35 results on '"Hadoke PWF"'
Search Results
2. CARMN Loss Regulates Smooth Muscle Cells and Accelerates Atherosclerosis in Mice
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Vacante, F, Rodor, J, Lalwani, MK, Mahmoud, AD, Bennett, M, De Pace, AL, Miller, E, Van Kuijk, K, de Bruijn, J, Gijbels, M, Williams, TC, Clark, MB, Scanlon, JP, Doran, AC, Montgomery, R, Newby, DE, Giacca, M, O'Carroll, D, Hadoke, PWF, Denby, L, Sluimer, JC, Baker, AH, Vacante, F, Rodor, J, Lalwani, MK, Mahmoud, AD, Bennett, M, De Pace, AL, Miller, E, Van Kuijk, K, de Bruijn, J, Gijbels, M, Williams, TC, Clark, MB, Scanlon, JP, Doran, AC, Montgomery, R, Newby, DE, Giacca, M, O'Carroll, D, Hadoke, PWF, Denby, L, Sluimer, JC, and Baker, AH
- Abstract
[Figure: see text].
- Published
- 2021
3. OC-031 Relaxin Modulates Cirrhosis-induced Renal Vascular Endothelial Dysfunction
- Author
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Snowdon, VK, Hadoke, PWF, Mungall, W, Thomson, A, Kendall, T, Webb, D, Iredale, JP, and Fallowfield, JA
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- 2014
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4. Deficiency of 11β-Hydroxysteroid Dehydrogenase Type 1 Reduces Systemic Inflammation and Inflammatory Cell Infiltration in Atherosclerotic Lesions of ApoE-/- Mice.
- Author
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Kipari, TMJ, primary, Hadoke, PWF, additional, Man, T, additional, White, C, additional, Walker, BR, additional, Savill, JS, additional, Chapman, KE, additional, and Seckl, JR, additional
- Published
- 2010
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5. Smooth Muscle Endothelin B Receptors Regulate Blood Pressure but Not Vascular Function or Neointimal Remodeling
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Miller, E, Czopek, A, Duthie, KM, Kirkby, NS, van de Putte, EEF, Christen, S, Kimmitt, RA, Moorhouse, R, Castellan, RFP, Kotelevtsev, YV, Kuc, RE, Davenport, AP, Dhaun, N, Webb, DJ, Hadoke, PWF, Davenport, Anthony [0000-0002-2096-3117], and Apollo - University of Cambridge Repository
- Subjects
EXPRESSION ,Science & Technology ,BALLOON ANGIOPLASTY ,NITRIC-OXIDE ,hypertension ,RADIOLIGAND BINDING ,1103 Clinical Sciences ,respiratory system ,neointima ,musculoskeletal system ,1102 Cardiovascular Medicine And Haematology ,autoradiography ,Peripheral Vascular Disease ,ORGAN-CULTURE ,Cardiovascular System & Hematology ,CELLS ,endothelin-1 ,cardiovascular system ,Cardiovascular System & Cardiology ,ET(B) RECEPTORS ,vasoconstriction ,CAROTID-ARTERY ,Life Sciences & Biomedicine ,KNOCKOUT MICE ,circulatory and respiratory physiology - Abstract
The role of smooth muscle endothelin$_{B}$ (ET$_{B}$) receptors in regulating vascular function, blood pressure (BP), and neointimal remodeling has not been established. Selective knockout mice were generated to address the hypothesis that loss of smooth muscle ET$_{B}$ receptors would reduce BP, alter vascular contractility, and inhibit neointimal remodeling. ET$_{B}$ receptors were selectively deleted from smooth muscle by crossing floxed ET$_{B}$ mice with those expressing cre-recombinase controlled by the transgelin promoter. Functional consequences of ET$_{B}$ deletion were assessed using myography. BP was measured by telemetry, and neointimal lesion formation induced by femoral artery injury. Lesion size and composition (day 28) were analyzed using optical projection tomography, histology, and immunohistochemistry. Selective deletion of ET$_{B}$ was confirmed by genotyping, autoradiography, polymerase chain reaction, and immunohistochemistry. ET$_{B}$-mediated contraction was reduced in trachea, but abolished from mesenteric veins, of knockout mice. Induction of ET$_{B}$-mediated contraction in mesenteric arteries was also abolished in these mice. Femoral artery function was unaltered, and baseline BP modestly elevated in smooth muscle ET$_{B}$ knockout compared with controls (+4.2±0.2 mm Hg; $\textit{P}$
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- 2017
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6. 5[alpha]-THB as a novel anti-inflammatory drug: The roles of the glucocorticoid and mineralocorticoid receptors
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Abernethie, Amber, primary, Gastaldello, A, additional, Morgan, RA, additional, Mitchell, C, additional, McInnes, KJ, additional, Beck, K, additional, Odermatt, A, additional, Houtman, R, additional, Melchars, D, additional, Meijer, OC, additional, Hadoke, PWF, additional, Livingstone, DEW, additional, Walker, BR, additional, and Andrew, R, additional
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- 2017
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7. In Vivo Assays for Assessing the Role of the Wilms' Tumor Suppressor 1 (Wt1) in Angiogenesis.
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McGregor, Richard J., Ogley, R., Hadoke, PWF, and Hastie, Nicholas
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- 2016
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8. Assessment of the alpha 7 nicotinic acetylcholine receptor as an imaging marker of cardiac repair-associated processes using NS14490.
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Reid VJM, McLoughlin WKX, Pandya K, Stott H, Iškauskienė M, Šačkus A, Marti JA, Kurian D, Wishart TM, Lucatelli C, Peters D, Gray GA, Baker AH, Newby DE, Hadoke PWF, Tavares AAS, and MacAskill MG
- Abstract
Background: Cardiac repair and remodeling following myocardial infarction (MI) is a multifactorial process involving pro-reparative inflammation, angiogenesis and fibrosis. Noninvasive imaging using a radiotracer targeting these processes could be used to elucidate cardiac wound healing mechanisms. The alpha7 nicotinic acetylcholine receptor (ɑ7nAChR) stimulates pro-reparative macrophage activity and angiogenesis, making it a potential imaging biomarker in this context. We investigated this by assessing in vitro cellular expression of ɑ7nAChR, and by using a tritiated version of the PET radiotracer [
18 F]NS14490 in tissue autoradiography studies., Results: ɑ7nAChR expression in human monocyte-derived macrophages and vascular cells showed the highest relative expression was within macrophages, but only endothelial cells exhibited a proliferation and hypoxia-driven increase in expression. Using a mouse model of inflammatory angiogenesis following sponge implantation, specific binding of [3 H]NS14490 increased from 3.6 ± 0.2 µCi/g at day 3 post-implantation to 4.9 ± 0.2 µCi/g at day 7 (n = 4, P < 0.01), followed by a reduction at days 14 and 21. This peak matched the onset of vessel formation, macrophage infiltration and sponge fibrovascular encapsulation. In a rat MI model, specific binding of [3 H]NS14490 was low in sham and remote MI myocardium. Specific binding within the infarct increased from day 14 post-MI (33.8 ± 14.1 µCi/g, P ≤ 0.01 versus sham), peaking at day 28 (48.9 ± 5.1 µCi/g, P ≤ 0.0001 versus sham). Histological and proteomic profiling of ɑ7nAChR positive tissue revealed strong associations between ɑ7nAChR and extracellular matrix deposition, and rat cardiac fibroblasts expressed ɑ7nAChR protein under normoxic and hypoxic conditions., Conclusion: ɑ7nAChR is highly expressed in human macrophages and showed proliferation and hypoxia-driven expression in human endothelial cells. While NS14490 imaging displays a pattern that coincides with vessel formation, macrophage infiltration and fibrovascular encapsulation in the sponge model, this is not the case in the MI model where the ɑ7nAChR imaging signal was strongly associated with extracellular matrix deposition which could be explained by ɑ7nAChR expression in fibroblasts. Overall, these findings support the involvement of ɑ7nAChR across several processes central to cardiac repair, with fibrosis most closely associated with ɑ7nAChR following MI., (© 2024. The Author(s).)- Published
- 2024
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9. Correction: Autophagy protein 5 controls flow-dependent endothelial functions.
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Nivoit P, Mathivet T, Wu J, Salemkour Y, Sankar DS, Baudrie V, Bourreau J, Guihot AL, Vessieres E, Lemitre M, Bocca C, Teillon J, Le Gall M, Chipont A, Robidel E, Dhaun N, Camerer E, Reynier P, Roux E, Couffinhal T, Hadoke PWF, Silvestre JS, Guillonneau X, Bonnin P, Henrion D, Dengjel J, Tharaux PL, and Lenoir O
- Published
- 2023
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10. Autophagy protein 5 controls flow-dependent endothelial functions.
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Nivoit P, Mathivet T, Wu J, Salemkour Y, Sankar DS, Baudrie V, Bourreau J, Guihot AL, Vessieres E, Lemitre M, Bocca C, Teillon J, Le Gall M, Chipont A, Robidel E, Dhaun N, Camerer E, Reynier P, Roux E, Couffinhal T, Hadoke PWF, Silvestre JS, Guillonneau X, Bonnin P, Henrion D, Dengjel J, Tharaux PL, and Lenoir O
- Subjects
- Humans, Autophagy, Autophagy-Related Protein 5 genetics, Autophagy-Related Protein 5 metabolism, Endothelium, Vascular metabolism, Mesenteric Arteries metabolism, Nitric Oxide Synthase Type III metabolism, Signal Transduction, Vasodilation, Animals, Mice, Endothelial Cells metabolism, Myocardial Infarction metabolism
- Abstract
Dysregulated autophagy is associated with cardiovascular and metabolic diseases, where impaired flow-mediated endothelial cell responses promote cardiovascular risk. The mechanism by which the autophagy machinery regulates endothelial functions is complex. We applied multi-omics approaches and in vitro and in vivo functional assays to decipher the diverse roles of autophagy in endothelial cells. We demonstrate that autophagy regulates VEGF-dependent VEGFR signaling and VEGFR-mediated and flow-mediated eNOS activation. Endothelial ATG5 deficiency in vivo results in selective loss of flow-induced vasodilation in mesenteric arteries and kidneys and increased cerebral and renal vascular resistance in vivo. We found a crucial pathophysiological role for autophagy in endothelial cells in flow-mediated outward arterial remodeling, prevention of neointima formation following wire injury, and recovery after myocardial infarction. Together, these findings unravel a fundamental role of autophagy in endothelial function, linking cell proteostasis to mechanosensing., (© 2023. The Author(s).)
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- 2023
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11. 11β-HSD1 inhibition does not affect murine tumour angiogenesis but may exert a selective effect on tumour growth by modulating inflammation and fibrosis.
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Davidson CT, Miller E, Muir M, Dawson JC, Lee M, Aitken S, Serrels A, Webster SP, Homer NZM, Andrew R, Brunton VG, Hadoke PWF, and Walker BR
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- Mice, Female, Animals, 11-beta-Hydroxysteroid Dehydrogenase Type 1 metabolism, Inflammation, Neovascularization, Pathologic, Fibrosis, Glucocorticoids metabolism, Neoplasms
- Abstract
Glucocorticoids inhibit angiogenesis by activating the glucocorticoid receptor. Inhibition of the glucocorticoid-activating enzyme 11β-hydroxysteroid dehydrogenase type 1 (11β-HSD1) reduces tissue-specific glucocorticoid action and promotes angiogenesis in murine models of myocardial infarction. Angiogenesis is important in the growth of some solid tumours. This study used murine models of squamous cell carcinoma (SCC) and pancreatic ductal adenocarcinoma (PDAC) to test the hypothesis that 11β-HSD1 inhibition promotes angiogenesis and subsequent tumour growth. SCC or PDAC cells were injected into female FVB/N or C57BL6/J mice fed either standard diet, or diet containing the 11β-HSD1 inhibitor UE2316. SCC tumours grew more rapidly in UE2316-treated mice, reaching a larger (P<0.01) final volume (0.158 ± 0.037 cm3) than in control mice (0.051 ± 0.007 cm3). However, PDAC tumour growth was unaffected. Immunofluorescent analysis of SCC tumours did not show differences in vessel density (CD31/alpha-smooth muscle actin) or cell proliferation (Ki67) after 11β-HSD1 inhibition, and immunohistochemistry of SCC tumours did not show changes in inflammatory cell (CD3- or F4/80-positive) infiltration. In culture, the growth/viability (assessed by live cell imaging) of SCC cells was not affected by UE2316 or corticosterone. Second Harmonic Generation microscopy showed that UE2316 reduced Type I collagen (P<0.001), whilst RNA-sequencing revealed that multiple factors involved in the innate immune/inflammatory response were reduced in UE2316-treated SCC tumours. 11β-HSD1 inhibition increases SCC tumour growth, likely via suppression of inflammatory/immune cell signalling and extracellular matrix deposition, but does not promote tumour angiogenesis or growth of all solid tumours., Competing Interests: Brian Walker, Patrick Hadoke and Scott Webster are inventors on relevant patents owned by the University of Edinburgh (see below). Additionally, Brian Walker reports consultancy fees as part of membership of Actinogen Medical’s Scientific Advisory Board, related to 11β-hydroxysteroid dehydrogenase type I inhibitors, and Scott Webster and Ruth Andrew report consultancy fees from Actinogen Medical unrelated to the current work. Callam Davidson is an editor for PLOS Medicine. This does not alter our adherence to PLOS ONE policies on sharing data and materials., (Copyright: © 2023 Davidson et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)
- Published
- 2023
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12. Single-cell RNA sequencing profiling of mouse endothelial cells in response to pulmonary arterial hypertension.
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Rodor J, Chen SH, Scanlon JP, Monteiro JP, Caudrillier A, Sweta S, Stewart KR, Shmakova A, Dobie R, Henderson BEP, Stewart K, Hadoke PWF, Southwood M, Moore SD, Upton PD, Morrell NW, Li Z, Chan SY, Handen A, Lafyatis R, de Rooij LPMH, Henderson NC, Carmeliet P, Spiroski AM, Brittan M, and Baker AH
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- Animals, Endothelial Cells metabolism, Familial Primary Pulmonary Hypertension metabolism, Humans, Mice, Pulmonary Artery, Rats, Sequence Analysis, RNA, Hypertension, Pulmonary, Pulmonary Arterial Hypertension genetics
- Abstract
Aims: Endothelial cell (EC) dysfunction drives the initiation and pathogenesis of pulmonary arterial hypertension (PAH). We aimed to characterize EC dynamics in PAH at single-cell resolution., Methods and Results: We carried out single-cell RNA sequencing (scRNA-seq) of lung ECs isolated from an EC lineage-tracing mouse model in Control and SU5416/hypoxia-induced PAH conditions. EC populations corresponding to distinct lung vessel types, including two discrete capillary populations, were identified in both Control and PAH mice. Differential gene expression analysis revealed global PAH-induced EC changes that were confirmed by bulk RNA-seq. This included upregulation of the major histocompatibility complex class II pathway, supporting a role for ECs in the inflammatory response in PAH. We also identified a PAH response specific to the second capillary EC population including upregulation of genes involved in cell death, cell motility, and angiogenesis. Interestingly, four genes with genetic variants associated with PAH were dysregulated in mouse ECs in PAH. To compare relevance across PAH models and species, we performed a detailed analysis of EC heterogeneity and response to PAH in rats and humans through whole-lung PAH scRNA-seq datasets, revealing that 51% of up-regulated mouse genes were also up-regulated in rat or human PAH. We identified promising new candidates to target endothelial dysfunction including CD74, the knockdown of which regulates EC proliferation and barrier integrity in vitro. Finally, with an in silico cell ordering approach, we identified zonation-dependent changes across the arteriovenous axis in mouse PAH and showed upregulation of the Serine/threonine-protein kinase Sgk1 at the junction between the macro- and microvasculature., Conclusion: This study uncovers PAH-induced EC transcriptomic changes at a high resolution, revealing novel targets for potential therapeutic candidate development., Competing Interests: Conflict of interest: S.Y.C. has served as a consultant for United Therapeutics, has held research grants from Actelion and Pfizer, and filed patent applications regarding drug development in pulmonary hypertension. S.Y.C. is a director, officer, and shareholder of Synhale Therapeutics. The other authors declare no competing interests. This manuscript was handled by Consulting Editor Henning Morawietz., (© The Author(s) 2021. Published by Oxford University Press on behalf of the European Society of Cardiology.)
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- 2022
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13. Enhanced Angiogenesis by 11βHSD1 Blockage Is Insufficient to Improve Reperfusion Following Hindlimb Ischaemia.
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Wu J, Miller E, Davidson C, Walker BR, and Hadoke PWF
- Abstract
Background: Critical limb ischaemia (CLI), which is estimated to affect 2 million people in the United States, reduces quality of life, is associated with high morbidity and mortality, and has limited treatment options. Direct stimulation of angiogenesis using proangiogenic growth factors has been investigated as a therapeutic strategy to improve reperfusion in the ischaemic leg. Despite positive outcomes in animal studies, there has been little success in clinical translation. This investigation addressed the hypothesis that angiogenesis could be stimulated indirectly in the ischaemic hindlimb by blocking 11β-hydroxysteroid dehydrogenase 1 (11βHSD1)-mediated reactivation of anti-angiogenic glucocorticoids. Method and Results: Corticosterone suppressed ex vivo angiogenesis in the mouse aortic ring assay. 11βHSD1 deletion (Hsd11b1
Del1/Del1 ) or pharmacological inhibition (with 300 nM UE2316) which block the reactivation of glucocorticoid (i.e., the conversion of 11-dehydrocorticosterone (11DHC) to bioactive corticosterone) significantly reduced 11DHC-induced suppression of angiogenesis. In a sponge implantation model, 11βHSD1 deletion, but not pharmacological inhibition, enhanced inflammation-induced angiogenesis. By contrast, in the mouse hindlimb ischaemia model, post-ischaemic reperfusion and vascular density were not affected by either deletion or pharmacological inhibition of 11βHSD1 in young or aged mice. 3D vascular imaging suggested that hind limb reperfusion in the 1st week following induction of ischaemia may be driven by the rapid expansion of collateral arteries rather than by angiogenesis. Conclusion: 11βHSD1-mediated glucocorticoid reactivation suppressed angiogenesis ex vivo and in vivo . However, regulation of angiogenesis alone was insufficient to promote reperfusion in hindlimb ischaemia. Future investigation of post-ischaemic reperfusion should include other aspects of systemic vascular remodeling including arteriogenesis and collateral formation., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Wu, Miller, Davidson, Walker and Hadoke.)- Published
- 2022
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14. Human AdV-20-42-42, a Promising Novel Adenoviral Vector for Gene Therapy and Vaccine Product Development.
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Ballmann MZ, Raus S, Engelhart R, Kaján GL, Beqqali A, Hadoke PWF, van der Zalm C, Papp T, John L, Khan S, Boedhoe S, Danskog K, Frängsmyr L, Custers J, Bakker WAM, van der Schaar HM, Arnberg N, Lemckert AAC, Havenga M, and Baker AH
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- A549 Cells, Animals, HEK293 Cells, Humans, Male, Mice, Seroepidemiologic Studies, Adenoviruses, Human genetics, Adenoviruses, Human immunology, Genetic Therapy methods, Genetic Vectors genetics, Genetic Vectors immunology, Vaccine Development methods
- Abstract
Preexisting immune responses toward adenoviral vectors limit the use of a vector based on particular serotypes and its clinical applicability for gene therapy and/or vaccination. Therefore, there is a significant interest in vectorizing novel adenoviral types that have low seroprevalence in the human population. Here, we describe the discovery and vectorization of a chimeric human adenovirus, which we call HAdV-20-42-42. Full-genome sequencing revealed that this virus is closely related to human serotype 42, except for the penton base, which is derived from serotype 20. The HAdV-20-42-42 vector could be propagated stably to high titers on existing E1-complementing packaging cell lines. Receptor-binding studies revealed that the vector utilized both CAR and CD46 as receptors for cell entry. Furthermore, the HAdV-20-42-42 vector was potent in transducing human and murine cardiovascular cells and tissues, irrespective of the presence of blood coagulation factor X. In vivo characterizations demonstrate that when delivered intravenously (i.v.) in mice, HAdV-20-42-42 mainly targeted the lungs, liver, and spleen and triggered robust inflammatory immune responses. Finally, we demonstrate that potent T-cell responses against vector-delivered antigens could be induced upon intramuscular vaccination in mice. In summary, from the data obtained we conclude that HAdV-20-42-42 provides a valuable addition to the portfolio of adenoviral vectors available to develop efficacious products in the fields of gene therapy and vaccination. IMPORTANCE Adenoviral vectors are under investigation for a broad range of therapeutic indications in diverse fields, such as oncology and gene therapy, as well as for vaccination both for human and veterinary use. A wealth of data shows that preexisting immune responses may limit the use of a vector. Particularly in the current climate of global pandemic, there is a need to expand the toolbox with novel adenoviral vectors for vaccine development. Our data demonstrate that we have successfully vectorized a novel adenovirus type candidate with low seroprevalence. The cell transduction data and antigen-specific immune responses induced in vivo demonstrate that this vector is highly promising for the development of gene therapy and vaccine products.
- Published
- 2021
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15. Positron Emission Tomography Techniques to Measure Active Inflammation, Fibrosis and Angiogenesis: Potential for Non-invasive Imaging of Hypertensive Heart Failure.
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Balogh V, MacAskill MG, Hadoke PWF, Gray GA, and Tavares AAS
- Abstract
Heart failure, which is responsible for a high number of deaths worldwide, can develop due to chronic hypertension. Heart failure can involve and progress through several different pathways, including: fibrosis, inflammation, and angiogenesis. Early and specific detection of changes in the myocardium during the transition to heart failure can be made via the use of molecular imaging techniques, including positron emission tomography (PET). Traditional cardiovascular PET techniques, such as myocardial perfusion imaging and sympathetic innervation imaging, have been established at the clinical level but are often lacking in pathway and target specificity that is important for assessment of heart failure. Therefore, there is a need to identify new PET imaging markers of inflammation, fibrosis and angiogenesis that could aid diagnosis, staging and treatment of hypertensive heart failure. This review will provide an overview of key mechanisms underlying hypertensive heart failure and will present the latest developments in PET probes for detection of cardiovascular inflammation, fibrosis and angiogenesis. Currently, selective PET probes for detection of angiogenesis remain elusive but promising PET probes for specific targeting of inflammation and fibrosis are rapidly progressing into clinical use., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Balogh, MacAskill, Hadoke, Gray and Tavares.)
- Published
- 2021
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16. Glucocorticoids: Fuelling the Fire of Atherosclerosis or Therapeutic Extinguishers?
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MacLeod C, Hadoke PWF, and Nixon M
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- Atherosclerosis metabolism, Cardiovascular Diseases drug therapy, Cardiovascular Diseases etiology, Cardiovascular Diseases physiopathology, Cushing Syndrome, Glucocorticoids metabolism, Humans, Inflammation drug therapy, Receptors, Glucocorticoid metabolism, Risk Factors, Atherosclerosis drug therapy, Atherosclerosis physiopathology, Glucocorticoids pharmacology
- Abstract
Glucocorticoids are steroid hormones with key roles in the regulation of many physiological systems including energy homeostasis and immunity. However, chronic glucocorticoid excess, highlighted in Cushing's syndrome, is established as being associated with increased cardiovascular disease (CVD) risk. Atherosclerosis is the major cause of CVD, leading to complications including coronary artery disease, myocardial infarction and heart failure. While the associations between glucocorticoid excess and increased prevalence of these complications are well established, the mechanisms underlying the role of glucocorticoids in development of atheroma are unclear. This review aims to better understand the importance of glucocorticoids in atherosclerosis and to dissect their cell-specific effects on key processes (e.g., contractility, remodelling and lesion development). Clinical and pre-clinical studies have shown both athero-protective and pro-atherogenic responses to glucocorticoids, effects dependent upon their multifactorial actions. Evidence indicates regulation of glucocorticoid bioavailability at the vasculature is complex, with local delivery, pre-receptor metabolism, and receptor expression contributing to responses linked to vascular remodelling and inflammation. Further investigations are required to clarify the mechanisms through which endogenous, local glucocorticoid action and systemic glucocorticoid treatment promote/inhibit atherosclerosis. This will provide greater insights into the potential benefit of glucocorticoid targeted approaches in the treatment of cardiovascular disease.
- Published
- 2021
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17. CARMN Loss Regulates Smooth Muscle Cells and Accelerates Atherosclerosis in Mice.
- Author
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Vacante F, Rodor J, Lalwani MK, Mahmoud AD, Bennett M, De Pace AL, Miller E, Van Kuijk K, de Bruijn J, Gijbels M, Williams TC, Clark MB, Scanlon JP, Doran AC, Montgomery R, Newby DE, Giacca M, O'Carroll D, Hadoke PWF, Denby L, Sluimer JC, and Baker AH
- Subjects
- Animals, Atherosclerosis pathology, Cell Movement, Cell Proliferation, Clustered Regularly Interspaced Short Palindromic Repeats, Coronary Vessels cytology, Down-Regulation, Gene Knockdown Techniques, Gene Silencing, Humans, Lipid Metabolism, Mice, Muscle, Smooth, Vascular cytology, Oligonucleotides, Antisense, Phenotype, RNA, Long Noncoding genetics, RNA, Long Noncoding metabolism, Transcriptome, Atherosclerosis etiology, Cell Dedifferentiation, MicroRNAs metabolism, Muscle, Smooth, Vascular physiology, RNA, Long Noncoding physiology
- Abstract
[Figure: see text].
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- 2021
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18. Regulatory Role of Sex Hormones in Cardiovascular Calcification.
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Woodward HJ, Zhu D, Hadoke PWF, and MacRae VE
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- Animals, Disease Models, Animal, Heart Valve Diseases metabolism, Humans, Signal Transduction, Vascular Calcification metabolism, Androgens physiology, Estrogens physiology, Heart Valve Diseases etiology, Vascular Calcification etiology
- Abstract
Sex differences in cardiovascular disease (CVD), including aortic stenosis, atherosclerosis and cardiovascular calcification, are well documented. High levels of testosterone, the primary male sex hormone, are associated with increased risk of cardiovascular calcification, whilst estrogen, the primary female sex hormone, is considered cardioprotective. Current understanding of sexual dimorphism in cardiovascular calcification is still very limited. This review assesses the evidence that the actions of sex hormones influence the development of cardiovascular calcification. We address the current question of whether sex hormones could play a role in the sexual dimorphism seen in cardiovascular calcification, by discussing potential mechanisms of actions of sex hormones and evidence in pre-clinical research. More advanced investigations and understanding of sex hormones in calcification could provide a better translational outcome for those suffering with cardiovascular calcification.
- Published
- 2021
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19. MIR503HG Loss Promotes Endothelial-to-Mesenchymal Transition in Vascular Disease.
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Monteiro JP, Rodor J, Caudrillier A, Scanlon JP, Spiroski AM, Dudnakova T, Pflüger-Müller B, Shmakova A, von Kriegsheim A, Deng L, Taylor RS, Wilson-Kanamori JR, Chen SH, Stewart K, Thomson A, Mitić T, McClure JD, Iynikkel J, Hadoke PWF, Denby L, Bradshaw AC, Caruso P, Morrell NW, Kovacic JC, Ulitsky I, Henderson NC, Caporali A, Leisegang MS, Brandes RP, and Baker AH
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- Animals, Heterogeneous-Nuclear Ribonucleoproteins metabolism, Human Umbilical Vein Endothelial Cells metabolism, Humans, Hypertension, Pulmonary genetics, Hypertension, Pulmonary pathology, Mice, Polypyrimidine Tract-Binding Protein metabolism, RNA, Long Noncoding genetics, Transcriptome, Vascular Remodeling, Epithelial-Mesenchymal Transition, Hypertension, Pulmonary metabolism, RNA, Long Noncoding metabolism
- Abstract
[Figure: see text].
- Published
- 2021
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20. Characterisation of an atherosclerotic micro-calcification model using ApoE -/- mice and PET/CT.
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MacAskill MG, McDougald W, Alcaide-Corral C, Newby DE, Tavares AAS, Hadoke PWF, and Wu J
- Abstract
Competing Interests: The authors report no relationships that could be construed as a conflict of interest.
- Published
- 2020
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21. Non-invasive in vivo imaging of acute thrombosis: development of a novel factor XIIIa radiotracer.
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Andrews JPM, Portal C, Walton T, Macaskill MG, Hadoke PWF, Alcaide Corral C, Lucatelli C, Wilson S, Wilson I, MacNaught G, Dweck MR, Newby DE, and Tavares AAS
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- Animals, Fibrin metabolism, Molecular Imaging, Rats, Swine, Tissue Distribution, Factor XIIIa, Thrombosis diagnostic imaging
- Abstract
Aims: Cardiovascular thrombosis is responsible a quarter of deaths annually worldwide. Current imaging methods for cardiovascular thrombosis focus on anatomical identification of thrombus but cannot determine thrombus age or activity. Molecular imaging techniques hold promise for identification and quantification of thrombosis in vivo. Our objective was to assess a novel optical and positron-emitting probe targeting Factor XIIIa (ENC2015) as biomarker of active thrombus formation., Methods and Results: Optical and positron-emitting ENC2015 probes were assessed ex vivo using blood drawn from human volunteers and passed through perfusion chambers containing denuded porcine aorta as a model of arterial injury. Specificity of ENC2015 was established with co-infusion of a factor XIIIa inhibitor. In vivo18F-ENC2015 biodistribution, kinetics, radiometabolism, and thrombus binding were characterized in rats. Both Cy5 and fluorine-18 labelled ENC2015 rapidly and specifically bound to thrombi. Thrombus uptake was inhibited by a factor XIIIa inhibitor. 18F-ENC2015 remained unmetabolized over 8 h when incubated in ex vivo human blood. In vivo, 42% of parent radiotracer remained in blood 60 min post-administration. Biodistribution studies demonstrated rapid clearance from tissues with elimination via the urinary system. In vivo,18F-ENC2015 uptake was markedly increased in the thrombosed carotid artery compared to the contralateral patent artery (mean standard uptake value ratio of 2.40 vs. 0.74, P < 0.0001)., Conclusion: ENC2015 rapidly and selectively binds to acute thrombus in both an ex vivo human translational model and an in vivo rodent model of arterial thrombosis. This probe holds promise for the non-invasive identification of thrombus formation in cardiovascular disease., (© The Author(s) 2019. Published by Oxford University Press on behalf of the European Society of Cardiology.)
- Published
- 2020
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22. Endothelial Progenitor Cells Do Not Originate From the Bone Marrow.
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Fujisawa T, Tura-Ceide O, Hunter A, Mitchell A, Vesey A, Medine C, Gallogly S, Hadoke PWF, Keith C, Sproul A, Roddie H, McQuaker G, Wilmut I, Mills NL, and Brittan M
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- Adult, Bone Marrow drug effects, Bone Marrow Cells drug effects, Cells, Cultured, Endothelial Progenitor Cells drug effects, Humans, Male, Middle Aged, Neoplasms drug therapy, Stem Cells drug effects, Bone Marrow metabolism, Bone Marrow Cells cytology, Endothelial Progenitor Cells cytology, Stem Cells cytology
- Published
- 2019
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23. Impaired pressure natriuresis and non-dipping blood pressure in rats with early type 1 diabetes mellitus.
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Culshaw GJ, Costello HM, Binnie D, Stewart KR, Czopek A, Dhaun N, Hadoke PWF, Webb DJ, and Bailey MA
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- Animals, Blood Glucose metabolism, Diabetes Mellitus, Experimental metabolism, Diabetes Mellitus, Type 1 metabolism, Down-Regulation physiology, Hemodynamics physiology, Hypertension physiopathology, Kidney metabolism, Kidney physiopathology, Lithium metabolism, Male, Rats, Rats, Sprague-Dawley, Renal Circulation physiology, Sodium metabolism, Blood Pressure physiology, Diabetes Mellitus, Experimental physiopathology, Diabetes Mellitus, Type 1 physiopathology, Natriuresis physiology
- Abstract
Key Points: Type 1 diabetes mellitus increases cardiovascular risk; hypertension amplifies this risk, while pressure natriuresis regulates long-term blood pressure. We induced type 1 diabetes in rats by streptozotocin injection and demonstrated a substantial impairment of pressure natriuresis: acute increases in blood pressure did not increase renal medullary blood flow, tubular sodium reabsorption was not downregulated, and proximal tubule sodium reabsorption, measured by lithium clearance, was unaffected. Insulin reduced blood glucose in diabetic rats, and rescued the pressure natriuresis response without influencing lithium clearance, but did not restore medullary blood flow. Radiotelemetry showed that diastolic blood pressure was increased in diabetic rats, and its diurnal variation was reduced. Increases in medullary blood flow and decreases in distal tubule sodium reabsorption that offset acute rises in BP are impaired in early type 1 diabetes, and this impairment could be a target for preventing hypertension in type 1 diabetes., Abstract: Type 1 diabetes mellitus (T1DM) substantially increases cardiovascular risk, and hypertension amplifies this risk. Blood pressure (BP) and body sodium homeostasis are linked. T1DM patients have increased total exchangeable sodium, correlating directly with BP. Pressure natriuresis is an important physiological regulator of BP. We hypothesised that pressure natriuresis would be impaired, and BP increased, in the early phase of T1DM. Male Sprague-Dawley rats were injected with streptozotocin (30-45 mg/kg) or citrate vehicle. After 3 weeks, pressure natriuresis was induced by serial arterial ligation. In non-diabetic controls, this increased fractional excretion of sodium from ∼1% to ∼25% of the filtered load (P < 0.01); in T1DM rats, the response was significantly blunted, peaking at only ∼3% (P < 0.01). Mechanistically, normal lithium clearance suggested that distal tubule sodium reabsorption was not downregulated with increased BP in T1DM rats. The pressure dependence of renal medullary perfusion, considered a key factor in the integrated response, was abolished. Insulin therapy rescued the natriuretic response in diabetic rats, restoring normal downregulation of tubular sodium reabsorption when BP was increased. However, the pressure dependence of medullary perfusion was not restored, suggesting persistent vascular dysfunction despite glycaemic control. Radiotelemetry showed that T1DM did not affect systolic BP, but mean diastolic BP was ∼5 mmHg higher than in non-diabetic controls (P < 0.01), and normal diurnal variation was reduced. In conclusion, functional impairment of renal sodium and BP homeostasis is an early manifestation of T1DM, preceding hypertension and nephropathy. Early intervention to restore pressure natriuresis in T1DM may complement reductions in cardiovascular risk achieved with glycaemic control., (© 2018 The Authors. The Journal of Physiology published by John Wiley & Sons Ltd on behalf of The Physiological Society.)
- Published
- 2019
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24. WT1 expression in vessels varies with histopathological grade in tumour-bearing and control tissue from patients with breast cancer.
- Author
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McGregor RJ, Chau YY, Kendall TJ, Artibani M, Hastie N, and Hadoke PWF
- Subjects
- Animals, Breast Neoplasms blood supply, Breast Neoplasms chemistry, Breast Neoplasms mortality, Female, Humans, Mice, Neoplasm Grading, Receptor, ErbB-2 analysis, Receptors, Estrogen analysis, WT1 Proteins physiology, Breast Neoplasms pathology, WT1 Proteins analysis
- Abstract
Background: The Wilms' tumour protein (WT1), which influences tumour development and angiogenesis, is a promising therapeutic target in breast cancer. We hypothesised that WT1 expression would vary in endothelial cells in distinct sub-classifications of breast cancer., Methods: WT1 expression and vascular density were quantified by immunohistochemical analysis of human (n = 57) and murine breast cancers. Human tumours were sub-classified by histopathological grade, ER status and HER2 enrichment., Results: WT1 was identified in endothelial (and epithelial and smooth muscle) cells in tumours and tumour-free tissues (controls) from patients and mice with breast cancer. WT1 expression was higher in tumours than in controls, but this was not due to increased endothelial WT1. Vascular WT1 in cancers decreased as histopathological grade increased. WT1 was higher in ER-positive versus ER-negative cancers. Strikingly, reduced WT1 expression in controls correlated with an increased Nottingham Prognostic Index score., Conclusions: Expression of WT1 is increased in breast cancers but this is not limited to the vascular compartment. The association between reduced WT1 in tumour-free tissue and poor prognosis suggests a protective role for WT1 in the healthy breast.
- Published
- 2018
- Full Text
- View/download PDF
25. Dysregulation of Cortisol Metabolism in Equine Pituitary Pars Intermedia Dysfunction.
- Author
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Morgan RA, Keen JA, Homer N, Nixon M, McKinnon-Garvin AM, Moses-Williams JA, Davis SR, Hadoke PWF, and Walker BR
- Subjects
- 11-beta-Hydroxysteroid Dehydrogenase Type 1 metabolism, Adipose Tissue metabolism, Androgens metabolism, Androgens urine, Animals, Carbonyl Reductase (NADPH) metabolism, Case-Control Studies, Glucocorticoids metabolism, Glucocorticoids urine, Horses, Hydrocortisone urine, Liver metabolism, Pituitary ACTH Hypersecretion metabolism, Transcortin metabolism, Adrenocorticotropic Hormone metabolism, Horse Diseases metabolism, Hydrocortisone metabolism, Pituitary ACTH Hypersecretion veterinary, Pituitary Gland, Intermediate metabolism
- Abstract
Equine Cushing disease [pituitary pars intermedia dysfunction (PPID)] is a common condition of older horses, but its pathophysiology is complex and poorly understood. In contrast to pituitary-dependent hyperadrenocorticism in other species, PPID is characterized by elevated plasma ACTH but not elevated plasma cortisol. In this study, we address this paradox and the hypothesis that PPID is a syndrome of ACTH excess in which there is dysregulation of peripheral glucocorticoid metabolism and binding. In 14 horses with PPID compared with 15 healthy controls, we show that in plasma, cortisol levels and cortisol binding to corticosteroid binding globulin were not different; in urine, glucocorticoid and androgen metabolites were increased up to fourfold; in liver, 11β-hydroxysteroid dehydrogenase type 1 (11β-HSD1) expression was reduced; in perirenal adipose tissue, 11β-HSD1 and carbonyl reductase 1 expression was increased; and tissue cortisol levels were not measurably different. The combination of normal plasma cortisol with markedly enhanced urinary cortisol metabolite excretion and dysregulated tissue-specific steroid-metabolizing enzymes suggests that cortisol clearance is increased in horses with PPID. We infer that the ACTH excess may be compensatory and pituitary pathology and autonomous secretion may be a secondary rather than primary pathology. It is possible that successful therapy in PPID may be targeted either at lowering ACTH or, paradoxically, at reducing cortisol clearance.
- Published
- 2018
- Full Text
- View/download PDF
26. Leukemia Inhibitory Factor-Receptor is Dispensable for Prenatal Testis Development but is Required in Sertoli cells for Normal Spermatogenesis in Mice.
- Author
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Curley M, Milne L, Smith S, Atanassova N, Rebourcet D, Darbey A, Hadoke PWF, Wells S, and Smith LB
- Subjects
- Animals, Leukemia Inhibitory Factor Receptor alpha Subunit deficiency, Male, Mice, Mice, Knockout, Leukemia Inhibitory Factor Receptor alpha Subunit metabolism, Sertoli Cells metabolism, Spermatogenesis, Testis physiology
- Abstract
Leukemia inhibitory factor (LIF), a pleiotropic cytokine belonging to the interleukin-6 family, is most often noted for its role in maintaining the balance between stem cell proliferation and differentiation. In rodents, LIF is expressed in both the fetal and adult testis; with the peritubular myoid (PTM) cells thought to be the main site of production. Given their anatomical location, LIF produced by PTM cells may act both on intratubular and interstitial cells to influence spermatogenesis and steroidogenesis respectively. Indeed, the leukemia inhibitory factor receptor (LIFR) is expressed in germ cells, Sertoli cells, Leydig cells, PTM cells and testicular macrophages, suggesting that LIF signalling via LIFR may be a key paracrine regulator of testicular function. However, a precise role(s) for testicular LIFR-signalling in vivo has not been established. To this end, we generated and characterised the testicular phenotype of mice lacking LIFR either in germ cells, Sertoli cells or both, to identify a role for LIFR-signalling in testicular development/function. Our analyses reveal that LIFR is dispensable in germ cells for normal spermatogenesis. However, Sertoli cell LIFR ablation results in a degenerative phenotype, characterised by abnormal germ cell loss, sperm stasis, seminiferous tubule distention and subsequent atrophy of the seminiferous tubules.
- Published
- 2018
- Full Text
- View/download PDF
27. Robust Revascularization in Models of Limb Ischemia Using a Clinically Translatable Human Stem Cell-Derived Endothelial Cell Product.
- Author
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MacAskill MG, Saif J, Condie A, Jansen MA, MacGillivray TJ, Tavares AAS, Fleisinger L, Spencer HL, Besnier M, Martin E, Biglino G, Newby DE, Hadoke PWF, Mountford JC, Emanueli C, and Baker AH
- Subjects
- Animals, Biomarkers metabolism, Cell Differentiation physiology, Cell Line, Embryonic Stem Cells cytology, Embryonic Stem Cells metabolism, Endothelial Cells metabolism, Hindlimb metabolism, Humans, Ischemia metabolism, Mesenchymal Stem Cells cytology, Mesenchymal Stem Cells metabolism, Mice, Pericytes cytology, Pericytes metabolism, Pluripotent Stem Cells cytology, Pluripotent Stem Cells metabolism, Stem Cell Transplantation methods, Endothelial Cells cytology, Hindlimb cytology, Ischemia therapy, Neovascularization, Physiologic physiology
- Abstract
Pluripotent stem cell-derived differentiated endothelial cells offer high potential in regenerative medicine in the cardiovascular system. With the aim of translating the use of a human stem cell-derived endothelial cell product (hESC-ECP) for treatment of critical limb ischemia (CLI) in man, we report a good manufacturing practice (GMP)-compatible protocol and detailed cell tracking and efficacy data in multiple preclinical models. The clinical-grade cell line RC11 was used to generate hESC-ECP, which was identified as mostly endothelial (60% CD31
+ /CD144+ ), with the remainder of the subset expressing various pericyte/mesenchymal stem cell markers. Cell tracking using MRI, PET, and qPCR in a murine model of limb ischemia demonstrated that hESC-ECP was detectable up to day 7 following injection. Efficacy in several murine models of limb ischemia (immunocompromised/immunocompetent mice and mice with either type I/II diabetes mellitus) demonstrated significantly increased blood perfusion and capillary density. Overall, we demonstrate a GMP-compatible hESC-ECP that improved ischemic limb perfusion and increased local angiogenesis without engraftment, paving the way for translation of this therapy., (Copyright © 2018 The Authors. Published by Elsevier Inc. All rights reserved.)- Published
- 2018
- Full Text
- View/download PDF
28. The role of androgen receptors in atherosclerosis.
- Author
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Takov K, Wu J, Denvir MA, Smith LB, and Hadoke PWF
- Subjects
- Animals, Atherosclerosis pathology, Atherosclerosis physiopathology, Disease Models, Animal, Humans, Neointima metabolism, Neointima pathology, Neovascularization, Physiologic, Vascular Remodeling, Atherosclerosis metabolism, Receptors, Androgen metabolism
- Abstract
Male disadvantage in cardiovascular health is well recognised. However, the influence of androgens on atherosclerosis, one of the major causes of many life-threatening cardiovascular events, is not well understood. With the dramatic increase in clinical prescription of testosterone in the past decade, concerns about the cardiovascular side-effects of androgen supplementation or androgen deprivation therapy are increasing. Potential atheroprotective effects of testosterone could be secondary to (aromatase-mediated) conversion into oestradiol or, alternatively, to direct activation of androgen receptors (AR). Recent development of animal models with cell-specific AR knockout has indicated a complex role for androgen action in atherosclerosis. Most studies suggest androgens are atheroprotective but the precise role of AR remains unclear. Increased use of AR knockout models should clarify the role of AR in atherogenesis and, thus, lead to exploitation of this pathway as a therapeutic target., (Copyright © 2017. Published by Elsevier B.V.)
- Published
- 2018
- Full Text
- View/download PDF
29. Correction to"Inhaled Nanoparticles Accumulate at Sites of Vascular Disease".
- Author
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Miller MR, Raftis JB, Langrish JP, McLean SG, Samutrtai P, Connell SP, Wilson S, Vesey AT, Fokkens PHB, Boere AJF, Krystek P, Campbell CJ, Hadoke PWF, Donaldson K, Cassee FR, Newby DE, Duffin R, and Mills NL
- Published
- 2017
- Full Text
- View/download PDF
30. Inhibition or deletion of 11β-HSD1 does not increase angiogenesis in ischemic retinopathy.
- Author
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Davidson CT, Dover AR, McVicar CM, Megaw R, Glenn JV, Hadoke PWF, Stitt AW, and Walker BR
- Subjects
- 11-beta-Hydroxysteroid Dehydrogenase Type 1 metabolism, Animals, Diabetic Retinopathy metabolism, Diabetic Retinopathy pathology, Mice, Mice, Knockout, Retinal Neovascularization metabolism, Retinal Neovascularization pathology, 11-beta-Hydroxysteroid Dehydrogenase Type 1 genetics, Diabetic Retinopathy genetics, Retinal Neovascularization genetics
- Published
- 2017
- Full Text
- View/download PDF
31. Carbonyl reductase 1 catalyzes 20β-reduction of glucocorticoids, modulating receptor activation and metabolic complications of obesity.
- Author
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Morgan RA, Beck KR, Nixon M, Homer NZM, Crawford AA, Melchers D, Houtman R, Meijer OC, Stomby A, Anderson AJ, Upreti R, Stimson RH, Olsson T, Michoel T, Cohain A, Ruusalepp A, Schadt EE, Björkegren JLM, Andrew R, Kenyon CJ, Hadoke PWF, Odermatt A, Keen JA, and Walker BR
- Subjects
- Animals, Carbonyl Reductase (NADPH) genetics, Disease Models, Animal, Female, Gene Expression, Genetic Association Studies, Genetic Variation, Glucocorticoids chemistry, Glucocorticoids urine, Horses, Humans, Hydrocortisone metabolism, Hydroxycorticosteroids metabolism, Hydroxycorticosteroids urine, Liver metabolism, Male, Mice, Models, Molecular, Molecular Conformation, Obesity genetics, Phenotype, Protein Binding, Receptors, Glucocorticoid agonists, Receptors, Glucocorticoid chemistry, Structure-Activity Relationship, Carbonyl Reductase (NADPH) metabolism, Energy Metabolism, Glucocorticoids metabolism, Obesity metabolism, Receptors, Glucocorticoid metabolism
- Abstract
Carbonyl Reductase 1 (CBR1) is a ubiquitously expressed cytosolic enzyme important in exogenous drug metabolism but the physiological function of which is unknown. Here, we describe a role for CBR1 in metabolism of glucocorticoids. CBR1 catalyzes the NADPH- dependent production of 20β-dihydrocortisol (20β-DHF) from cortisol. CBR1 provides the major route of cortisol metabolism in horses and is up-regulated in adipose tissue in obesity in horses, humans and mice. We demonstrate that 20β-DHF is a weak endogenous agonist of the human glucocorticoid receptor (GR). Pharmacological inhibition of CBR1 in diet-induced obesity in mice results in more marked glucose intolerance with evidence for enhanced hepatic GR signaling. These findings suggest that CBR1 generating 20β-dihydrocortisol is a novel pathway modulating GR activation and providing enzymatic protection against excessive GR activation in obesity.
- Published
- 2017
- Full Text
- View/download PDF
32. Macrophage 11β-HSD-1 deficiency promotes inflammatory angiogenesis.
- Author
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Zhang Z, Coutinho AE, Man TY, Kipari TMJ, Hadoke PWF, Salter DM, Seckl JR, and Chapman KE
- Subjects
- 11-beta-Hydroxysteroid Dehydrogenase Type 1 genetics, 11-beta-Hydroxysteroid Dehydrogenase Type 1 immunology, Animals, Humans, Inflammation genetics, Inflammation immunology, Macrophages immunology, Mice, Neovascularization, Pathologic genetics, Neovascularization, Pathologic immunology, 11-beta-Hydroxysteroid Dehydrogenase Type 1 deficiency, Inflammation enzymology, Macrophages enzymology, Neovascularization, Pathologic enzymology
- Abstract
11β-Hydroxysteroid dehydrogenase-1 (11β-HSD1) predominantly converts inert glucocorticoids into active forms, thereby contributing to intracellular glucocorticoid levels. 11β-HSD1 is dynamically regulated during inflammation, including in macrophages where it regulates phagocytic capacity. The resolution of inflammation in some disease models including inflammatory arthritis is impaired by 11β-HSD1 deficiency or inhibition. However, 11β-HSD1 deficiency/inhibition also promotes angiogenesis, which is beneficial in mouse models of surgical wound healing, myocardial infarction or obesity. The cell types responsible for the anti-inflammatory and anti-angiogenic roles of 11β-HSD1 have not been characterised. Here, we generated Hsd11b1
MKO mice with LysM-Cre mediated deletion of Hsd11b1 to investigate whether 11β-HSD1 deficiency in myeloid phagocytes is pro-angiogenic and/or affects the resolution of inflammation. Resolution of inflammatory K/BxN-induced arthritis was impaired in Hsd11b1MKO mice to a similar extent as in mice globally deficient in 11β-HSD1. This was associated with >2-fold elevation in levels of the endothelial marker Cdh5 mRNA, suggesting increased angiogenesis in joints of Hsd11b1MKO mice following arthritis. A pro-angiogenic phenotype was confirmed by measuring angiogenesis in subcutaneously implanted polyurethane sponges, in which Hsd11b1MKO mice showed 20% greater vessel density than their littermate controls, associated with higher expression of Cdh5 Thus, 11β-HSD1 deficiency in myeloid phagocytes promotes angiogenesis. Targeting 11β-HSD1 in macrophages may be beneficial in tissue repair., (© 2017 The authors.)- Published
- 2017
- Full Text
- View/download PDF
33. Inhaled Nanoparticles Accumulate at Sites of Vascular Disease.
- Author
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Miller MR, Raftis JB, Langrish JP, McLean SG, Samutrtai P, Connell SP, Wilson S, Vesey AT, Fokkens PHB, Boere AJF, Krystek P, Campbell CJ, Hadoke PWF, Donaldson K, Cassee FR, Newby DE, Duffin R, and Mills NL
- Subjects
- Administration, Inhalation, Adult, Animals, Gold, Healthy Volunteers, Humans, Lung pathology, Male, Mice, Nanoparticles, Nanostructures analysis, Particle Size, Vascular Diseases therapy, Metal Nanoparticles administration & dosage, Vascular Diseases metabolism
- Abstract
The development of engineered nanomaterials is growing exponentially, despite concerns over their potential similarities to environmental nanoparticles that are associated with significant cardiorespiratory morbidity and mortality. The mechanisms through which inhalation of nanoparticles could trigger acute cardiovascular events are emerging, but a fundamental unanswered question remains: Do inhaled nanoparticles translocate from the lung in man and directly contribute to the pathogenesis of cardiovascular disease? In complementary clinical and experimental studies, we used gold nanoparticles to evaluate particle translocation, permitting detection by high-resolution inductively coupled mass spectrometry and Raman microscopy. Healthy volunteers were exposed to nanoparticles by acute inhalation, followed by repeated sampling of blood and urine. Gold was detected in the blood and urine within 15 min to 24 h after exposure, and was still present 3 months after exposure. Levels were greater following inhalation of 5 nm (primary diameter) particles compared to 30 nm particles. Studies in mice demonstrated the accumulation in the blood and liver following pulmonary exposure to a broader size range of gold nanoparticles (2-200 nm primary diameter), with translocation markedly greater for particles <10 nm diameter. Gold nanoparticles preferentially accumulated in inflammation-rich vascular lesions of fat-fed apolipoproteinE-deficient mice. Furthermore, following inhalation, gold particles could be detected in surgical specimens of carotid artery disease from patients at risk of stroke. Translocation of inhaled nanoparticles into the systemic circulation and accumulation at sites of vascular inflammation provides a direct mechanism that can explain the link between environmental nanoparticles and cardiovascular disease and has major implications for risk management in the use of engineered nanomaterials.
- Published
- 2017
- Full Text
- View/download PDF
34. Colon cancer-derived myofibroblasts increase endothelial cell migration by glucocorticoid-sensitive secretion of a pro-migratory factor.
- Author
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Drebert Z, MacAskill M, Doughty-Shenton D, De Bosscher K, Bracke M, Hadoke PWF, and Beck IM
- Subjects
- Angiopoietin-Like Protein 2, Angiopoietin-like Proteins, Angiopoietins genetics, Angiopoietins metabolism, Animals, Cancer-Associated Fibroblasts metabolism, Cancer-Associated Fibroblasts pathology, Cell Line, Transformed, Cell Proliferation drug effects, Colonic Neoplasms drug therapy, Colonic Neoplasms genetics, Colonic Neoplasms metabolism, Colonic Neoplasms pathology, Culture Media, Conditioned metabolism, Endothelial Cells metabolism, Endothelial Cells pathology, Human Umbilical Vein Endothelial Cells drug effects, Human Umbilical Vein Endothelial Cells metabolism, Humans, Male, Mice, Inbred C57BL, Myofibroblasts metabolism, Myofibroblasts pathology, Neovascularization, Pathologic, Neovascularization, Physiologic drug effects, Paracrine Communication drug effects, Ribonuclease, Pancreatic genetics, Ribonuclease, Pancreatic metabolism, Signal Transduction drug effects, Stromal Cells metabolism, Stromal Cells pathology, Time Factors, Tissue Culture Techniques, Tumor Microenvironment, Urokinase-Type Plasminogen Activator genetics, Urokinase-Type Plasminogen Activator metabolism, Angiogenesis Inhibitors pharmacology, Cancer-Associated Fibroblasts drug effects, Cell Movement drug effects, Dexamethasone pharmacology, Endothelial Cells drug effects, Glucocorticoids pharmacology, Myofibroblasts drug effects, Stromal Cells drug effects
- Abstract
Angiogenesis is important in cancer progression and can be influenced by tumor-associated myofibroblasts. We addressed the hypothesis that glucocorticoids indirectly affect angiogenesis by altering the release of pro-angiogenic factors from colon cancer-derived myofibroblasts. Our study shows that glucocorticoids reduced prostanoids, urokinase-type plasminogen activator (uPA) and angiopoietin-like protein-2 (ANGPTL2) levels, but increased angiogenin (ANG) in supernatant from human CT5.3hTERT colon cancer-derived myofibroblasts. Conditioned medium from solvent- (CMS) and dexamethasone (Dex)-treated (CMD) myofibroblasts increased human umbilical vein endothelial cell (HUVEC) proliferation, but did not affect expression of pro-angiogenic factors or tube-like structure formation (by HUVECs or human aortic ECs). In a HUVEC scratch assay CMS-induced acceleration of wound healing was blunted by CMD treatment. Moreover, CMS-induced neovessel growth in mouse aortic rings ex vivo was also blunted using CMD. The latter effect could be ascribed to both Dex-driven reduction of secreted factors and potential residual Dex present in CMD (indicated using a dexamethasone-spiked CMS control). A similar control in the scratch assay, however, revealed that altered levels of factors in the CMD, and not potential residual Dex, were responsible for decreased wound closure. In conclusion, our results suggest that glucocorticoids indirectly alter endothelial cell function during tumor development in vivo., (Copyright © 2016 The Authors. Published by Elsevier Inc. All rights reserved.)
- Published
- 2017
- Full Text
- View/download PDF
35. 11β-hydroxysteroid dehydrogenase type 2 deficiency accelerates atherogenesis and causes proinflammatory changes in the endothelium in apoe-/- mice.
- Author
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Deuchar GA, McLean D, Hadoke PWF, Brownstein DG, Webb DJ, Mullins JJ, Chapman K, Seckl JR, and Kotelevtsev YV
- Subjects
- 11-beta-Hydroxysteroid Dehydrogenase Type 2 genetics, Amiloride pharmacology, Animals, Aorta cytology, Apolipoproteins E metabolism, Atherosclerosis drug therapy, Cell Line, Endothelium, Vascular cytology, Endothelium, Vascular pathology, Eplerenone, Gene Expression Regulation, Enzymologic, Male, Mice, Mice, Knockout, Mineralocorticoid Receptor Antagonists pharmacology, Sodium Channel Blockers pharmacology, Spironolactone analogs & derivatives, Spironolactone pharmacology, 11-beta-Hydroxysteroid Dehydrogenase Type 2 metabolism, Apolipoproteins E genetics, Atherosclerosis metabolism, Endothelium, Vascular enzymology, Inflammation pathology
- Abstract
Mineralocorticoid receptor (MR) activation is proinflammatory and proatherogenic. Antagonism of MR improves survival in humans with congestive heart failure caused by atherosclerotic disease. In animal models, activation of MR exacerbates atherosclerosis. The enzyme 11β-hydroxysteroid dehydrogenase type 2 (11β-HSD2) prevents inappropriate activation of the MR by inactivating glucocorticoids in mineralocorticoid-target tissues. To determine whether glucocorticoid-mediated activation of MR increases atheromatous plaque formation, we generated Apoe(-/-)/11β-HSD2(-/-) double-knockout (E/b2) mice. On chow diet, E/b2 mice developed atherosclerotic lesions by 3 months of age, whereas Apolipoprotein E (Apoe(-/-)) mice remained lesion free. Brachiocephalic plaques in 3-month-old E/b2 mice showed increased macrophage and lipid content and reduced collagen content compared with similar sized brachiocephalic plaques in 6-month-old Apoe(-/-) mice. Crucially, treatment of E/b2 mice with eplerenone, an MR antagonist, reduced plaque development and macrophage infiltration while increasing collagen and smooth muscle cell content without any effect on systolic blood pressure. In contrast, reduction of systolic blood pressure in E/b2 mice using the epithelial sodium channel blocker amiloride produced a less-profound atheroprotective effect. Vascular cell adhesion molecule 1 expression was increased in the endothelium of E/b2 mice compared with Apoe(-/-) mice. Similarly, aldosterone increased vascular cell adhesion molecule 1 expression in mouse aortic endothelial cells, an effect mimicked by corticosterone only in the presence of an 11β-HSD2 inhibitor. Thus, loss of 11β-HSD2 leads to striking atherogenesis associated with activation of MR, stimulating proinflammatory processes in the endothelium of E/b2 mice.
- Published
- 2011
- Full Text
- View/download PDF
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