Project description:Two natriuretic peptides, atrial natriuretic peptide (ANP) and brain natriuretic peptide (BNP) act through the common receptor, guanylyl cyclase-A (GC-A) to lower blood pressure, induce diuresis/natriuresis and dilate blood vessels. Recently, we discovered that the excessive cardiac hypertrophy accompanied with cardiac dysfunction was induced in the lactating natriuretic peptide receptor 1 (Npr1, which encodes GC-A)-deficient mice. To clarify the cause of lactation-induced cardic hypertrophy in Npr1-/-, we performed the gene expressions analysis using nulliparous (NP) or postpartum lactating wild-type (Npr1+/+) and Npr1-/- mice. Numerous genes were altered in the postpartum lactating period both in Npr1+/+ and Npr1-/-. Additionally, the involvement of inflammatory responce in the cardiac hypertrophy in lactating-Npr1-/- mice was clarified bythe gene ontology analysis.

Project description:Natriuretic peptide receptor-A (NPR-A) is the principal receptor for the natriuretic peptides ANP and BNP. Targeted deletion of NPR-A in mouse glomerular podocytes significantly enhances renal injury in vivo in the DOCA-salt experimental model. It was therefore hypothesized that natriuretic peptides exert a direct protective effect on glomerular barrier integrity through activation of NPR-A and modulation of gene expression patterns in podocytes. RNA-seq analysis revealed a total of 158 DEGs with 81 downregulated DEGs and 77 upregulated DEGs in Npr1 deficient podocytes. Among the downregulated genes were protein S and semaphorin 3G, which are known to have a protective effect in podocytes. Protein S was also expressed in and secreted from isolated human glomeruli. GO enrichment analysis revealed that the upregulated DEGs in NPR-A deficient podocytes were associated with cell migration and motility. In line, BNP significantly decreased podocyte outgrowth from cultured glomeruli.

Project description:Type 2 diabetes (T2D) and obesity are strongly associated with low natriuretic peptide (NP) plasma levels and impaired NP signaling with a down-regulation of NP guanylyl cyclase receptor-A (GCA) in skeletal muscle and adipose tissue. However, no study has so far provided evidence for a causal link between ANP/GCA deficiency and T2D development. Here, we show that both ANP and GCA deficiency in mice promotes metabolic disturbances and prediabetes. In GCA haploinsufficient mice, skeletal muscle insulin resistance is associated with altered mitochondrial function and impaired endurance running capacity. Muscle RNA-seq analyses reveal down-regulation of various gene sets related to mitochondrial protein complexes and translation. Despite normal mitochondrial content, GCA haploinsufficient mice exhibit increased proton leak and reduced content of mitochondrial oxidative phosphorylation (OXPHOS) proteins. Using various clinical studies and cohorts, we further show that GCA is related to various metabolic traits in T2D and positively correlates with markers of oxidative capacity in human skeletal muscle. Altogether, these results indicate that ANP/GCA signaling controls muscle mitochondrial integrity and oxidative capacity in vivo and plays a causal role in the development of T2D.

Project description:The cardiac natriuretic peptide (NPs) plays an important role in the regulation of cardiovascular and renal function. We examined the miRNAs that could be regulating NPs by subjecting the cardiomyocytes, HCMa cells, to hypoxia.

Project description:: B-type Natriuretic Peptide (BNP) is a biologically active circulating hormone. Plasma concentrations of BNP are routinely used in the diagnosis of heart failure and the intravenous infusion of recombinant BNP can be used for heart failure treatment. We sought to develop a technique capable of profiling these catabolic processes in plasma. We used a neutral-coated Capillary Electrophoresis-Electrospray Ionization (CESI) separation system coupled with high-resolution mass spectrometry to profile the proteolysis of exogenous recombinant BNP1-32 in plasma. Our method utilizes electrokinetic injection of minimally processed plasma samples to simultaneously monitor the dynamic generation and breakdown of at least five BNP peptidoforms in plasma. By integrating multisegment injection, our method can produce a multi-point BNP proteolytic profile for one sample within an hour. We envision applying this method to assess the potential relation between plasma-based BNP proteolysis and heart failure, as well as a means of monitoring BNP bioavailability after therapeutic infusion.

Project description:Beige Fat, Energy, and the Natriuretic Peptide System

Project description:Inhibition of fibroblast activation protein promotes cardiac repair by stabilizing brain natriuretic peptide after myocardial infarction

Project description:The purpose of this study is to learn how types of fat profiles differ between lean and obese individuals, and how they differ between racial groups. We are also interested in learning about the relationship of fat profiles with natriuretic peptide hormones, which are hormones produced by the heart. We will measure this by collecting tissue, blood and urine samples, energy expenditure measurements using the metabolic cart, and a DXA to assess the amount of bone, fat and muscle in the body from a single study visit.

Project description:Impaired protein kinase signaling is a hallmark of ischemic heart disease (IHD). Limited treatment options are available due to inadequate understanding of the pathological mechanisms. Identification of the key kinases in the pathogenesis of IHD with an effort to find potential therapeutic strategies is of high importance. Cardiac kinase activity in end-stage human IHD left ventricles (LVs) and the alteration in related signaling pathways were investigated by kinomics, transcriptomics, and proteomics, and by integration of the multi-omics datasets. Protein kinase A (PKA) and protein kinase G (PKG) ranked on top in the activity shift among the cardiac kinases. In the IHD LVs, PKA activity decreased markedly compared with that of controls (62% reduction, p=0.0034) whereas PKG activity remained stable although the amount of PKG protein increased remarkably (65%, p=0.003). mRNA levels of adenylate cyclases (ADCY 1, 3, 5, 9) and cAMP-hydrolysing phosphodiesterases (PDE4A, PDE4D) decreased significantly, while no statistically significant alterations were observed in that of PKGs (PRKG1 and PRKG2) and guanylate cyclases (GUCYs). mRNA level of CNP decreased remarkably whereas those of BNP, ANP and nyprilysin increased significantly in the IHD LVs. Proteomics analysis uncovered a significant reduction in proteins of ‘Energy metabolism’ and ‘Muscle contraction’ in the patients. Multi-omics integration highlighted intracellular signaling by second messengers as the top enriched Reactome pathway. The deficiency in cAMP/PKA signaling pathways is strongly implicated in the pathogenesis of IHD. Natriuretic peptide CNP could be a potential therapeutic target for the modulation of cGMP/PKG signaling.

Project description:Pharmacological and gene ablation studies have demonstrated a crucial role of the cardiac natriuretic peptides (NP) hormones ANF and BNP in the maintenance of cardiovascular homeostasis. In addition, hypertension and chronic congestive heart failure are clinical entities that may be regarded as states of relative NP deficiency. Hence the study of the function of the endocrine heart is highly relevant. To identify genes that are related to the endocrine function of the heart we have conducted differential gene expression studies of the rat atria and ventricles using oligonucleotide arrays. Keywords: comparative genomic hybridization