The cardiac pathological response to sustained pressure overload involves myocyte hypertrophy and dysfunction along with interstitial changes such as fibrosis and reduced capillary density. These changes are orchestrated by mechanical forces and factors secreted between cells. One such secreted factor is TGF-β, which is generated by and interacts with multiple cell types. Here we have shown that TGF-β suppression in cardiomyocytes was required to protect against maladaptive remodeling and involved noncanonical (non-Smad-related) signaling. Mouse hearts subjected to pressure overload and treated with a TGF-β-neutralizing Ab had suppressed Smad activation in the interstitium but not in myocytes, and noncanonical (TGF-β-activated kinase 1 [TAK1]) activation remained. Although fibrosis was greatly reduced, chamber dysfunction and dilation persisted. Induced myocyte knockdown of TGF-β type 2 receptor (TβR2) blocked all maladaptive responses, inhibiting myocyte and interstitial Smad and TAK1. Myocyte knockdown of TβR1 suppressed myocyte but not interstitial Smad, nor TAK1, modestly reducing fibrosis without improving chamber function or hypertrophy. Only TβR2 knockdown preserved capillary density after pressure overload, enhancing BMP7, a regulator of the endothelial-mesenchymal transition. BMP7 enhancement also was coupled to TAK1 suppression. Thus, myocyte targeting is required to modulate TGF-β in hearts subjected to pressure overload, with noncanonical pathways predominantly affecting the maladaptive hypertrophy/dysfunction.
Background Systemic sclerosis associated pulmonary artery hypertension (SScPAH) has a worse prognosis compared to idiopathic pulmonary arterial hypertension (IPAH), with a median survival of 3 years after diagnosis often due to right ventricular (RV) failure. We tested if SScPAH or systemic sclerosis related pulmonary hypertension with interstitial lung disease (SSc-ILD-PH) imposes a greater pulmonary vascular load than IPAH and/or leads to worse RV contractile function. Methods and Results We analyzed pulmonary artery pressures and mean flow in 282 patients with pulmonary hypertension (166 SScPAH, 49 SSc-ILD-PH, 67 IPAH). An inverse relation between pulmonary resistance (RPA) and compliance (CPA) was similar for all three groups, with a near constant resistance × compliance product. RV pressure-volume loops were measured in a subset, IPAH (n=5) and SScPAH (n=7) as well as SSc without PH (SSc-no-PH, n=7) to derive contractile indexes (end-systolic elastance [Ees] and preload recruitable stroke work [Msw]), measures of right ventricular load (arterial elastance [Ea]), and RV-pulmonary artery coupling (Ees/Ea). RV afterload was similar in SScPAH and IPAH (RPA=7.0±4.5 vs. 7.9±4.3 Wood units; Ea=0.9±0.4 vs. 1.2±0.5 mmHg/mL; CPA=2.4±1.5 vs. 1.7±1.1 mL/mmHg; p>0.3 for each). Though SScPAH did not have greater vascular stiffening compared to IPAH, RV contractility was more depressed (Ees=0.8±0.3 vs. 2.3±1.1, p<0.01; Msw=21±11 vs. 45±16, p=0.01), with differential RV-PA uncoupling (Ees/Ea=1.0±0.5 vs. 2.1±1.0, p=.03). This ratio was higher in SSc-no-PH (Ees/Ea = 2.3±1.2, p=0.02 vs. SScPAH). Conclusions RV dysfunction is worse in SScPAH compared to IPAH at similar afterload, and may be due to intrinsic systolic function rather than enhanced pulmonary vascular resistive and/or pulsatile loading.
Rationale: Pulmonary arterial hypertension (PAH) related to systemic sclerosis (SSc) has a poorer prognosis compared with other forms of PAH for reasons that remain unexplained. Objectives: To identify risk factors of mortality in a well-characterized cohort of patients with PAH related to systemic sclerosis (SSc-PAH). Methods: Seventy-six consecutive patients with SSc (64 women and 12 men; mean age 61 6 11 yr) were diagnosed with PAH by heart catheterization in a single center, starting in January 2000, and followed over time. Kaplan-Meier estimates were calculated and mortality risk factors were analyzed. Measurements and Main Results: Forty (53%) patients were in World Health Organization functional class III or IV. Mean pulmonary artery pressure was 41 6 11 mm Hg, pulmonary vascular resistance (PVR) was 8.6 6 5.6 Wood units, and cardiac index was 2.4 6 0.7 L/min/m 2 . Median follow-up time was 36 months, with 42 deaths observed. Survival estimates were 85%, 72%, 67%, 50%, and 36% at 1, 2, 3, 4, and 5 years, respectively. Multivariate analysis identified PVR (hazard ratio [HR], 1.10; 95% confidence interval [CI], 1.03-1.18; P , 0.01), stroke volume index (HR, 0.94; 95% CI, 0.89-0.99; P 5 0.02), and pulmonary arterial capacitance (HR, 0.43; 95% CI, 0.20-0.91; P 5 0.03) as strong predictors of survival. An estimated glomerular filtration rate less than 60 ml/min/1.73 m 2 portended a threefold risk of mortality. Conclusions: Our results suggest that specific components of right ventricular dysfunction and renal impairment contribute to increased mortality in SSc-PAH. Understanding the mechanisms of right ventricular dysfunction in response to increased afterload should lead to improved targeted therapy in these patients.
Objective. Pulmonary hypertension (PH) is an important cause of mortality in systemic sclerosis (SSc), where it can be isolated (pulmonary arterial hypertension [PAH]) or associated with interstitial lung disease (ILD). This study was undertaken to characterize determinants of survival among SSc patients with either type of PH who received PAH-specific therapy.Methods. Consecutive SSc patients with PAH or ILD-associated PH confirmed by right heart catheterization were included in the study. Kaplan-Meier and Cox proportional hazards models were used to compare survival between SSc patients with PAH and those with ILD-associated PH and to identify predictors of survival.Results. Fifty-nine patients (39 with PAH and 20 with ILD-associated PH) were identified. The majority (15 of 20 with ILD-associated PH and 27 of 39 with PAH) received an endothelin receptor antagonist as initial therapy. Median followup time was 4.4 years (range 2.7-7.4 years). Survival was significantly worse in SSc patients with ILD-associated PH than in those with PAH (1-, 2-, and 3-year survival rates 82%, 46%, and 39% versus 87%, 79%, and 64%, respectively; P < 0.01 by log rank test). In a multivariable analysis, ILD-associated PH was associated with a 5-fold increase in risk of death compared with PAH. Pulmonary vascular resistance index was also an independent predictor of mortality in the overall cohort (hazard ratio 1.05, P < 0.01) and was a significant univariable risk factor in each group separately. Type of initial PAH therapy and the use of warfarin were not related to survival.Conclusion. Survival in SSc complicated by PH remains poor despite currently available treatment options. While therapy may be associated with improved survival in PAH compared with historical controls, the prognosis for patients with ILD-associated PH is particularly grim. Early diagnosis and treatment may improve outcomes since worsening hemodynamic factors were associated with reduced survival.
Asthma and atopy are related conditions that may share similar genetic susceptibility. Linkage studies have identified a region on chromosome 5q that contains biologic candidates for both asthma and atopy phenotypes, including several proinflammatory cytokines. Interleukin (IL)-13, one of the candidate genes in the region, is directly involved in the regulation of immunoglobulin E and has been associated with both asthma and atopy. We sought to identify new polymorphisms in the IL-13 gene, and evaluated the involvement of a subset of these variants in asthma and atopy in a case-control study using probands and spouses from a Dutch asthma family study. IL-13 was sequenced in 20 probands and 20 unaffected spouses, and 10 polymorphisms were identified, four novel and six previously reported. Three single nucleotide (nt) polymorphisms (SNPs) were detected in the 5'-promoter region, two in intron 1, and five in exon 4. Only one of the exon 4 SNPs resulted in an amino-acid change (Arg130Gln). We analyzed three SNPs in IL-13 in an extended group of 184 probands and their spouses: one in the promoter region (-1111), the Arg130Gln (nt position 4257), and a 3' untranslated region SNP (nt position 4738). The most significant associations were observed to asthma (P = 0.005), bronchial hyperresponsiveness (P = 0.003), and skin-test responsiveness (P = 0.03) with the -1111 promoter. These results provide evidence that variation in the IL-13 gene is involved in the pathogenesis of asthma and atopy. Further investigation is required to determine which specific alleles or combination of alleles contribute to these phenotypes, and the possible downstream effects of the resulting change in IL-13 levels or activity.
The aim of this study was to examine the causes and outcomes of hospitalisation in patients with pulmonary arterial hypertension (PAH).205 consecutive hospitalisations occurring between 2000 and 2009 in 90 PAH patients were studied. The leading causes for hospitalisation were right heart failure (RHF; 56%), infection (16%) and bleeding disorders (8%). For patients with RHF, in-hospital mortality was 14% overall, 46% for patients receiving inotropes and 48% for those admitted to the intensive care unit. The predictors for in-hospital mortality were the presence of connective tissue disease (CTD) (OR 4.92), systolic blood pressure ,100 mmHg (OR 4.32) and Na f136 mEq?L -1 (OR 4.29). Mortality after discharge was 13, 26 and 35% at 3, 6 and 12 months, respectively. World Health Organization functional class prior to admission, renal dysfunction, Charlson comorbidity index, and the presence of CTD were all predictors of mortality after discharge. Hyponatraemia and low systolic blood pressure upon admission and underlying CTD are the main prognostic factors for in-hospital mortality in patients with PAH admitted for RHF. The shortterm outcomes after discharge are poor and remarkably worse in patients with underlying CTD or renal impairment. Early recognition of these factors may guide decisions regarding more aggressive therapy, including consideration for lung transplantation.KEYWORDS: Connective tissue diseases, heart failure, hospital mortality, right ventricular dysfunction, scleroderma, systemic P ulmonary arterial hypertension (PAH) remains a disease with high morbidity and mortality rates despite recent advances in therapy and overall improved survival. PAH is usually progressive, with right ventricular dysfunction being the leading cause of death. Patients often require hospitalisation during the course of their disease, typically for bouts of right heart failure (RHF). In addition, complications related to treatment itself, including PAH-specific therapy, anticoagulation and long-standing indwelling catheters, constitute other potential causes of hospitalisation.In contrast with left heart failure (LHF), the course and outcomes of acute or decompensated RHF have been seldom described [1,2]. Several features differentiate RHF secondary to severe PAH from LHF and make management of RHF particularly challenging. While aggressive diuresis is usually required in both LHF and RHF, the large increase in transpulmonary gradient due to a fixed resistance in the pulmonary vasculature in PAH complicates the treatment of RHF. In addition, right ventricular-left ventricular interdependence often leads to left ventricular dysfunction with low cardiac output and consequent systemic hypotension in RHF, which may require the use of vasopressor and inotropic agents. These haemodynamic perturbations may be further complicated by decreased myocardial perfusion from compromised coronary flow due to right ventricle overload. Ultimately, these processes can lead to distal organ dysfunction and irreversible haemodynamic col...
In vitro and in vivo evidence indicates that circulating platelets affect both vascular integrity and hemostasis. How platelets enhance the permeability barrier of the vascular endothelium is not well understood. We measured the effect of isolated human platelets on human pulmonary artery endothelial cell (EC) barrier integrity by monitoring transmonolayer electrical resistance. EC barrier function was significantly increased by the addition of platelets (ϳ40% maximum, 2.5 ϫ 10 6 platelets/ml). Platelet supernatants, derived from 2.5 ϫ 10 6 platelets/ml, reproduced the barrier enhancement and reversed the barrier dysfunction produced by the edemagenic agonist thrombin, which implicates a soluble barrier-promoting factor. The barrier-enhancing effect of platelet supernatants was heat stable but was attenuated by either charcoal delipidation (suggesting a vasoactive lipid mediator) or pertussis toxin, implying involvement of a G i␣-coupled receptor signal transduction pathway. Sphingosine-1-phosphate (S1P), a sphingolipid that is released from activated platelets, is known to ligate G protein-coupled EC differentiation gene (EDG) receptors, increase EC electrical resistance, and reorganize the actin cytoskeleton (Garcia JG, Liu F, Verin AD, Birukova A, Dechert MA, Gerthoffer WT, Bamberg JR, and English D. J Clin Invest 108: [689][690][691][692][693][694][695][696][697][698][699][700][701] 2001). Infection of EC with an adenoviral vector expressing an antisense oligonucleotide directed against EDG-1 but not infection with control vector attenuated the barrier-enhancing effect of both platelet supernatants and S1P. These results indicate that a major physiologically relevant vascular barrier-protective mediator produced by human platelets is S1P. endothelium; lung; vasculature; injury; G protein; differentiation; cell differentiating gene THE VASCULAR ENDOTHELIUM IS a biologically complex tissue that forms a semipermeable barrier between the intravascular fluid compartment and the interstitium of various organs. Integrity of the endothelial cell (EC) monolayer is essential for homeostasis, and perturbations of the barrier function of the endothelium are now recognized as a cardinal feature of diverse and important pathobiological processes including acute lung injury and atherogenesis. The lung vasculature contains an enormous surface area and is particularly sensitive to the dynamic features of endothelial barrier dysregulation, where increased vascular permeability leads to exudation of fluid and solutes from the intravascular space into the pulmonary interstitium. Extensive increases in lung vascular permeability result in flooding of the alveolar air spaces (pulmonary edema), which is the hallmark pathophysiological derangement of the adult respiratory distress syndrome. Circulating blood platelets have been noted for many decades to be essential to the maintenance of the endothelium as a semipermeable barrier. In vitro and in vivo models have described profound defects in EC barrier function after perfusion wit...
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