Changes in protein expression in vascular smooth muscle and endothelial cells in hypertension

陳霆耀, Chan, Ting-yiu, Jonathan.

January 2008

published_or_final_version / Medical Sciences / Master / Master of Medical Sciences

Proteins - Synthesis.

Vascular smooth muscle.

Endothelium.

Vascular effects and signaling mechanisms of flavonoids in porcine coronary arteries

Xu, Yanchun., 徐艷春.

January 2007

published_or_final_version / abstract / Pharmacology / Doctoral / Doctor of Philosophy

Vascular smooth muscle

Flavonoids.

Coronary arteries.

The effects of supercooling and re-warming on vascular cells survival and proliferation

Yiu, Wai-ki., 姚惠琪.

January 2010

published_or_final_version / Surgery / Doctoral / Doctor of Philosophy

Cell proliferation.

Vascular smooth muscle.

Vascular endothelium.

GM-CSF and eosinophil survival in asthma

Hallsworth, Matthew Pearce

January 1999

No description available.

610

Human airway smooth muscle cells

Multi-resolution modelling of human body parts

Hidayatulloh, Poempida Urip Priyopurnomo

January 2000

No description available.

620.0042029

Smooth irregular shapes; Wavelets; Model

Effect of nitric oxide on detrusor contractility

Moon, Annick

January 2000

No description available.

572

Smooth muscle; Lower urinary tract

Gauge theory and topology

Sheppard, Alan

January 1994

No description available.

510

Handoff Management Schemes in Wireless Mesh Networks

Zhang, Zhenxia

16 July 2012

Recent advances in Wireless Mesh Networks (WMNs) have overcome the drawbacks of traditional wired networks and wireless ad hoc networks. WMNs will play a leading role in the next generation of networks, and the question of how to provide smooth mobility for WMNs is the driving force behind the research. The inherent characteristics of WMNs, such as relatively static backbones and highly mobile clients, require new handoff management solutions to be designed and implemented. This thesis first presents our research work on handoff management schemes in traditional WMNs. In general, a handoff process includes two parts, the MAC layer handoff and the network layer handoff. For the MAC layer handoff, a self-configured handoff scheme with dynamic adaptation is presented. Before the mobile node starts the probe process, it configures parameters for each channel to optimize the scan process. Moreover, a fast authentication scheme to reduce authentication latency for WiFi-based mesh networks is introduced. A tunnel is introduced to forward data packets between the new access router and the original reliable access router to recover data communication before the complete authentication process is finished. To minimize the network layer handoff latency, a hybrid routing protocol for forwarding packets is proposed: this involves both the link layer routing and the network layer routing. Based on the hybrid routing protocol, both intra-domain and inter-domain handoff management have been designed to support smooth roaming in WMNs. In addition, we extend our work to Vehicular Mesh Networks (VMNs). Considering the characteristics of VMNs, a fast handoff scheme is introduced to reduce handoff latency by using a multi-hop clustering algorithm. Using this scheme, vehicle nodes are divided into different multi-hop clusters according to the relative mobility. Some vehicle nodes are selected as assistant nodes; and these assistant nodes will help the cluster head node to determine the next access router for minimizing handoff latency. Extensive simulation results demonstrate that the proposed scheme can reduce handoff latency significantly.

Handoff

Wireless Mesh Networks

Smooth roaming

Pharmacological analysis of cannabinoid receptor activity in isolated nerve-smooth muscle and epithelial preparations

Makwana, R.

January 2007

This study was directed at characterising the cannabinoid receptor activity modulating the electrical field stimulation (EFS) evoked contractions of the rat isolated ileum myenteric plexus longitudinal muscle (MPLM) preparation, and the capsaicin, nicotine and veratridine evoked secretory responses of the rat isolated colonic submucosal plexus-mucosal (SPM) preparation. EFS of the MPLM preparation with single pulses at a repetition frequency of 0.05 Hz elicited a transient twitch contraction immediately in response to each electrical pulse. In contrast, stimulation of the MPLM preparation with 2 second trains of pulses every minute at a frequency of 30 Hz elicited a rapid transient rebound contraction on termination of each train of EFS. The non-selective cannabinoid receptor agonists AEA, CP 55,940, D9-THC and WIN 55,212-2 inhibited both EFS-evoked twitch and rebound contractions of the rat ileum MPLM elicited by 0.05 Hz and 30 Hz EFS respectively. The inhibition of the twitch contractions was competitively antagonised by the cannabinoid CB1 receptor antagonist / inverse agonist SR 141716 with pKB values of 8.60. In contrast, SR 141716 only antagonised the ability of AEA, D9-THC and WIN 55,212-2 but not CP 55,940 to inhibit the rebound contractions with pA2 values of 6.60. These observations extended to the inhibitory effect of WIN 55,212-2 on the twitch and rebound contractions of the guinea-pig ileum MPLM. The CB2 antagonist / inverse agonist SR 144528 did not alter the effects of the agonists. Additionally, the inhibitory effect of AEA was refractory to the vanilloid TRPV1 receptor antagonist capsazepine. WIN 55,212-3 a stereoisomer of WIN 55,212-2 was without effect on the rat MPLM. SR 141716 alone concentration-dependently increased the twitch contractions but inhibited the rebound contractions. Both types of the EFS-evoked contractions were abolished by the Na+ channel blocker tetrodotoxin or the muscarinic acetylcholine (ACh) receptor antagonist atropine but not the nicotinic ACh receptor antagonist hexamethonium. None of the cannabinoids altered the contractions to exogenously applied ACh. These data suggested that the cannabinoid agonists inhibited the twitch contractions through a stereospecific presynaptic CB1 receptor-mediated reduction in the release of ACh. Additionally, the inhibition of the rebound contractions occurred because of an inhibition of ACh release by a novel stereospecific presynaptic non-CB1 -non CB2 -non -TRPV1 site. The ability of SR 141716 to inhibit the rebound contractions and antagonise AEA, D9-THC and WIN 55,212-2 may be though partial agonism at the non-CB1-non CB2-non-TRPV1 site. The ability of SR 141716 to potentiate the twitch contractions by increasing the release of ACh suggested that the CB1 receptor was constitutively active or was subjected to a tonic activation by endocannabinoid agonists. A comparison between the maximal enhancement of the twitch contractions of the rat and the guinea-pig ileum MPLM caused by three CB1 receptor antagonists/inverse agonists AM 251, SR 141716 and O-2050 showed that each cannabinoid had a different maximum. This suggested inverse agonism. These data were supported with studies showing the lack of effect of three fatty acid amide hydrolase (FAAH) inhibitors AA-5HT, PMSF, URB–597 and VDM-11, an inhibitor of the AEA uptake transporter on EFS-evoked contractions. These studies showed that all three FAAH inhibitors increased the potency of exogenously applied AEA but not WIN 55,212-2, and that VDM-11 had no effect on the potency of exogenously applied AEA. This data suggested that a functional endocannabinoid tone and the uptake transporter were not present in the MPLM, but FAAH was present. These data provide supporting evidence that SR 141716 behaved as an inverse agonist in the MPLM to augment twitch contractions. The interaction between CP 55,940 or WIN 55,212-2 with SR 141716 was investigated using the rat colonic SPM sheet. Both CP 55,940 and WIN 55,212-2 attenuated the secretory responses to capsaicin and nicotine in a SR 141716 sensitive manner. SR 140333, a neurokinin 1 receptor antagonist, abolished the capsaicin and nicotine. This suggested that CP 55,940 and WIN 55,212-2 inhibited the capsaicin and nicotine response through a CB1 receptor-mediated inhibition of the release of substance P or neurokinin A. The sensitivity of the veratridine response to TTX and a-chymotrypsin and the failure of the cannabinoids to attenuate the response suggested the absence of the CB1 receptor on the neurones releasing the undetermined neuropeptide. Together, these data suggest that both the CB1 receptor and non-CB1-non-CB2 -non-TRPV1 receptor can mediate the inhibitory effects of cannabinoid agonists in the rat ileum MPLM depending on the frequency of EFS. These data also show that SR 141716 is an inverse agonist in the MPLM. In the SPM preparation, the CB1 receptor appears to be involved in the modulation of some forms of peptidergic transmission.

615.1

Effects of sphingolipids on the inflammatory reactivity of vascular smooth muscle cells

Wirrig, Christiane

January 2012

Cardiovascular diseases are a major cause of death worldwide. Aneurysmal rupture in cerebral arteries or loss of endothelial integrity in the course of atherosclerosis or therapeutic angioplasty lead to exposure of vascular smooth muscle cells (SMC) to blood components such as sphingolipids. Sphingosylphosphorylcholine (SPC) and sphingosine 1-phosphate (S1P) are two naturally occurring sphingolipids, which are vasoprotective in the healthy endothelium-lined vessel, but may promote vascular disease by causing functional changes of SMC. Vascular inflammation is an important factor in various pathologies. SPC can activate pro-inflammatory signalling pathways in rat cerebral artery. Here these observations are extended by showing that SPC elicits monocyte chemoattractant protein-1 production in rat cerebral artery SMC ex vivo. Thus, in addition to being a vasoconstrictor, SPC may promote the development of life-threatening prolonged cerebral vasospasm following subarachnoid haemorrhage by supporting vascular inflammation. It is also demonstrated that SPC prevents tumour necrosis factor-a (TNF)-stimulated adhesion of macrophages to rat aortic SMC in vitro by interfering with adhesive properties of SMC, but not macrophages. While this effect appeared to be mediated by the S1P receptor S1P2, S1P itself did not reduce macrophage adhesion. The anti-adhesive action of SPC also depended on lipid rafts. However, SPC did neither prevent TNF-induced nuclear factor kB activation nor cell adhesion molecule expression in SMC. SPC-induced cyclooxygenase 2 expression in aortic SMC was dispensable for its anti-adhesive effect. In contrast, the inhibitory effect of SPC on TNFinduced expression of inducible nitric oxide synthase is probably involved in its anti-adhesive effect because it was mimicked by respective pharmacological blockade. The results also demonstrate that nitric oxide promotes leukocyte adhesion to vascular SMC, while it has the opposite effect on endothelial cells. These findings may help understand cardiovascular diseases and define novel treatment approaches.

616.1