Classical and atypical β-andrenoceptor subtypes mediating relaxation in rat isolated aorta : role of the endothelium/nitric oxide pathway

Brawley, Lee

January 2000

No description available.

570

Role of Voltage-Dependent Calcium Channels in Subarachnoid Hemorrhage-Induced Constriction of Intracerebral Arterioles

Nystoriak, Matthew

18 November 2010

Subarachnoid hemorrhage (SAH) following cerebral aneurysm rupture is associated with substantial morbidity and mortality. The ability of SAH to induce vasospasm in large diameter pial arteries has been extensively studied, although the contribution of this phenomenon to patient outcome is unclear. Conversely, little is known regarding the impact of SAH on intracerebral (parenchymal) arterioles, which are critical for regulation of cerebral blood flow. To assess the function of parenchymal arterioles following SAH, measurements of diameter, intracellular Ca2+ ([Ca2+]i) and membrane potential were performed in intact arterioles from unoperated (control), sham-operated and SAH model rats. At physiological intravascular pressure, parenchymal arterioles from SAH animals exhibited significantly elevated [Ca2+]i and enhanced constriction compared with arterioles from control and sham-operated animals. Elevated [Ca2+]i and enhanced tone following SAH were observed in the absence of vascular endothelium and were abolished by the L-type voltage-dependent Ca2+ channel (VDCC) inhibitor nimodipine. Molecular assessment of the L-type VDCC CaV1.2 indicated unchanged mRNA and protein expression in arterioles from SAH animals. Increased CaV1.2 activity following SAH may also reflect enhanced pressure-induced membrane potential depolarization of arteriolar smooth muscle. Membrane potential measurements in arteriolar myocytes using intracellular microelectrodes revealed approximately 7 mV depolarization at 40 mmHg in myocytes from SAH animals. Further, when membrane potential was adjusted to similar values, arteriolar [Ca2+]i and tone were similar between groups. These results demonstrate that greater pressure-dependent membrane potential depolarization results in increased activity of CaV1.2 channels, elevated [Ca2+]i and enhanced constriction of parenchymal arterioles from SAH animals. Thus, impaired regulation of parenchymal arteriolar [Ca2+]i and diameter may restrict cerebral blood flow in SAH patients. Although nimodipine is used clinically to prevent delayed neurological deficits in SAH patients, the use of this drug has been limited by hypotension and treatment options remain inadequate. Therefore, our next objective was to explore strategies to selectively suppress CaV1.2 channels in the cerebral vasculature. To do so, we examined the physiological role of smooth muscle CaV1.2 splice variants containing the alternatively-spliced exon 9* in cerebral artery constriction. Using antisense oligonucleotides, we demonstrate that suppression of exon 9*-containing CaV1.2 splice variants results in substantially reduced cerebral artery constriction to elevated extracellular [K+]. In addition, no further reduction in constriction was observed following suppression of all Cav1.2 splice variants, suggesting that exon 9* splice variants are functionally dominant in cerebral artery constriction. In summary, results shown in this dissertation demonstrate that increased CaV1.2 activity following SAH results in enhanced constriction of parenchymal arterioles. Furthermore, evidence is provided supporting the concept that CaV1.2 splice variants with exon 9* are critical for cerebral artery constriction and may provide a novel target for the prevention of delayed ischemic deficits in SAH patients.

Vascular Smooth Muscle

Endothelium

Cav1.2

Artery

Growth regulation by heparin in the vascular wall

Karnovsky, Morris, John

10 June 1983

A Thesis Submitted to the Faculty of Medicine University of the Witwatersrand, Johannesburg in fulfillment of the requirements for the Degree of Doctor of Science in Medicine Boston, U.S.A. 1983 / Vascular smooth muscle proliferation follows upon endothelial injury, and is thought to be an early component in the pathogenesis of atherosclerosis, and a possible noxious consequence of vascular surgery. We have shown that heparin suppresses vascular smooth muscle proliferation iri vivo and in vitro. The inhibitory effect is specific for heparin, and not other anions, and is not related to the antithrombin III binding activity of heparin. It is dependent on the size of the molecule, (hexasaccharidees or smaller being ineffective), and O-sulfation, but not N-sulfation / IT2018

Heparin

In Vitro Techniques

Muscle, Smooth, Vascular

Pharmacological targets for gene therapy in lung inflammation

Farghaly, Hanan

January 2008

Interleukin-13 (IL-13) has been implicated as a critical inducer of a number of features of allergy and asthma including the induction of nonspecific airway hyperresponsiveness (AHR), eosinophilic inflammatory response, eotaxin production, excess mucus formation, and fibrosis. Determining the mechanism(s) of AHR, a hallmark of asthma, is crucial to our understanding of both the pathogenesis and successful treatment of asthma. After carrying out initial experiments to determine the effect of IL-13-induced AHR on murine and rat tracheal rings, mice tissues were chosen for subsequent experiments due to their consistent results and the fact that the mouse genetic map was completed in 1996, which will enable subsequent gene therapy work. Human and mouse share a high percentage of their genes with an average of 85% homology. Numerous IL-13 signalling studies have concentrated on the JAK/STAT6 pathway. IL-13 also activates phosphoinositide 3-kinase (PI3K) and downstream effector molecules. In experiments presented in this thesis pharmacological and genetic approaches implicate the involvement of PI3K and its individual isoform PI3Kδ in IL-13 induced AHR in vitro and this involvement was confirmed using a small interference RNA (siRNA) technology approach. However, IL-13 induced an early activation of PI3K, whereas increased responsiveness was not observed until overnight incubation. Arginase I induction was demonstrated to be another PI3K-dependent potential mechanism of IL-13-induced hyperresponsiveness. The epithelium is also implicated in IL-13-induced hyperresponsiveness, however, the induction of arginase I was demonstrated in both intact and denuded epithelium tracheal rings. The siRNA approach was also employed in 9HTEo-, A549 and BEAS-2B cell lines using different transfecting agents. From these findings, it is concluded that class IA p110δ could be a useful target for the treatment of asthma by preventing IL-13-induced airway smooth muscle hyperresponsiveness and also that arginase I may be involved in IL-13-induced hyperresponsiveness through PI3K- and epithelial-dependent pathways.

616.24061

FOXO3a in vascular smooth muscle cell apoptosis

Fellows, Adam Lee

January 2018

FOXO3a is a pro-apoptotic transcription factor which shows increased activation in vascular smooth muscle cells (VSMCs) of advanced atherosclerotic plaques, specifically within the intimal layer. Since VSMC apoptosis plays a crucial role in the pathophysiology of atherosclerosis, we investigated the mechanisms underlying FOXO3a-mediated cell death in this particular cell type. We aimed to characterise a novel VSMC system (FOXO3aA3ERTM) and use these cells to validate MMP-13 and TIMP3 as new FOXO3a target genes. Also, we sought to determine the mechanisms of FOXO3aA3ERTM-mediated VSMC apoptosis, particularly regarding MMP-13 and TIMP3, potential MMP-13 substrates in the extracellular matrix and the precise apoptotic signalling involved. Furthermore, we aimed to investigate whether VSMC-specific activation of FOXO3aA3ERTM in mouse affects vascular remodelling during injury and whether this is reliant on MMP-13. Lastly, we aimed to address if endogenous FOXO3a upregulates MMP-13 in mouse and human VSMCs. Our laboratory has created a transgenic rat VSMC line which stably expresses an inducible FOXO3a mutant allele known as FOXO3aA3ERTM and previous microarray experiments identified matrix metalloproteinase 13 (MMP-13) as a potential novel FOXO3a target gene. Initially, we described several key features of the FOXO3aA3ERTM VSMCs used throughout this thesis, and subsequently demonstrated that MMP-13 is a bona fide target whose expression is rapidly upregulated upon FOXO3a activation, leading to markedly higher levels of protein, cleavage and proteolytic capacity. This induction of MMP-13 was responsible for the vast majority of FOXO3a-mediated apoptosis which was accompanied by prominent degradation of fibronectin, a glycoprotein found in the extracellular matrix. However, we could not identify a terminal apoptotic pathway. FOXO3a also downregulated the endogenous MMP inhibitor TIMP3, the recombinant protein of which reduced both MMP-13 proteolysis and FOXO3a-mediated apoptosis. Activation of FOXO3aA3ERTM in the VSMCs of medium and large arteries in mice resulted in heightened expression of MMP-13 in the vessel wall, which contributed to enhanced neointimal formation during carotid ligation. Finally, endogenous FOXO3a activation leads to increased MMP-13 expression in human VSMCs, but not mouse. Overall, we have shown that FOXO3a promotes VSMC apoptosis through MMP-13 both in vitro and in vivo, a novel pathway that has important implications for the pathogenesis and treatment of vascular disease.

Nonequilibrium dynamics of piecewise-smooth stochastic systems

Geffert, Paul Matthias

January 2018

Piecewise-smooth stochastic systems have attracted a lot of interest in the last decades in engineering science and mathematics. Many investigations have focused only on one-dimensional problems. This thesis deals with simple two-dimensional piecewise-smooth stochastic systems in the absence of detailed balance. We investigate the simplest example of such a system, which is a pure dry friction model subjected to coloured Gaussian noise. The nite correlation time of the noise establishes an additional dimension in the phase space and gives rise to a non-vanishing probability current. Our investigation focuses on stick-slip transitions, which can be related to a critical value of the noise correlation time. Analytical insight is provided by applying the uni ed coloured noise approximation. Afterwards, we extend our previous model by adding viscous friction and a constant force. Then we perform a similar analysis as for the pure dry friction case. With parameter values close to the deterministic stick-slip transition, we observe a non-monotonic behaviour of the probability of sticking by increasing the correlation time of the noise. As the eigenvalue spectrum is not accessible for the systems with coloured noise, we consider the eigenvalue problem of a dry friction model with displacement, velocity and Gaussian white noise. By imposing periodic boundary conditions on the displacement and using a Fourier ansatz, we can derive an eigenvalue equation, which has a similar form in comparison to the known one-dimensional problem for the velocity only. The eigenvalue analysis is done for the case without a constant force and with a constant force separately. Finally, we conclude our ndings and provide an outlook on related open problems.

Senescent vascular smooth muscle cells contribute towards inflammation in atherosclerosis through multiple mechanisms

Gardner, Sarah Elizabeth

January 2014

No description available.

610

Generation of epicardium and epicardium-derived coronary-like smooth muscle cells from human pluripotent stem cells

Iyer, Dharini

January 2015

No description available.

610

Mitochondrial function in atherosclerosis and vascular smooth muscle cells

Reinhold, Johannes

January 2019

Atherosclerosis is the leading cause of death in the Western world. Although mitochondrial DNA (mtDNA) damage has been implicated in atherosclerosis, it is unclear whether the damage is sufficient to impair mitochondrial respiration, and mitochondrial dysfunction has not been demonstrated. Treatment of vascular smooth muscle cells (VSMCs) with an atherogenic lipid, oxidised low-density lipoprotein (OxLDL), dose dependently decreased basal and maximal respiration and fat-feeding of apolipoprotein E deficient (ApoE-/-) mice reduced mitochondrial DNA copy number relative to nuclear DNA in aortas. Mitochondrial respiration of ApoE-/- mouse aortas, assessed through a 24-well Seahorse extracellular flux analyser, was not affected prior to the development of atherosclerotic plaques. Developed human carotid atherosclerotic plaques were dissected into defined regions including healthy media, shoulder region, fibrous cap and core and their respiration was investigated. The respiratory reserve capacity (RRC) of the shoulder region was similar to the media. However, the cap RRC was significantly reduced compared to healthy media. In contrast, the extracellular acidification rates (ECAR) of the media, shoulder, cap and core regions were similar. In addition, mtDNA copy number was significantly reduced in tissues derived from human plaques compared to healthy arteries and expression of complexes I and II of the electron transfer chain (ETC) were significantly reduced in plaque VSMCs. OxLDL induced mitophagy in human VSMCs and plaque VSMCs demonstrated increased levels of mitophagy without compensatory upregulation of proteins involved in mitochondrial biogenesis. Understanding the role of mitochondrial metabolism and signalling is important for our understanding of disease progression and may lead to future therapeutic targets.

Designing Smooth Motions of Rigid Objects: Computing Curves in Lie Groups

Richardson, Ross Monet

01 May 2003

Consider the problem of designing the path of a camera in 3D. As we may identify each camera position with a member of the Euclidean motions, SE(3), the problem may be recast mathematically as constructing interpolating curves on the (non-Euclidean) space SE(3). There exist many ways to formulate this problem, and indeed many solutions. In this thesis we shall examine solutions based on simple geometric constructions, with the goal of discovering well behaved and computable solutions. In affine spaces there exist elegant solutions to the problem of curve design, which are collectively known as the techniques of Computer Aided Geometric Design (CAGD). The approach of this thesis will be the generalization of these methods and an examination of computation on matrix Lie groups. In particular, the Lie groups SO(3) and SE(3) will be examined in some detail.

Smooth Motions

Rigid Objects

Computing Curves