% (3,403/9,290) were female. In total, 73.7% (n=6,845) of CRBSI occurred in non-intensive care unit (ICU) wards, 62.7% (n=5,822) were related to central venous catheter (CVC), 24.1% (n=2,236) to peripheral venous catheters (PVC) and 13.3% (n=1,232) to peripherally-inserted central venous catheters (PICVC). Incidence rate fell over the study period (IRR:0.94;95%CI:0.93-0.96), especially in the ICU (IRR:0.88;95%CI:0.87-0.89). As a whole, while episodes of CVC CRBSI fell significantly (IRR:0.88;95%CI:0.87-0.91), peripherally-inserted catheter CRBSI (PVC and PICVC) rose, especially in medical wards (IRR PICVC:1.08;95%CI:1.05-1.11; IRR PVC: 1.03; 95% 1.00-1.05). Conclusions: Over the study, CRBSIs associated with CVC and diagnosed in ICUs decreased while episodes in conventional wards involving peripherally-inserted catheters increased. Hospitals should implement preventive measures in conventional wards

Role of TRPV4 channels in adverse cardiac remodelling

Els mecanismes que determinen el desenvolupament de remodelat cardíac, tant en la seva forma adversa (característica de la insuficiència cardíaca), com adaptativa (induïda per exercici), no es coneixen en detall. Els mecanoreceptors, canals transmembrana amb la capacitat de convertir estímuls mecànics en senyals químiques intracel·lulars, es postulen com elements clau en la promoció d’ambdós tipus de remodelat. En aquesta tesi s’aporten evidències de que existeix un patró d’expressió diferencial de mecanoreceptors en el remodelat adaptatiu i l’advers, i destaquem el paper dels canals TRPV4 i TRPC6 en desenvolupament de la resposta patològica. A més, estudiem en detall els mecanismes moleculars pels quals el TRPV4 promou la fibrosi i demostrem que la deleció del canal protegeix davant el desenvolupament del remodelat advers. Així mateix, també examinem les particularitats en el desenvolupament i la reversió de la insuficiència cardíaca, així com els canvis en l’expressió de TRPV4, associades a l’envelliment.The mechanisms that determine the development of cardiac remodelling, either adverse (such as that seen in heart failure) or adaptive (such as that induced by exercise), are not known in detail. Mechanoreceptors, membrane channels capable of transducing mechanical stimuli into intracellular chemical signals, are postulated as key elements in the promotion of both types of remodelling. In this thesis, we provide evidence that there exists a differential expression pattern of mechanoreceptors in adaptive and adverse remodelling, and we highlight the role of the TRPV4 and TRPC6 channels in the promotion of the pathological response. In addition, we study in detail the molecular mechanisms by which TRPV4 promotes fibrosis and demonstrate that the deletion of the channel protects against the development of adverse remodelling. We also examine the particularities of heart failure promotion and recovery, along with changes in TRPV4 expression, associated with ageing