The benefits of using selenium in the treatment of Chagas disease: prevention of right ventricle chamber dilatation and reversion of Trypanosoma cruzi-induced acute and chronic cardiomyopathy in mice

Cardiac damage is a frequent manifestation of Chagas disease, which is caused by the parasite Trypanosoma cruzi. Selenium (Se) is an essential micronutrient, the deficiency of which has been implicated in the development of cardiomyopathy. Our group has previously demonstrated that Se supplementation prevents myocardial damage during acute T. cruzi infection in mice. In this study, we analyzed the effect of Se treatment in cases of T. cruzi infection using prevention and reversion schemes. In the Se prevention scheme, mice were given Se supplements (2 ppm) starting two weeks prior to inoculation with T. cruzi(Brazil strain) and continuing until 120 days post-infection (dpi). In the Se reversion scheme, mice were treated with Se (4 ppm) for 100 days, starting at 160 dpi. Dilatation of the right ventricle was observed in the infected control group at both phases of T. cruzi infection, but it was not observed in the infected group that received Se treatment. Surviving infected mice that were submitted to the Se reversion scheme presented normal P wave values and reduced inflammation of the pericardium. These data indicate that Se treatment prevents right ventricular chamber increase and thus can be proposed as an adjuvant therapy for cardiac alterations already established by T. cruziinfection.

VEGF gene expression in adult human thymus fat: a correlative study with hypoxic induced factor and cyclooxygenase-2.

It is well known that the adult human thymus degenerates into fat tissue; however, it has never been considered as a potential source of angiogenic factors. Recently, we have described that this fat (TAT) produces angiogenic factors and induces human endothelial cell proliferation and migration, indicating its potential angiogenic properties. DESIGN Adult thymus fat and subcutaneous adipose tissue specimens were obtained from 28 patients undergoing cardiac surgery, making this tissue readily available as a prime source of adipose tissue. We focused our investigation on determining VEGF gene expression and characterizing the different genes, mediators of inflammation and adipogenesis, and which are known to play a relevant role in angiogenesis regulation. RESULTS We found that VEGF-A was the isoform most expressed in TAT. This expression was accompanied by an upregulation of HIF-1alpha, COX-2 and HO-1 proteins, and by increased HIF-1 DNA binding activity, compared to SAT. Furthermore, we observed that TAT contains a high percentage of mature adipocytes, 0.25% of macrophage cells, 15% of endothelial cells and a very low percentage of thymocyte cells, suggesting the cellular variability of TAT, which could explain the differences in gene expression observed in TAT. Subsequently, we showed that the expression of genes known as adipogenic mediators, including PPARgamma1/gamma2, FABP-4 and adiponectin was similar in both TAT and SAT. Moreover the expression of these latter genes presented a significantly positive correlation with VEGF, suggesting the potential association between VEGF and the generation of adipose tissue in adult thymus. CONCLUSION Here we suggest that this fat has a potential angiogenic function related to ongoing adipogenesis, which substitutes immune functions within the adult thymus. The expression of VEGF seems to be associated with COX-2, HO-1 and adipogenesis related genes, suggesting the importance that this new fat has acquired in research in relation to adipogenesis and angiogenesis.

Urological surgery and antiplatelet drugs after cardiac and cerebrovascular accidents.

PURPOSE: The perioperative treatment of patients on dual antiplatelet therapy after myocardial infarction, cerebrovascular event or coronary stent implantation represents an increasingly frequent issue for urologists and anesthesiologists. We assess the current scientific evidence and propose strategies concerning treatment of these patients. MATERIALS AND METHODS: A MEDLINE and PubMed search was conducted for articles related to antiplatelet therapy after myocardial infarction, coronary stents and cerebrovascular events, as well as the use of aspirin and/or clopidogrel in the context of surgery. RESULTS: Early discontinuation of antiplatelet therapy for secondary prevention is associated with a high risk of coronary thrombosis, which is further increased by the hypercoagulable state induced by surgery. Aspirin has recently been recommended as a lifelong therapy. Clopidogrel is mandatory for 6 weeks after myocardial infarction and bare metal stents, and for 12 months after drug-eluting stents. Surgery must be postponed beyond these waiting periods or performed with patients receiving dual antiplatelet therapy because withdrawal therapy increases 5 to 10 times the risk of postoperative myocardial infarction, stent thrombosis or death. The shorter the waiting period between revascularization and surgery the greater the risk of adverse cardiac events. The risk of surgical hemorrhage is increased approximately 20% by aspirin and 50% by clopidogrel. CONCLUSIONS: The risk of coronary thrombosis when antiplatelet agents are withdrawn before surgery is generally higher than the risk of surgical hemorrhage when antiplatelet agents are maintained. However, this issue has not yet been sufficiently evaluated in urological patients and in many instances during urological surgery the risk of bleeding can be dangerous. A thorough dialogue among surgeon, cardiologist and anesthesiologist is essential to determine all risk factors and define the best possible strategy for each patient.

The role of nonhematopoietic MHC class II expression in immune responses and tolerance

Si les rôles fonctionnels de diverses cellules immunitaires infiltrant des tissus enflammés sont assez bien compris, par contre, étonnamment, on connaît bien moins la capacité des cellules non hématopoïétiques résidant dans des tissus, à moduler l'activité biologique des cellules immunitaires immigrantes, et donc le résultat de la réponse immunitaire. La présentation des antigènes, dans le contexte des molécules du CMH de classe II (CMHII) à la surface des cellules présentatrices d'antigènes (CPA) professionnelles à une sous- population de lymphocytes T, est cruciale pour le développement des réponses immunitaires protectives spécifiques de l'antigène. En général, l'expression de CMHII est réservée aux CPAs. Toutefois, au cours des pathologies inflammatoires spécifiques d'organe, telles que l'auto-immunité ou la maladie inflammatoire de l'intestin, l'expression de CMHII est également induite par la cytokine interféron (IFN)-y sur des cellules non hématopoïétiques qui résident dans des tissus enflammés. Les conséquences de ce phénomène sont encore peu comprises. Dans cette étude, nous avons utilisé une souche de souris génétiquement modifiées, qui n'a pas la capacité d'induire l'expression de CMHII sur les cellules non hématopoïétiques, mais a maintenu la régulation normale d'expression de CMHII sur les cellules hématopoïétiques. Nous avons appliqué ces souris à différents modèles d'inflammation intestinale et à un modèle de maladie qui imite la maladie auto-immune de l'inflammation du muscle cardiaque (myocardite) chez l'homme. Nous avons pu montrer que, au cours de l'inflammation intestinale, l'expression du CMHII nonhématopoïétique, ou encore l'expression du CMHII par les cellules épithéliales de l'intestin, confère une protection contre la maladie, en réduisant les cellules immunitaires inflammatoires et en augmentant les cellules Τ régulatrices anti-inflammatoires. Ces résultats pourraient expliquer l'échec des traitements d'anti-IFN-γ dans les maladies intestinales inflammatoires chez l'homme. En revanche, dans la myocardite auto-immune, nos résultats indiquent que la présentation d'antigènes par les cellules non hématopoïétiques du coeur est nécessaire pour l'apparition de la pathologie cardiaque, comme nos souris sont résistantes à la maladie. Toutefois, cela n'est pas dû à un défaut d'activation des lymphocytes T, car les lymphocytes Τ des souris mutantes sont parfaitement capables de promouvoir la maladie après le transfert adoptif dans des animaux de type naturel. Nos résultats suggèrent que, durant les maladies inflammatoires spécifiques d'organe, la présentation d'antigène par des cellules non hématopoïétiques module et contribue au résultat de la réponse immunitaire d'une manière opposée, conférant soit la protection contre la maladie ou sa promotion. Nos résultats pourraient ouvrir la voie à des thérapies qui prennent en compte la contribution de la présentation d'antigènes par les cellules non hématopoïétiques, au cours des maladies inflammatoires spécifiques d'organe. - Les molécules du CMH de classe II (CMHII) sont fondamentales pour la présentation des antigènes aux lymphocytes Τ CD4+, car elles permettent le développement des réponses immunitaires spécifiques de l'antigène. Il est largement admis que l'expression de CMHII est réservée aux cellules présentatrices d'antigènes (CPA). Cependant, dans des conditions inflammatoires, l'expression de CMHII est en principe également induite par l'interféron (IFN)-y sur les cellules non hématopoïétiques, telles que les cellules épithéliales et les cardiomyocytes. Une controverse existe jusqu'à présent au sujet de la fonction de cette présentation d'antigènes non professionnelle, pour savoir si elle favorise la tolérance ou l'immunité dépendante des lymphocytes Τ in vivo. Pour répondre à cette question, nous avons testé des souris qui ne sont pas capables d'induire l'expression du CMHII sur les cellules non hématopoïétiques (souris PIV-/- K14 CIITA Tg) parmi différents modèles murins de pathologies inflammatoires, à savoir les modèles de vaccination pour induire des réponses spécifiques d'antigènes des lymphocytes B, plusieurs modèles de colite et un modèle de myocardite auto-immune expérimental (EAM). Pour cela, nous avons administré à ces souris un modèle de colite atténuée, induite par une infection chronique à Helicobacter hepaticus et par l'administration d'anticorps monoclonaux bloquant le récepteur de l'interleukine (IL)-10 (anti-IL-10R). Dans ce système, nous avons pu observer que l'expression abrogée de CMHII a aggravé la colite bactérienne, soit par les cellules non hématopoïétiques, soit exclusivement par les cellules épithéliales intestinales (CEI) dans un autre modèle murin (souris plV_fl/fl vil-Cre Tg). Ce phénotype du côlon a été associé à une augmentation des fréquences de cellules immunitaires innées, de lymphocytes Th1 CD4+, et d'expression des cytokines et de chimiokines pro-inflammatoires, y compris l'IFN-γ. Notamment, l'expression défectueuse de CMHII non hématopoïétique a également réduit les cellules Τ régulatrices (Treg) Forkhead box P3 (FoxP3)+, sans influencer les fréquences des cellules innées lymphoïdes et des cellules Th17. Ces résultats suggèrent un rôle tolérogène de CEIs CMHII+ qui contribue à l'homéostasie immunitaire intestinale. En revanche, dans le modèle d'EAM, les souris ayant subi une ablation de CMHII non hématopoïétique étaient résistantes à l'induction de la maladie, alors que la progression de la pathologie cardiaque, dans les souris de type naturel ou hétérozygotes, a été accompagnée par une régulation positive de l'expression de CMHII du myocarde. Cependant, l'inflammation cardiaque pourrait être transférée de manière adoptive depuis des souris amorcées PIV-/- K14 CIITA Tg vers des souris de type naturel, indiquant l'absence de défaut intrinsèque d'amorçage des cellules T CD4+ dans notre modèle de souris. Ces observations impliquent un rôle à jouer pour des cellules CMHII+ non hématopoïétiques résidentes du coeur, dans la promotion active de ΙΈΑΜ. En conclusion, nos résultats, provenant de diverses pathologies inflammatoires spécifiques d'organes, suggèrent un rôle complexe et divergent, soit tolérogène, soit immunogène/ pathologique, pour l'expression de CMHII non hématopoïétique au cours des pathologies inflammatoires. L'expression non professionnelle de CMHII semble influencer le résultat des réponses immunitaires en fonction de différents facteurs, tels que le tissu cible, le(s) type(s) de cellule(s) non hématopoïétique(s) participante(s) et l'origine de l'inflammation. Nos résultats pourraient potentiellement ouvrir la voie à des applications thérapeutiques, qui tiennent compte de la contribution de la présentation d'antigènes par des CPAs non professionnelles, au cours de l'inflammation spécifique d'organe. - MHC class II (MHCII) molecules are fundamental for the presentation of antigens to CD4+ Τ cells, allowing the development of antigen-specific immune responses. It is widely accepted that MHCII expression is restricted to antigen-presenting cells (APC). However, under inflammatory conditions, MHCII expression is typically also induced by interferon (IFN)-y on nonhematopoietic cells such as epithelial cells and cardiomyocytes. So far, it remains controversial whether this nonprofessional antigen-presentation function promotes CD4+ Τ cell-dependent tolerance or immunity in vivo. To address this issue, we utilised mice which lack inducible MHCII expression on nonhematopoietic cells (pIV-/- K14 CIITA Tg mice) in different mouse models of inflammatory pathologies, namely immunisation models to induce antigen-specific Β cell responses, various colitis models and a model of experimental autoimmune myocarditis (EAM). In an attenuated model of colitis induced by chronic Helicobacter hepaticus infection and treatment with anti-interleukin (IL)-10 receptor (anti-IL-10R) monoclonal blocking antibody, we observed that abrogated MHCII expression by nonhematopoietic cells or, in an alternative tamoxifen-inducible mouse model (plV_fl/fl vil-Cre Tg mice), exclusively by intestinal epithelial cells (IEC), exacerbated bacterial-driven colitis, which was associated with increased colonic frequencies of innate immune cells, CD4+ Th1 cells and expression of proinflammatory cytokines and chemokines, including IFN-γ. Notably, defective nonhematopoietic MHCII expression also resulted in reduced Forkhead box P3 (FoxP3)+ regulatory Τ (Treg) cells without influencing innate lymphoid cell (ILC) and Th17 cell frequencies. These findings suggest a tolerogenic role of MHClT lECs to contribute to intestinal immune homeostasis. In contrast, in the EAM model, mice ablated of nonhematopoietic MHCII were resistant to disease induction, whereas progression of cardiac pathology in WT and heterozygous control mice was accompanied by upregulation of myocardial MHCII expression. However, cardiac inflammation could be adoptively transferred from primed pIV-/- K14 CIITA Tg mice into WT mice, indicating no intrinsic defect of CD4+ Τ activation in our mouse model. These observations imply a role for MHCIT heart-resident nonhematopoietic cells in actively promoting EAM. In conclusion, our findings from different organ-specific inflammatory pathologies suggest a complex and diverging role - either tolerogenic or immunogenic/ pathologic - for nonhematopoietic MHCII expression during inflammatory pathologies: Nonprofessional MHCII expression appears to influence the outcome of immune responses depending on 7 factors such as the target tissue, participating non hematopoietic cell type(s) and the origin of inflammation. Our findings may potentially open the way to therapeutic applications taking into account the contribution of antigen presentation by nonprofessional, tissue-resident APCs during organ-specific inflammation.

Hypertension differentially affects the expression of the gap junction protein connexin43 in cardiac myocytes and aortic smooth muscle cells.

Electrical and mechanical coupling of myocytes in heart and of smooth muscle cells in the aortic wall is thought to be mediated by intercellular channels aggregated at gap junctions. Connexin43 (Cx43) is one of the predominant membrane proteins forming junctional channels in the cardiovascular system. This study was undertaken to assess its expression during experimental hypertension. Rats were made hypertensive by clipping one renal artery (two-kidney, one-clip renal hypertension) or by administering deoxycorticosterone and salt (DOCA-salt hypertension). After four weeks, rats from both models showed a similar increase in intra-arterial mean blood pressure, as well as in the thickness of both aorta and heart walls. Northern blot analysis showed that, compared to controls, hypertensive rats expressed twice more Cx43 in aorta, but not in heart. These results suggest that localized mechanical forces induced by hypertension are major tissue-specific regulators of Cx43 expression.

Familial evaluation in catecholaminergic polymorphic ventricular tachycardia: disease penetrance and expression in cardiac ryanodine receptor mutation-carrying relatives.

BACKGROUND: Catecholaminergic polymorphic ventricular tachycardia (CPVT) is an inherited arrhythmia syndrome associated with mutations in the cardiac ryanodine receptor gene (Ryr2) in the majority of patients. Previous studies of CPVT patients mainly involved probands, so current insight into disease penetrance, expression, genotype-phenotype correlations, and arrhythmic event rates in relatives carrying the Ryr2 mutation is limited. METHODS AND RESULTS: One-hundred sixteen relatives carrying the Ryr2 mutation from 15 families who were identified by cascade screening of the Ryr2 mutation causing CPVT in the proband were clinically characterized, including 61 relatives from 1 family. Fifty-four of 108 antiarrhythmic drug-free relatives (50%) had a CPVT phenotype at the first cardiological examination, including 27 (25%) with nonsustained ventricular tachycardia. Relatives carrying a Ryr2 mutation in the C-terminal channel-forming domain showed an increased odds of nonsustained ventricular tachycardia (odds ratio, 4.1; 95% CI, 1.5-11.5; P=0.007, compared with N-terminal domain) compared with N-terminal domain. Sinus bradycardia was observed in 19% of relatives, whereas other supraventricular dysrhythmias were present in 16%. Ninety-eight (most actively treated) relatives (84%) were followed up for a median of 4.7 years (range, 0.3-19.0 years). During follow-up, 2 asymptomatic relatives experienced exercise-induced syncope. One relative was not being treated, whereas the other was noncompliant. None of the 116 relatives died of CPVT during a 6.7-year follow-up (range, 1.4-20.9 years). CONCLUSIONS: Relatives carrying an Ryr2 mutation show a marked phenotypic diversity. The vast majority do not have signs of supraventricular disease manifestations. Mutation location may be associated with severity of the phenotype. The arrhythmic event rate during follow-up was low.

Pregnancy-induced chromatin remodeling in the breast of postmenopausal women.

Early pregnancy and multiparity are known to reduce the risk of women to develop breast cancer at menopause. Based on the knowledge that the differentiation of the breast induced by the hormones of pregnancy plays a major role in this protection, this work was performed with the purpose of identifying what differentiation-associated molecular changes persist in the breast until menopause. Core needle biopsies (CNB) obtained from the breast of 42 nulliparous (NP) and 71 parous (P) postmenopausal women were analyzed in morphology, immunocytochemistry and gene expression. Whereas in the NP breast, nuclei of epithelial cells were large and euchromatic, in the P breast they were small and hyperchromatic, showing strong methylation of histone 3 at lysine 9 and 27. Transcriptomic analysis performed using Affymetrix HG_U133 oligonucleotide arrays revealed that in CNB of the P breast, there were 267 upregulated probesets that comprised genes controlling chromatin organization, transcription regulation, splicing machinery, mRNA processing and noncoding elements including XIST. We concluded that the differentiation process induced by pregnancy is centered in chromatin remodeling and in the mRNA processing reactome, both of which emerge as important regulatory pathways. These are indicative of a safeguard step that maintains the fidelity of the transcription process, becoming the ultimate mechanism mediating the protection of the breast conferred by full-term pregnancy.

Differential effects of high-fat diet on myocardial lipid metabolism in failing and nonfailing hearts with angiotensin II-mediated cardiac remodeling in mice.

Normal myocardium adapts to increase of nutritional fatty acid supply by upregulation of regulatory proteins of the fatty acid oxidation pathway. Because advanced heart failure is associated with reduction of regulatory proteins of fatty acid oxidation, we hypothesized that failing myocardium may not be able to adapt to increased fatty acid intake and therefore undergo lipid accumulation, potentially aggravating myocardial dysfunction. We determined the effect of high-fat diet in transgenic mice with overexpression of angiotensinogen in the myocardium (TG1306/R1). TG1306/R1 mice develop ANG II-mediated left ventricular hypertrophy, and at one year of age approximately half of the mice present heart failure associated with reduced expression of regulatory proteins of fatty acid oxidation and reduced palmitate oxidation during ex vivo working heart perfusion. Hypertrophied hearts from TG1306/R1 mice without heart failure adapted to high-fat feeding, similarly to hearts from wild-type mice, with upregulation of regulatory proteins of fatty acid oxidation and enhancement of palmitate oxidation. There was no myocardial lipid accumulation or contractile dysfunction. In contrast, hearts from TG1306/R1 mice presenting heart failure were unable to respond to high-fat feeding by upregulation of fatty acid oxidation proteins and enhancement of palmitate oxidation. This resulted in accumulation of triglycerides and ceramide in the myocardium, and aggravation of contractile dysfunction. In conclusion, hearts with ANG II-induced contractile failure have lost the ability to enhance fatty acid oxidation in response to increased fatty acid supply. The ensuing accumulation of lipid compounds may play a role in the observed aggravation of contractile dysfunction.

Ammonium-induced impairment of axonal growth is prevented through glial creatine.

Hyperammonemia in neonates and infants affects brain development and causes mental retardation. We report that ammonium impaired cholinergic axonal growth and altered localization and phosphorylation of intermediate neurofilament protein in rat reaggregated brain cell primary cultures. This effect was restricted to the phase of early maturation but did not occur after synaptogenesis. Exposure to NH4Cl decreased intracellular creatine, phosphocreatine, and ADP. We demonstrate that creatine cotreatment protected axons from ammonium toxic effects, although this did not restore high-energy phosphates. The protection by creatine was glial cell-dependent. Our findings suggest that the means to efficiently sustain CNS creatine concentration in hyperammonemic neonates and infants should be assessed to prevent impairment of axonogenesis and irreversible brain damage.

Propagation velocity kinetics and repolarization alternans in a free-behaving sheep model of pacing-induced atrial fibrillation.

AIMS: Experimental models have reported conflicting results regarding the role of dispersion of repolarization in promoting atrial fibrillation (AF). Repolarization alternans, a beat-to-beat alternation in action potential duration, enhances dispersion of repolarization when propagation velocity is involved. METHODS AND RESULTS: In this work, original electrophysiological parameters were analysed to study AF susceptibility in a chronic sheep model of pacing-induced AF. Two pacemakers were implanted, each with a single right atrial lead. Right atrial depolarization and repolarization waves were documented at 2-week intervals. A significant and gradual decrease in the propagation velocity at all pacing rates and in the right atrial effective refractory period (ERP) was observed during the weeks of burst pacing before sustained AF developed when compared with baseline conditions. Right atrial repolarization alternans was observed, but because of the development of 2/1 atrioventricular block with far-field ventricular interference, its threshold could not be precisely measured. Non-sustained AF was not observed at baseline, but appeared during the electrical remodelling in association with a decrease in both ERP and propagation velocity. CONCLUSION: We report here on the feasibility of measuring ERP, atrial repolarization alternans, and propagation velocity kinetics and their potential in predicting susceptibility to AF in a free-behaving model of pacing-induced AF using the standard pacemaker technology.

Peroxynitrite induces HMGB1 release by cardiac cells in vitro and HMGB1 upregulation in the infarcted myocardium in vivo.

AIMS: High-mobility group box 1 (HMGB1) is a nuclear protein actively secreted by immune cells and passively released by necrotic cells that initiates pro-inflammatory signalling through binding to the receptor for advance glycation end-products. HMGB1 has been established as a key inflammatory mediator during myocardial infarction, but the proximal mechanisms responsible for myocardial HMGB1 expression and release in this setting remain unclear. Here, we investigated the possible involvement of peroxynitrite, a potent cytotoxic oxidant formed during myocardial infarction, on these processes. METHODS AND RESULTS: The ability of peroxynitrite to induce necrosis and HMGB1 release in vitro was evaluated in H9c2 cardiomyoblasts and in primary murine cardiac cells (myocytes and non-myocytes). In vivo, myocardial HMGB1 expression and nitrotyrosine content (a marker of peroxynitrite generation) were determined following myocardial ischaemia and reperfusion in rats, whereas peroxynitrite formation was inhibited by two different peroxynitrite decomposition catalysts: 5,10,15,20-tetrakis(4-sulphonatophenyl) porphyrinato iron (III) (FeTPPS) or Mn(III)-tetrakis(4-benzoic acid) porphyrin chloride (MnTBAP). In all types of cells studied, peroxynitrite (100 μM) elicited significant necrosis, the loss of intracellular HMGB1, and its passive release into the medium. In vivo, myocardial ischaemia-reperfusion induced significant myocardial necrosis, cardiac nitrotyrosine formation, and marked overexpression of myocardial HMGB1. FeTPPS reduced nitrotyrosine, decreased infarct size, and suppressed HMGB1 overexpression, an effect that was similarly obtained with MnTBAP. CONCLUSION: These findings indicate that peroxynitrite represents a key mediator of HMGB1 overexpression and release by cardiac cells and provide a novel mechanism linking myocardial oxidative/nitrosative stress with post-infarction myocardial inflammation.

The A-kinase anchoring protein (AKAP)-Lbc-signaling complex mediates alpha1 adrenergic receptor-induced cardiomyocyte hypertrophy.

In response to various pathological stresses, the heart undergoes a pathological remodeling process that is associated with cardiomyocyte hypertrophy. Because cardiac hypertrophy can progress to heart failure, a major cause of lethality worldwide, the intracellular signaling pathways that control cardiomyocyte growth have been the subject of intensive investigation. It has been known for more than a decade that the small molecular weight GTPase RhoA is involved in the signaling pathways leading to cardiomyocyte hypertrophy. Although some of the hypertrophic pathways activated by RhoA have now been identified, the identity of the exchange factors that modulate its activity in cardiomyocytes is currently unknown. In this study, we show that AKAP-Lbc, an A-kinase anchoring protein (AKAP) with an intrinsic Rho-specific guanine nucleotide exchange factor activity, is critical for activating RhoA and transducing hypertrophic signals downstream of alpha1-adrenergic receptors (ARs). In particular, our results indicate that suppression of AKAP-Lbc expression by infecting rat neonatal ventricular cardiomyocytes with lentiviruses encoding AKAP-Lbc-specific short hairpin RNAs strongly reduces both alpha1-AR-mediated RhoA activation and hypertrophic responses. Interestingly, alpha1-ARs promote AKAP-Lbc activation via a pathway that requires the alpha subunit of the heterotrimeric G protein G12. These findings identify AKAP-Lbc as the first Rho-guanine nucleotide exchange factor (GEF) involved in the signaling pathways leading to cardiomyocytes hypertrophy.

FGF-2 controls the differentiation of resident cardiac precursors into functional cardiomyocytes.

Recent evidence suggests that the heart possesses a greater regeneration capacity than previously thought. In the present study, we isolated undifferentiated precursors from the cardiac nonmyocyte cell population of neonatal hearts, expanded them in culture, and induced them to differentiate into functional cardiomyocytes. These cardiac precursors appear to express stem cell antigen-1 and demonstrate characteristics of multipotent precursors of mesodermal origin. Following infusion into normal recipients, these cells home to the heart and participate in physiological and pathophysiological cardiac remodeling. Cardiogenic differentiation in vitro and in vivo depends on FGF-2. Interestingly, this factor does not control the number of precursors but regulates the differentiation process. These findings suggest that, besides its angiogenic actions, FGF-2 could be used in vivo to facilitate the mobilization and differentiation of resident cardiac precursors in the treatment of cardiac diseases.

Low density lipoprotein signaling and pancreatic beta cells protection

SummaryLow-density lipoproteins (LDLs) have an important physiological role in organism transporting cholesterol and other fatty substances to target tissues. However, elevated LDL levels in the blood are associated with the formation of arterial plaques and consequently atherosclerosis. It is therefore important to characterize the intracellular pathways induced upon LDL stimulation as they might be involved in the pathological properties of these lipoproteins. It has been previously found that LDL stimulation of mouse embryonic fibroblasts activates p38 mitogen activated protein kinases (MAPKs). This leads to cell spreading and increase in the wound healing capabilities of the cells. These two responses might occur within atherosclerotic plaques.The aim of this project is to reveal the missing links between LDL particle and activation of p38 MAPK kinase. As previously shown in our lab activation of p38 MAPK kinase by the LDL particles occur independently of classical LDL receptor (LDLR). In this study we have shown that scavenger receptor type Β class I (SR-BI) is responsible for the signal transduction from the LDLs to the p38 MAPK. We have also shown that Mitogen activated kinase kinases (MKKs) that can directly activate ρ 38 MAPK in these conditions are MKK3 and MKK6 but not MKK4. We have also tested some of the intermediate components of the pathway like Ras and PI3 kinase but found that they do not play a role.The data obtained in this study showed a part of molecular mechanism responsible for p38 MAPK activation and subsequent wound healing and can contribute to our knowledge on function of the fibroblasts in the development of the atherosclerotic plaques.Diabetes Mellitus is a condition caused by disordered metabolism of blood glucose level. It is one of the most commonly spread disease in the western world, with the incidence reaching 8% of population in United States. Two most common types of diabetes are type 1 and 2 that differs slightly in the mechanism of the development. However in the basis of both types lies the cell death of pancreatic beta cells. The aim of this work is to improve beta cells survival in different pathophysiological settings. This could be extrapolated to the conditions in which Diabetes develops in humans. We decided to use RasGAP- derived fragment Ν with its strong antiapoptotic effect in beta cells. In our lab we have demonstrated that in the mild stress conditions RasGAP can be cleaved by caspases at the position 455 producing two fragments, fragment Ν and fragment C. Fragment Ν exerts

Postpacing abnormal repolarization in catecholaminergic polymorphic ventricular tachycardia associated with a mutation in the cardiac ryanodine receptor gene.

BACKGROUND Catecholaminergic polymorphic ventricular tachycardia (CPVT) is an arrhythmogenic disease for which electrophysiological studies (EPS) have shown to be of limited value.OBJECTIVE This study presents a CPVT family in which marked postpacing repolarization abnormalities during EPS were the only consistent phenotypic manifestation of ryanodine receptor (RyR2) mutation carriers.METHODS The study was prompted by the observation of transient marked QT prolongation preceding initiation of ventricular fibrillation during atrial fibrillation in a boy with a family history of sudden cardiac death (SCD). Family members underwent exercise and pharmacologic electrocardiographic testing with epinephrine, adenosine, and flecainide. Noninvasive clinical test results were normal in 10 patients evaluated, except for both epinephrine- and exercise-induced ventricular arrhythmias in 1. EPS included bursts of ventricular pacing and programmed ventricular extrastimulation reproducing short-long sequences. Genetic screening involved direct sequencing of genes involved in long QT syndrome as well as RyR2.RESULTS Six patients demonstrated a marked increase in QT interval only in the first beat after cessation of ventricular pacing and/or extrastimulation. All 6 patients were found to have a heterozygous missense mutation (M4109R) in RyR2. Two of them, presenting with aborted SCD, also had a second missense mutation (I406T- RyR2). Four family members without RyR2 mutations did not display prominent postpacing QT changes.CONCLUSION M4109R- RyR2 is associated with a high incidence of SCD. The contribution of I406T to the clinical phenotype is unclear. In contrast to exercise testing, marked postpacing repolarization changes in a single beat accurately predicted carriers of M4109R- RyR2 in this family.