OBJECTIVES: Sepsis is a life-threatening condition and is one of the leading causes of death in the United States. The burden of sepsis-related mortality in the United States in recent years is not well characterized. We sought to describe sepsis-related mortality rates and mortality trends in the United States from 2005 to 2018. DESIGN: Retrospective population-based study. SETTING: We used the Multiple Cause of Death Database available through the Centers for Disease Control and Prevention website. PATIENTS: Decedents with sepsis-related deaths were identified using previously validated International Classification of Diseases codes. INTERVENTIONS: None. MEASUREMENTS AND MAIN RESULTS: From 2005 to 2018, 6.7% of decedents had a diagnosis of sepsis. The overall sepsis-related mortality rates remained stable in both males (57 deaths per 100,000) and females (45.1 deaths per 100,000) during this period. Compared with Whites, the sepsis-related mortality rates were higher in Blacks (rate ratio = 1.78), Native Americans (rate ratio = 1.43), and Hispanics (rate ratio = 1.04) and were lower in Asians (rate ratio = 0.73). Sepsis-related mortality rates declined in Blacks, Hispanics, and Asians but increased in Whites and Native Americans. The majority of sepsis-related deaths occurred in the hospital. The percentage of deaths in the nursing home decreased, whereas deaths occurring at home and hospice increased. CONCLUSIONS: From 2005 to 2018, the overall sepsis-related mortality rates were stable, but there were significant racial and gender disparities in mortality trends. Further research is needed to evaluate the genetic and environmental contributors to these differences.
Murine models of pulmonary arterial hypertension (PAH) that recapitulate the plexiform and obliterative arteriopathy seen in PAH patients and help in defining the molecular mechanisms involved are missing. Herein, we investigated whether intersectin-1s (ITSN) deficiency and prolonged lung expression of an ITSN fragment with endothelial cell (EC) proliferative potential (EH ITSN ), present in the lungs of PAH animal models and human patients, induce formation of plexiform/obliterative lesions and defined the molecular mechanisms involved. ITSN-deficient mice (knockout/heterozygous and knockdown) were subjected to targeted lung delivery of EH ITSN via liposomes for 20 days. Immunohistochemistry and histological and morphometric analyses revealed a twofold increase in proliferative ECs and a 1.35-fold increase in proliferative a-smooth muscle actinepositive cells in the lungs of ITSNdeficient mice, transduced with the EH ITSN relative to wild-type littermates. Treated mice developed severe medial wall hypertrophy, intima proliferation, and various forms of obliterative and plexiformlike lesions in pulmonary arteries, similar to PAH patients. Hemodynamic measurements indicated modest increases in the right ventricular systolic pressure and right ventricle hypertrophy. Transcriptional and protein assays of lung tissue indicated p38 MAPK -dependent activation of Elk-1 transcription factor and increased expression of c-Fos gene. This unique murine model of PAH-like plexiform/obliterative arteriopathy induced via a two-hit pathophysiological mechanism without hypoxia provides novel druggable targets to ameliorate and, perhaps, reverse the EC plexiform phenotype in severe human PAH. Pulmonary arterial hypertension (PAH) is a severe human disease characterized by narrowing of the small pulmonary arteries, leading to a progressive increase in pulmonary vascular resistance, which frequently leads to right-sided heart failure and death.1e3 A common histological finding in patients with severe PAH is the presence of plexiform lesions that obliterate the small to mid-sized pulmonary arterioles. 4,5 The plexiform pulmonary vascular lesions found at branching points in the small pulmonary arterioles are lumen-obliterating, glomeruloid-like vascular structures, predominantly composed of actively dividing and phenotypically abnormal apoptosis-resistant endothelial cells (ECs).6,7 The cellular and molecular mechanisms responsible for the development of plexiform lesions are poorly understood.Recent evidence suggests the involvement of inflammatory mechanisms in the development of PAH. 8 Studies have indicated that inflammation associated with human PAH Supported by NIH grants R01 HL089462 (S.P.) and R01 HL0127022 (S.P.).Disclosures: None declared.
BackgroundThe mechanisms involved in lung cancer (LC) progression are poorly understood making discovery of successful therapies difficult. Adaptor proteins play a crucial role in cancer as they link cell surface receptors to specific intracellular pathways. Intersectin-1s (ITSN-1s) is an important multidomain adaptor protein implicated in the pathophysiology of numerous pulmonary diseases. To date, the role of ITSN-1s in LC has not been studied.MethodsHuman LC cells, human LC tissue and A549 LC cells stable transfected with myc-ITSN-1s construct (A549 + ITSN-1s) were used in correlation with biochemical, molecular biology and morphological studies. In addition scratch assay with time lapse microscopy and in vivo xenograft tumor and mouse metastasis assays were performed.ResultsITSN-1s, a prevalent protein of lung tissue, is significantly downregulated in human LC cells and LC tissue. Restoring ITSN-1s protein level decreases LC cell proliferation and clonogenic potential. In vivo studies indicate that immunodeficient mice injected with A549 + ITSN-1s cells develop less and smaller metastatic tumors compared to mice injected with A549 cells. Our studies also show that restoring ITSN-1s protein level increases the interaction between Cbl E3 ubiquitin ligase and Eps8 resulting in enhanced ubiquitination of the Eps8 oncoprotein. Subsequently, downstream unproductive assembly of the Eps8-mSos1 complex leads to impaired activation of the small GTPase Rac1. Impaired Rac1 activation mediated by ITSN-1s reorganizes the cytoskeleton (increased thick actin bundles and focal adhesion (FA) complexes as well as collapse of the vimentin filament network) in favor of decreased LC cell migration and metastasis.ConclusionITSN-1s induced Eps8 ubiquitination and impaired Eps8-mSos1 complex formation, leading to impaired activation of Rac1, is a novel signaling mechanism crucial for abolishing the progression and metastatic potential of LC cells.Electronic supplementary materialThe online version of this article (doi:10.1186/s12943-016-0543-1) contains supplementary material, which is available to authorized users.
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