Molecular Signals Elicited by GPCR Agonists in Hypertension, Cardiovascular Remodeling: Are MMPs and ADAMs Elusive Therapeutic Targets?

Wang, Xiang; Bosonea, Ana-Maria; Odenbach, Jeffrey; Fernández-Patrón, Carlos

doi:10.2174/157340212803530420

Cited by 7 publications

(7 citation statements)

References 213 publications

(273 reference statements)

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“…GPCR signals can be fast (ms to s) and transient, sustained and long-lasting (min to hr), or even constitutive, leading to different regulatory cellular mechanisms for adjusting physiological events such as synaptic plasticity [38] or activation of different protein kinases [39]. Changes in the temporal-and spatial-dependent regulation of these signals in particular involving G q -coupled signals can cause different diseases such as inflammatory [40] and cardiovascular [41] disease or addiction, dyskinesia, and obesity [42,43]. Thus, hOpn4L and mOpn4L now offer the opportunity to transiently or sustainably activate GPCR pathways to understand and control different temporally shaped G protein signals in health and disease.…”

Section: Resultsmentioning

confidence: 99%

Melanopsin Variants as Intrinsic Optogenetic On and Off Switches for Transient versus Sustained Activation of G Protein Pathways

et al. 2016

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G-protein-coupled receptors (GPCRs) represent the major protein family for cellular modulation in mammals. Therefore, various strategies have been developed to analyze the function of GPCRs involving pharmaco- and optogenetic approaches [1, 2]. However, a tool that combines precise control of the activation and deactivation of GPCR pathways and/or neuronal firing with limited phototoxicity is still missing. We compared the biophysical properties and optogenetic application of a human and a mouse melanopsin variant (hOpn4L and mOpn4L) on the control of Gi/o and Gq pathways in heterologous expression systems and mouse brain. We found that GPCR pathways can be switched on/off by blue/yellow light. The proteins differ in their kinetics and wavelength dependence to activate and deactivate G protein pathways. Whereas mOpn4L is maximally activated by very short light pulses, leading to sustained G protein activation, G protein responses of hOpn4L need longer light pulses to be activated and decline in amplitude. Based on the different biophysical properties, brief light activation of mOpn4L is sufficient to induce sustained neuronal firing in cerebellar Purkinje cells (PC), whereas brief light activation of hOpn4L induces AP firing, which declines in frequency over time. Most importantly, mOpn4L-induced sustained firing can be switched off by yellow light. Based on the biophysical properties, hOpn4L and mOpn4L represent the first GPCR optogenetic tools, which can be used to switch GPCR pathways/neuronal firing on an off with temporal precision and limited phototoxicity. We suggest to name these tools moMo and huMo for future optogenetic applications.

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Section: Resultsmentioning

confidence: 99%

Melanopsin Variants as Intrinsic Optogenetic On and Off Switches for Transient versus Sustained Activation of G Protein Pathways

et al. 2016

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“…Running Title: MMP-2/HMGCR cardioprotective pathway Xiang Wang (1,5) , Evan Berry (1,5) , Samuel Hernandez-Anzaldo (1,5) , Zamaneh Kassiri (2,3,4,5) and Carlos Fernandez-Patron (1,3,4,5) Xiang Wang, Evan Berry, and Samuel Hernandez-Anzaldo contributed equally.…”

Section: Discussionmentioning

confidence: 99%

Matrix Metalloproteinase-2 Mediates a Mechanism of Metabolic Cardioprotection Consisting of Negative Regulation of the Sterol Regulatory Element–Binding Protein-2/3-Hydroxy-3-Methylglutaryl-CoA Reductase Pathway in the Heart

et al. 2015

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H ypertrophic cardiomyopathy is a major cause of morbidity and mortality in industrialized countries.1 This condition can be caused by sustained hypertension as well as metabolic comorbidities, such as diabetes mellitus, hyperlipidemia, and hypercholesterolemia. A common effector mechanism of these detrimental factors is a sustained elevation of the systemic levels of G protein-coupled receptor agonists, including angiotensin II (Ang II). These agonists elicit cardiac remodeling processes (hypertrophy and fibrosis), at least in part, through triggering an excessive transcriptional upregulation and activation of matrix metalloproteinases (MMPs).Purportedly, MMPs act mainly through the proteolysis of substrates, such as extracellular matrix proteins and growth factors to modulate the development of cardiac hypertrophy and fibrosis. However, the process of cardiac remodeling can eventually progress to cause cardiac dysfunction and, ultimately, heart failure.2-4 Because of their connection with the cardiac remodeling process, MMPs have long been regarded as attractive therapeutic targets to treat hypertrophic cardiomyopathy.MMP-2 is one of multiple effectors upregulated by prohypertrophic and proinflammatory stimuli.5,6 MMP-2 deficiencyAbstract-Previously, we reported that cardiac matrix metalloproteinase (MMP)-2 is upregulated in hypertensive mice. How MMP-2 affects the development of cardiac disease is unclear. Here, we report that MMP-2 protects from hypertensive cardiac disease. In mice infused with angiotensin II, the lack of MMP-2 (Mmp2 −/− ) did not affect the severity of the hypertension but caused cardiac hypertrophy to develop earlier and to a greater extent versus wild-type (Mmp2 +/+ ) mice, as measured by heart weight:body weight ratio and upregulation of hypertrophy and fibrosis markers. We further found numerous metabolic and inflammatory gene expression abnormalities in the left ventricle of Mmp2 −/− mice. Interestingly, Mmp2 −/− mice expressed greater amounts of sterol regulatory element-binding protein-2 and 3-hydroxy-3-methylglutarylcoenzyme A reductase (a target of sterol regulatory element-binding protein-2-mediated transcription and rate limiting enzyme in cholesterol and isoprenoids biosynthesis) in addition to markers of inflammation including chemokines of the C-C motif ligand family. We focused on the functionally related genes for sterol regulatory binding protein-2 and 3-hydroxy-3-methylglutaryl-coenzyme A reductase.

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“…According to previous research, GPR62 is a protein‐encoding gene in humans, and GPR62 is related to pathways of the family of G protein–coupled receptors (GPCRs). Numerous research studies have identified associations between GPCRs and hypertensive disorders (Brinks & Eckhart, ; Harris, Cohn, Pesant, & Eckhart, ; Rockman, Koch, & Lefkowitz, ; X. Wang, Bosonea, Odenbach, & Fernandez‐Patron, ), with abnormal GPCR function leading to increased blood pressure (Yang, Villar, Armando, Jose, & Zeng, ).…”

Section: Resultsmentioning

confidence: 99%

“…Numerous research studies have identified associations between GPCRs and hypertensive disorders (Brinks & Eckhart, 2010;Harris, Cohn, Pesant, & Eckhart, 2008;Rockman, Koch, & Lefkowitz, 2002;X. Wang, Bosonea, Odenbach, & Fernandez-Patron, 2012), with abnormal GPCR function leading to increased blood pressure (Yang, Villar, Armando, Jose, & Zeng, 2016).…”

Section: Application To Gaw19 Datamentioning

confidence: 99%

General retrospective mega‐analysis framework for rare variant association tests

Chien

Chiu

2018

Genetic Epidemiology

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Here, we describe a retrospective mega-analysis framework for gene- or region-based multimarker rare variant association tests. Our proposed mega-analysis association tests allow investigators to combine longitudinal and cross-sectional family- and/or population-based studies. This framework can be applied to a continuous, categorical, or survival trait. In addition to autosomal variants, the tests can be applied to conduct mega-analyses on X-chromosome variants. Tests were built on study-specific region- or gene-level quasiscore statistics and, therefore, do not require estimates of effects of individual rare variants. We used the generalized estimating equation approach to account for complex multiple correlation structures between family members, repeated measurements, and genetic markers. While accounting for multilevel correlations and heterogeneity across studies, the test statistics were computationally efficient and feasible for large-scale sequencing studies. The retrospective aspect of association tests helps alleviate bias due to phenotype-related sampling and type I errors due to misspecification of phenotypic distribution. We evaluated our developed mega-analysis methods through comprehensive simulations with varying sample sizes, covariates, population stratification structures, and study designs across multiple studies. To illustrate application of the proposed framework, we conducted a mega-association analysis combining a longitudinal family study and a cross-sectional case-control study from Genetic Analysis Workshop 19.

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Molecular Signals Elicited by GPCR Agonists in Hypertension, Cardiovascular Remodeling: Are MMPs and ADAMs Elusive Therapeutic Targets?

Cited by 7 publications

References 213 publications

Melanopsin Variants as Intrinsic Optogenetic On and Off Switches for Transient versus Sustained Activation of G Protein Pathways

Melanopsin Variants as Intrinsic Optogenetic On and Off Switches for Transient versus Sustained Activation of G Protein Pathways

Matrix Metalloproteinase-2 Mediates a Mechanism of Metabolic Cardioprotection Consisting of Negative Regulation of the Sterol Regulatory Element–Binding Protein-2/3-Hydroxy-3-Methylglutaryl-CoA Reductase Pathway in the Heart

General retrospective mega‐analysis framework for rare variant association tests

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