研究领域
Major Research Interests:
The foundations of my research are based in the field of endothelial and vascular smooth muscle cell biology. With a particular interested in the mechanisms that underlie endothelial/vascular dysfunction in various cardiovascular disease states. Recent years have seen significant developments in the role(s) of folic acid in improving endothelial function thanks to continued funding from the BHF. Further investigations (in collaboration with Dr AS Williams, Cardiff Institute of Infection & Immunity) into the mechanisms underlying vascular dysfunction in rheumatoid arthritis are also well supported by the BHF and are ongoing.
Folic acid
Whether folic acid has a role in improving cardiovascular health remains very controversial. Indeed many studies suggest that it has no beneficial effect. However, our firm belief that it does is supported by significant previous publications from our group. We have observed a direct role for this vitamin in activating endothelial cell nitric oxide synthase (eNOS) (Taylor et al. Eur J Pharmacol, 2013;714:193-201). This involves increased NO release, eNOS dimerisation (Moat et al. Eur J Clin Invest. 2006;36:850-859), PI3K and PKA-mediated eNOS phosphorylation at serines 635 and 1179, as well as alterations in the interaction of eNOS with the regulatory proteins caveolin-1 and HSP-90 (Taylor et al. Eur J Pharmacol, 2013;714:193-201). More recently our data shows folic acid to promote eNOS activation via CaMKII-mediated phosphorylation in the absence of increased eNOS/CaM association. Activation is accompanied by increased translocation of eNOS to cellular membranes (Taylor et al. Circulation, 2001;124:21). Importantly these data would implicate folic acid in the optimisation of normal endothelial function prior to an initial cardiovascular event.
Vascular dysfunction in rheumatoid arthritis
Evidence for a link between rheumatoid arthritis (RA) and cardiovascular disease (CVD) is overwhelming and the large RA-associated inflammatory burden is thought to be responsible for the development of such distal pathologies; inflammatory mediators characteristic of RA cause injury to the endothelium ultimately resulting in endothelial dysfunction, a precursor to CVD. Our recent publication (Reynolds et al. Br J Pharmacol, 2012;167:505-514) demonstrated contractile dysfunction (evidenced by a reduced capability to constrict to specific mediators K+ and the agonist 5-hydroxytryptamine compared to normal control vessels) in the face of arthritis development. Interestingly, and in contrast to many studies in the literature, endothelial function appeared unchanged throughout disease. Subsequent investigations ruled out a role for increased production of nitric oxide and prostacyclin in this pathology. Conversely aortic (and also paw and plasma) levels of the matrixmetalloprotein MMP-9 were shown to associate with increasing contractile dysfunction.
These findings suggest that systemic and vascular wall levels of MMP-9, related to inflammation at the joint site, may play a prominent role in the development of vascular dysfunction. Importantly identification of the earliest changes in vascular function following the initial onset of RA, and the pathological mechanisms therein, may result in a re-evaluation of current treatments or indeed the development of new therapies.
近期论文
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Williams, J.et al. 2016. Characterisation of Death Receptor 3 dependent aortic changes during inflammatory arthritis. Pharmacology Research & Perspectives 4(4), article number: e0024. (10.1002/prp2.240) pdf
Taylor, S.et al. 2013. Folic acid modulates eNOS activity via effects on posttranslational modifications and protein–protein interactions. European Journal of Pharmacology 714(1-3), pp. 193-201. (10.1016/j.ejphar.2013.05.026) pdf
Dada, J.et al. 2013. Oxygen mediates vascular smooth muscle relaxation in hypoxia. PLoS ONE 8(2), article number: e57162. (10.1371/journal.pone.0057162) pdf
Reynolds, S.et al. 2012. Contractile, but not endothelial, dysfunction in early inflammatory arthritis: a possible role for matrix metalloproteinase-9. British Journal of Pharmacology 167(3), pp. 505-514. (10.1111/j.1476-5381.2012.01988.x)
Bundhoo, S.et al. 2011. Direct vasoactive properties of thienopyridine-derived nitrosothiols. Journal of Cardiovascular Pharmacology 58(5), pp. 550-558. (10.1097/FJC.0b013e31822f578c)
Caddy, J.et al. 2010. Rosiglitazone induces the unfolded protein response, but has no significant effect on cell viability, in monocytic and vascular smooth muscle cells. Biochemical and Biophysical Research Communications 400(4), pp. 689-695. (10.1016/j.bbrc.2010.08.129)
Matthews, I.et al. 2010. Effects of emissions from different type of residential heating upon cyclic guanosine monophosphate (cGMP) in blood platelets of residents. Biomarkers 15(1), pp. 86-93. (10.3109/13547500903311894)
Lang, D. and James, P. E. 2009. Free nitric oxide in spent CAPD fluid: a leap of faith?. Peritoneal Dialysis International 29(5), pp. 505-507.
Caddy, J.et al. 2008. Rosiglitazone transiently disturbs calcium homeostasis in monocytic cells. Biochemical and Biophysical Research Communications 366(1), pp. 149-155. (10.1016/j.bbrc.2007.11.095)
Clarke, Z.et al. 2006. Differential effects of low and high dose folic acid on endothelial dysfunction in a murine model of mild hyperhomocysteinaemia. European Journal of Pharmacology 551(1-3), pp. 92-97. (10.1016/j.ejphar.2006.08.085)
Moat, S.et al. 2006. High- but not low-dose folic acid improves endothelial function in coronary artery disease. European Journal Of Clinical Investigation 36(12), pp. 850-859. (10.1111/j.1365-2362.2006.01739.x)