!!Pawel Swietach - Curriculum Vitae
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__CURRENT POSITION__
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*2020 - present	Professor of Physiology, Oxford University\\
*2016 - present	Head of Proton Transport Group, DPAG, Oxford University\\
*2011 - present	Associate Professor in Cardiovascular Physiology, DPAG, Oxford University\\
*2011 - present	Handa Tutorial Fellow and Governing Body member, Corpus Christi College, Oxford
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__EDUCATION__
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*2001 - 2004 	Doctorate (DPhil) in Physiology, University of Oxford\\
*1998 - 2001 	Degree (BA) in Physiological Sciences, First Class Honours, Oxford University
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__POST-DOCTORAL RESEARCH TRAINING__
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*2008 - 2016	Royal Society Research Fellow, between DPAG and WIMM; Mentor: Adrian Harris\\
*2004 - 2008 	British Heart Foundation research assistant, DPAG; Director: Richard Vaughan-Jones \\
*2005, 2007 	Visiting scientist, CVRTI, Salt Lake City, USA; Director: Prof Kenneth W Spitzer
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__SELECTECT RESEARCH GRANTS__
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*2022	EVOX therapeutics research grant “Delivering exosomes to the heart” £150,000. 1 year.\\
*2022 	Hemanext Inc research grant “Improving transfusion efficacy with hypoxic storage” £88,000. 2 years\\
*2022	BLOODMARK ERC Proof-of-Concept grant. EUR150,000. 18 months.\\
*2021	British Heart Foundation: Project grant: “Curtailing maladaptive cardiac hypertrophy with inhibitors against the surface-expressed NBCn1 (Slc4a7) protein: A novel and accessible anti-hypertrophic target with reduced burden of side-effects”.   £274,350. 3 years.\\
*2020	Propionic Acidemia Foundation: “Epigenetic editing by propionate: Using an inborn error of metabolism to study the cardiac actions of a biologically-active metabolic intermediate”.   £50,000\\
*2018	European Commission: Marie Sklodowska-Curie Initial Training Network: “PHIONIC pH and Ion Transport in Pancreatic Cancer”.   £193,964 (PI in Oxford). 4 years\\
*2017	European Research Council: Consolidator grant: “Surviving metabolism: acid handling and signalling”. ERC-2016-COG-723997.   €1,922,575 (as PI). 5 years\\
*2016	British Heart Foundation: Project grant: “Regulation of nuclear pH in ventricular myocytes and its role in gene expression”. PG/16/66/32288.   £226,672 (as PI). 3 years from 2017\\
*2016	British Heart Foundation:Programme Grant: “H+ ion control and signalling in cardiac hypertrophy and heart failure”.  RG07/31534.   £1,198,466 (as PI). 5 years\\
*2015	Children Living with Metabolic Diseases: Project grant: “Mechanisms of aberrant cardiac calcium signalling in response to propionic acidosis”.	  £16,000 (as PI) 2 years\\
*2015	EP Abraham Fund: Research grant: “Regulation of cancer cell pH by stromal fibroblasts: studies of novel cancer-stroma interactions”.   £30,000 (as PI) \\
*2013	Qatar National Research Fund: Project grant: “Variation and co-variation in calcium-handling fluxes in the aging cardiac myocyte”. Jointly with Bollensdrorff (Doha) and Niederer (KCL).   $897,000 (joint PI)\\
*2012	British Heart Foundation: Project grant: “Effects of nitric oxide signalling on proton dynamics in the healthy and diseased heart”.  PG/12/2/29324.  : £188,409 (as PI) 3 years\\
*2011	Association for International Cancer Research: Project grant: “Regulation of cancer cell pH by stromal fibroblasts: studies of novel cancer-stroma interactions”.  #12-0027.   £191,403 (as PI) 3 years\\
*2011	European Commission: 	Marie Curie Initial Training Network Grant: “IonTrac: Ion transport proteins in control of cancer cell behaviour”.  FP7-289648.   £193,964 (PI in Oxford) 4 years\\
*2010	OUP John Fell Fund: Equipment grant: “High resolution, real-time imaging of living cells and tissue: a laboratory start-up”. 092/248.   £59,000 (as PI)\\
*2010	Royal Society	Equipment grant: “A high-throughput flow-cytometry system for measuring intracellular pH (pHi) in populations of cells”.   £50,000 (as PI)\\
*2008	Medical Research Council: New Investigator grant: “Mechanisms, consequences and regulation of pH non-uniformity in 3-D tissue structures: implications on cancer therapy”. G0700698. £306,221 (as PI)\\
*2008	Royal Society: University Research Fellowship “How tissues remove acid: imaging spatial pH regulation in 3-D tumours”.  UF120043.    £810,998  (as PI) 8 years
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__RESEARCH FELLOWSHIPS, HONOURS AND AWARDS__
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*2018	Inaugural CRUK-U. S. Fulbright Scholar (to Moffitt Cancer Center, USA)\\
*2018	Elected to Fellowship of the Physiological Society\\
*2017 - 2022	European Research Council (ERC) Consolidator Grant Awardee\\
*2008 - 2016	Royal Society University Research Fellow\\
*2009 - 2012	Medical Research Council New Investigator
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__SELECTED PUBLICATIONS__ \\
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__ACCEPTED ARTICLES IN PRESS__\\
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99	Swietach, Boedtkjer, Pedersen “How protons pave the way to aggressive cancers”, Nature Reviews Cancer\\
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98	Park, Crump, Louwman, Krywawych, Cheong, Vendrell, Gill, Gunadasa-Rohling, Ford, Hauton, Fournier, Pires, Watson, Roseman, Holder, Koschinski, Carnicer, Curtis, Zaccolo, Hulikova, Fischer, Kramer, McCullagh, Trefely, Milne, Swietach “Park, Crump, Louwman, Disrupted propionate metabolism evokes transcriptional changes in the heart by increasing histone acetylation and propionylation” Nature Cardiovasc Res\\
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__PREPRINTS UNDER REVIEW__\\
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97	Dumbill, Rabcuka, Knight, Hunter, Fallon, Voyce, Barrett, Ellen, Weissenbacher, Kurniawan, Blonski, Korczyk, Ploeg, Coussios, Friend,  Swietach “Diffusion-limited O2 release in human kidneys perfused with stored blood”  [https://doi.org/10.1101/2023.05.07.23289584]\\
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__PEER-REVIEWED ARTICLES__\\
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96	Michl, Monterisi, White, Blaszczak, Hulikova, Abdullayeva, Bridges, Yin, Bodmer & Swietach. "Acid-adapted cancer cells alkalinize their cytoplasm by degrading the acid-loading membrane transporter anion exchanger 2, SLC4A2".  Cell Rep (2023)\\
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95	Rabcuka, Blonski, Meli, Sowemimo-Coker, Zaremba, Stephenson, Dzieciatkowska, Nerguizian, Cardigan, Korczyk, Smethurst, D'Alessandro & Swietach. "Metabolic reprogramming under hypoxic storage preserves faster oxygen unloading from stored red blood cells".  Blood Adv (2022)\\
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94	Monterisi, Michl, Hulikova, Koth, Bridges, Hill, Abdullayeva, Bodmer, Swietach & Jiang. "Solute exchange through gap junctions lessens the adverse effects of inactivating mutations in metabolite-handling genes".  Elife (2022)\\
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93	Riabiz, Chen, Cockayne, Swietach, Niederer, Mackey & Oates. "Optimal thinning of MCMC output".  J Roy Stat Soc B (2022)\\
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92	Blaszczak, Williams & Swietach. "Autoregulation of H+/lactate efflux prevents monocarboxylate transport (MCT) inhibitors from reducing glycolytic lactic acid production".  Brit J Cancer (2022)\\
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91	Wilson, Richards, Curtis, Rohling, Monterisi, Loonat, Miller, Ball, Lewis, Tyler, Moshnikova, Andreev, Reshetnyak, Carr & Swietach. "Acidic environments trigger intracellular H+-sensing FAK proteins to re-balance sarcolemmal acid-base transporters and auto-regulate cardiomyocyte pH".  Cardiovasc Res (2022)\\
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90	Pillai, Mahmud, Mahar, Griffith, Langsen, Nguyen, Wojtkowiak, Swietach, Gatenby, Bui, Merritt, McDonald, Garrett & Gillies. "Lipogenesis mediated by OGR1 regulates metabolic adaptation to acid stress in cancer cells via autophagy".  Cell Rep (2022)\\
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89	Michl, Wang, Monterisi, Blaszczak, Beveridge, Bridges, Koth, Bodmer & Swietach. "CRISPR-Cas9 screen identifies oxidative phosphorylation as essential for cancer cell survival at low extracellular pH".  Cell Rep (2022)\\
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88	Park, Crump, Hulikova, Ford, Louwman, Carnicer, Hauton, Koschinski, Mccullagh, Zaccolo, Krywawych, Milne & Swietach. "Elevated propionate signalling drives Pde9a overexpression and contractile dysfunction through increased histone acetylation and propionylation".  Cardiovasc Res (2022)\\
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87	Russell, Xu, Kam, Abrahams, Ordway, Lopez, Bui, Johnson, Epstein, Ruiz, Lloyd, Swietach, Verduzco, Wojtkowiak & Gillies. "Proton export upregulates aerobic glycolysis".  Bmc Biol (2022)\\
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86	Donovan, Meli, Cendali, Park, Cardigan, Stanworth, McKechnie, D'Alessandro, Smethurst & Swietach. "Stored blood has compromised oxygen unloading kinetics that can be normalized with rejuvenation and predicted from corpuscular side-scatter".  Haematologica (2022)\\
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85	Hulikova, Park, Loonat, Gunadasa-Rohling, Curtis, Chung, Wilson, Carr, Trafford, Fournier, Moshnikova, Andreev, Reshetnyak, Riley, Smart, Milne, Crump & Swietach. "Alkaline nucleoplasm facilitates contractile gene expression in the mammalian heart".  Basic Res Cardiol (2022)\\
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84	Blaszczak, Tan & Swietach. "Cost-Effective Real-Time Metabolic Profiling of Cancer Cell Lines for Plate-Based Assays".  Chemosensors (2021)\\
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83	Kandilci, Richards, Fournier, Simsek, Chung, Lakhal-Littleton & Swietach. "Cardiomyocyte Na+/H+ Exchanger-1 Activity Is Reduced in Hypoxia".  Front Cardiovasc Med (2021)\\
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82	Chung, Swietach, Curtis, Ball, Robbins & Lakhal-Littleton. "Iron-Deficiency Anemia Results in Transcriptional and Metabolic Remodeling in the Heart Toward a Glycolytic Phenotype".  Front Cardiovasc Med (2021)\\
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81	Ordway, Tomaszewski, Byrne, Abrahams, Swietach, Gillies & Damaghi. "Targeting of Evolutionarily Acquired Cancer Cell Phenotype by Exploiting pHi-Metabolic Vulnerabilities".  Cancers (2021)\\
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80	Simon, Vrellaku, Monterisi, Chu, Rawlings, Lomas, Marchal, Waithe, Syeda, Gajendragadkar, Jayaram, Sayeed, Channon, Fabritz, Swietach, Zaccolo, Eaton & Casadei. "Oxidation of Protein Kinase A Regulatory Subunit PKARI alpha Protects Against Myocardial Ischemia-Reperfusion Injury by Inhibiting Lysosomal-Triggered Calcium Release".  Circulation (2021)\\
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79	Chung, Park, Tokar, Eykyn, Fuller, Pavlovic, Swietach & Shattock. "SGLT2 inhibitors and the cardiac Na+/H+ exchanger-1: the plot thickens".  Cardiovasc Res (2021)\\
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78	Chung, Park, Tokar, Eykyn, Fuller, Pavlovic, Swietach & Shattock. "Off-target effects of sodium-glucose co-transporter 2 blockers: empagliflozin does not inhibit Na+/H+ exchanger-1 or lower [[Na+]](i) in the heart".  Cardiovasc Res (2021)\\
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77	Hulikova, Kramer, Khan & Swietach. "Detection of Intravascular Hemolysis in Newborn Infants Using Urinary Carbonic Anhydrase I Immunoreactivity".  J Appl Lab Med (2020)\\
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76	Richards, Simon, Ma, Loonat, Crabtree, Paterson, Fahlman, Casadei, Fliegel & Swietach. "Nitric oxide modulates cardiomyocyte pH control through a biphasic effect on sodium/hydrogen exchanger-1".  Cardiovasc Res (2020)\\
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75	Richardson, Hulikova, Proven, Hipkiss, Akanni, Roy & Swietach. "Single-cell O-2 exchange imaging shows that cytoplasmic diffusion is a dominant barrier to efficient gas transport in red blood cells".  P Natl Acad Sci USA (2020)\\
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74	Park, Krywawych, Richard, Desviat & Swietach. "Cardiac Complications of Propionic and Other Inherited Organic Acidemias".  Front Cardiovasc Med (2020)\\
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73	Wu, Estrella, Beatty, Abrahams, El-Kenawi, Russell, Ibrahim-Hashim, Longo, Reshetnyak, Moshnikova, Andreev, Luddy, Damaghi, Kodumudi, Pillai, Enriquez-Navas, Pilon-Thomas, Swietach & Gillies. "T-cells produce acidic niches in lymph nodes to suppress their own effector functions".  Nat Commun (2020)\\
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72	Park, Donovan, McKechnie, Ramamurthy, Klenerman & Swietach. "Single-cell oxygen saturation imaging shows that gas exchange by red blood cells is not impaired in COVID-19 patients".  Brit J Haematol (2020)\\
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71	Loonat, Curtis, Richards, Nunez-Alonso, Michl & Swietach. "A high-throughput ratiometric method for imaging hypertrophic growth in cultured primary cardiac myocytes".  J Mol Cell Cardiol (2019)\\
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70	Michl, Park & Swietach. "Evidence-based guidelines for controlling pH in mammalian live-cell culture systems".  Commun Biol (2019)\\
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69	Chung, Luo, Park, Loonat, Lakhal-Littleton, Robbins & Swietach. "Iron-deficiency anemia reduces cardiac contraction by downregulating RyR2 channels and suppressing SERCA pump activity".  Jci Insight (2019)\\
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68	Simsek, Vaughan-Jones, Swietach & Kandilci. "Recovery from hypoxia-induced internalization of cardiac Na+/H (+) exchanger 1 requires an adequate intracellular store of antioxidants".  J Cell Physiol (2019)\\
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67	Rorsman, Ta, Garnett, Swietach & Tammaro. "Defining the ionic mechanisms of optogenetic control of vascular tone by channelrhodopsin-2".  Brit J Pharmacol (2018)\\
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66	Burdyga, Surdo, Monterisi, Di Benedetto, Grisan, Penna, Pellegrini, Bortolozzi, Swietach, Pozzan & Lefkimmiatis. "Phosphatases control PKA-dependent functional microdomains at the outer mitochondrial membrane".  P Natl Acad Sci USA (2018)\\
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65	Dovmark, Hulikova, Niederer, Vaughan-Jones & Swietach. "Normoxic cells remotely regulate the acid-base balance of cells at the hypoxic core of connexin-coupled tumor growths".  Faseb J (2018)\\
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64	Lee, Mcintyre, Honess, Hulikova, Pacheco-Torres, Cerdan, Swietach, Harris & Griffiths. "Carbonic anhydrase IX is a pH-stat that sets an acidic tumour extracellular pH in vivo".  Brit J Cancer (2018)\\
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63	Garciarena, Malik, Swietach, Moreno & Vaughan-Jones. "Distinct moieties underlie biphasic H+ gating of connexin43 channels, producing a pH optimum for intercellular communication".  Faseb J (2018)\\
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62	Ford, Moorhouse, Bortolozzi, Richards, Swietach & Vaughan-Jones. "Regional acidosis locally inhibits but remotely stimulates Ca2+ waves in ventricular myocytes".  Cardiovasc Res (2017)\\
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61	Dovmark, Saccomano, Hulikova, Alves & Swietach. "Connexin-43 channels are a pathway for discharging lactate from glycolytic pancreatic ductal adenocarcinoma cells".  Oncogene (2017)\\
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60	Hulikova, Black, Hsia, Wilding, Bodmer & Swietach. "Stromal uptake and transmission of acid is a pathway for venting cancer cell-generated acid".  P Natl Acad Sci USA (2016)\\
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59	Richardson & Swietach. "Red blood cell thickness is evolutionarily constrained by slow, hemoglobin-restricted diffusion in cytoplasm".  Sci Rep (2016)\\
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58	Richards, Lomas, Jalink, Ford, Vaughan-Jones, Lefkimmiatis & Swietach. "Intracellular tortuosity underlies slow cAMP diffusion in adult ventricular myocytes".  Cardiovasc Res (2016)\\
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57	McIntyre, Hulikova, Ledaki, Snell, Singleton, Steers, Seden, Jones, Bridges, Wigfield, Li, Russell, Swietach & Harris. "Disrupting Hypoxia-Induced Bicarbonate Transport Acidifies Tumor Cells and Suppresses Tumor Growth".  Cancer Res (2016)\\
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56	Hulikova & Swietach. "Nuclear proton dynamics and interactions with calcium signaling".  J Mol Cell Cardiol (2016)\\
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55	Swietach, Spitzer & Vaughan-Jones. "Na+ ions as spatial intracellular messengers for co-ordinating Ca2+ signals during pH heterogeneity in cardiomyocytes".  Cardiovasc Res (2015)\\
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54	Hulikova, Aveyard, Harris, Vaughan-Jones & Swietach. "Intracellular Carbonic Anhydrase Activity Sensitizes Cancer Cell pH Signaling to Dynamic Changes in CO2 Partial Pressure".  J Biol Chem (2014)\\
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53	Villafuerte, Swietach, Youm, Ford, Cardenas, Supuran, Cobden, Rohling & Vaughan-Jones. "Facilitation by intracellular carbonic anhydrase of Na+-HCO3- co-transport but not Na+/H+ exchange activity in the mammalian ventricular myocyte".  J Physiol-London (2014)\\
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52	Hulikova & Swietach. "Rapid CO2 permeation across biological membranes: implications for CO2 venting from tissue".  Faseb J (2014)\\
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51	Gondi, Mysliwietz, Hulikova, Jen, Swietach, Kremmer & Zeidler. "Antitumor Efficacy of a Monoclonal Antibody That Inhibits the Activity of Cancer-Associated Carbonic Anhydrase XII".  Cancer Res (2013)\\
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50	Swietach, Youm, Saegusa, Leem, Spitzer & Vaughan-Jones. "Coupled Ca2+/H+ transport by cytoplasmic buffers regulates local Ca2+ and H+ ion signaling".  P Natl Acad Sci USA (2013)\\
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49	Garciarena, Ma, Swietach, Huc & Vaughan-Jones. "Sarcolemmal localisation of Na+/H+ exchange and Na+HCO3- co-transport influences the spatial regulation of intracellular pH in rat ventricular myocytes".  J Physiol-London (2013)\\
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48	Schroeder, Ali, Hulikova, Supuran, Clarke, Vaughan-Jones, Tyler & Swietach. "Extramitochondrial domain rich in carbonic anhydrase activity improves myocardial energetics".  P Natl Acad Sci USA (2013)\\
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47	McIntyre, Hulikova, Ledaki, Seden, Turley, Jones, Russell, Swietach & Harris. "Hypoxic trans-activation of sodium dependent bicarbonate co-transporters regulates pH in 3D spheroids and promotes growth".  Cancer Res (2013)\\
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46	Hulikova, Harris, Vaughan-Jones & Swietach. "Regulation of intracellular pH in cancer cell lines under normoxia and hypoxia".  J Cell Physiol (2013)\\
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45	McIntyre, Patiar, Wigfield, Li, Ledaki, Turley, Leek, Snell, Gatter, Sly, Vaughan-Jones, Swietach & Harris. "Carbonic Anhydrase IX Promotes Tumor Growth and Necrosis In Vivo and Inhibition Enhances Anti-VEGF Therapy".  Clin Cancer Res (2012)\\
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44	Swietach, Hulikova, Patiar, Vaughan-Jones & Harris. "Importance of Intracellular pH in Determining the Uptake and Efficacy of the Weakly Basic Chemotherapeutic Drug, Doxorubicin".  Plos One (2012)\\
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43	Murri-Plesko, Hulikova, Oosterwijk, Scott, Zortea, Harris, Ritter, Old, Bauer, Swietach & Renner. "Antibody inhibiting enzymatic activity of tumour-associated carbonic anhydrase isoform IX".  Eur J Pharmacol (2011)\\
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42	Hulikova, Vaughan-Jones & Swietach. "Dual Role of CO2/HCO3- Buffer in the Regulation of Intracellular pH of Three-dimensional Tumor Growths".  J Biol Chem (2011)\\
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41	Li, Niederer, Idigo, Zhang, Swietach, Casadei & Smith. "A mathematical model of the murine ventricular myocyte: a data-driven biophysically based approach applied to mice overexpressing the canine NCX isoform".  Am J Physiol-Heart C (2010)\\
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40	Swietach, Camelliti, Hulikova, Kohl & Vaughan-Jones. "Spatial regulation of intracellular pH in multicellular strands of neonatal rat cardiomyocytes".  Cardiovasc Res (2010)\\
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39	Everaert, Willemsen, Hulikova, Brown, Decuypere, Swietach & Bruggeman. "The importance of carbonic anhydrase II in red blood cells during exposure of chicken embryos to CO2".  Resp Physiol Neurobi (2010)\\
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38	Swietach, Spitzer & Vaughan-Jones. "Modeling calcium waves in cardiac myocytes: importance of calcium diffusion".  Front Biosci-Landmrk (2010)\\
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37	Swietach, Tiffert, Mauritz, Seear, Esposito, Kaminski, Lew & Vaughan-Jones. "Hydrogen ion dynamics in human red blood cells".  J Physiol-London (2010)\\
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36	Schroeder, Swietach, Atherton, Gallagher, Lee, Radda, Clarke & Tyler. "Measuring intracellular pH in the heart using hyperpolarized carbon dioxide and bicarbonate: a C-13 and P-31 magnetic resonance spectroscopy study".  Cardiovasc Res (2010)\\
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35	Swietach, Patiar, Supuran, Harris & Vaughan-Jones. "The Role of Carbonic Anhydrase 9 in Regulating Extracellular and Intracellular pH in Three-dimensional Tumor Cell Growths".  J Biol Chem (2009)\\
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34	Huang, Swietach, Vaughan-Jones & Glitsch. "Differentiation impairs low pH-induced Ca2+ signaling and ERK phosphorylation in granule precursor tumour cells".  Cell Calcium (2009)\\
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33	Huang, Swietach, Vaughan-Jones, Ansorge & Glitsch. "Extracellular acidification elicits spatially and temporally distinct Ca2+ signals".  Curr Biol (2008)\\
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32	Ch'en, Villafuerte, Swietach, Cobden & Vaughan-Jones. "S0859, an N-cyanosulphonamide inhibitor of sodium-bicarbonate cotransport in the heart".  Brit J Pharmacol (2008)\\
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31	Swietach, Wigfield, Supuran, Harris & Vaughan-Jones. "Cancer-associated, hypoxia-inducible carbonic anhydrase IX facilitates CO2 diffusion".  Bju Int (2008)\\
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30	Swietach, Wigfield, Cobden, Supuran, Harris & Vaughan-Jones. "Tumor-associated carbonic anhydrase 9 spatially coordinates intracellular pH in three-dimensional multicellular growths".  J Biol Chem (2008)\\
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29	Swietach, Spitzer & Vaughan-Jones. "Ca2+-Mobility in the sarcoplasmic reticulum of ventricular myocytes is low".  Biophys J (2008)\\
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28	Swietach, Spitzer & Vaughan-Jones. "pH-dependence of extrinsic and intrinsic H+-ion mobility in the rat ventricular myocyte, investigated using flash photolysis of a caged-H+ compound".  Biophys J (2007)\\
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27	Swietach, Rossini, Spitzer & Vaughan-Jones. "H+ ion activation and inactivation of the ventricular gap junction - A basis for spatial regulation of intracellular pH".  Circ Res (2007)\\
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26	Yamamoto, Swietach, Rossini, Loh, Vaughan-Jones & Spitzer. "Functional diversity of electrogenic Na+-HCO3- cotransport in ventricular myocytes from rat, rabbit and guinea pig".  J Physiol-London (2005)\\
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25	Swietach & Vaughan-Jones. "Relationship between intracellular pH and proton mobility in rat and guinea-pig ventricular myocytes".  J Physiol-London (2005)\\
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24	Swietach, Leem, Spitzer & Vaughan-Jones. "Experimental generation and computational modeling of intracellular pH gradients in cardiac myocytes".  Biophys J (2005)\\
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23	Swietach & Vaughan-Jones. "Novel method for measuring junctional proton permeation in isolated ventricular myocyte cell pairs".  Am J Physiol-Heart C (2004)\\
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22	Zaniboni, Swietach, Rossini, Yamamoto, Spitzer & Vaughan-Jones. "Intracellular proton mobility and buffering power in cardiac ventricular myocytes from rat, rabbit, and guinea pig".  Am J Physiol-Heart C (2003)\\
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21	Zaniboni, Rossini, Swietach, Banger, Spitzer & Vaughan-Jones. "Proton permeation through the myocardial gap junction".  Circ Res (2003)\\
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20	Ch'en, Dilworth, Swietach, Goddard & Vaughan-Jones. "Temperature dependence of Na+-H+ exchange, Na+-HCO3- co-transport, intracellular buffering and intracellular pH in guinea-pig ventricular myocytes".  J Physiol-London (2003)\\
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19	Swietach, Browning & Wilkins. "Functional and molecular determination of carbonic anhydrase levels in bovine and cultured human chondrocytes".  Comp Biochem Phys B (2002)\\
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__EDITORIALS AND INVITED REVIEWS__\\
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18	Swietach & Despa. "Channelling protons out of the heart".  J Physiol-London (2022)\\
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17	Blaszczak & Swietach. "What do cellular responses to acidity tell us about cancer?".  Cancer Metast Rev (2021)\\
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16	Ordway, Swietach, Gillies & Damaghi. "Causes and Consequences of Variable Tumor Cell Metabolism on Heritable Modifications and Tumor Evolution".  Front Oncol (2020)\\
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15	Swietach. "What is pH regulation, and why do cancer cells need it?".  Cancer Metast Rev (2019)\\
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14	Swietach & Monterisi. "A Barter Economy in Tumors: Exchanging Metabolites through Gap Junctions".  Cancers (2019)\\
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13	Hulikova, Vaughan-Jones, Niederer & Swietach. "CrossTalk opposing view: Physiological CO2 exchange does not normally depend on membrane channels".  J Physiol-London (2015)\\
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12	Swietach, Vaughan-Jones, Harris & Hulikova. "The chemistry, physiology and pathology of pH in cancer".  Philos T R Soc B (2014)\\
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11	Swietach, Leem, Spitzer & Vaughan-Jones. "Pumping Ca2+ up H+ gradients: a Ca2+-H+ exchanger without a membrane".  J Physiol-London (2014)\\
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10	Garciarena, Youm, Swietach & Vaughan-Jones. "H+-activated Na+ influx in the ventricular myocyte couples Ca2+-signalling to intracellular pH".  J Mol Cell Cardiol (2013)\\
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9	Hulikova, Harris, Vaughan-Jones & Swietach. "Acid-extrusion from Tissue: The Interplay Between Membrane Transporters and pH Buffers".  Curr Pharm Design (2012)\\
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8	Swietach, Hulikova, Vaughan-Jones & Harris. "New insights into the physiological role of carbonic anhydrase IX in tumour pH regulation".  Oncogene (2010)\\
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7	Swietach, Harris & Vaughan-Jones. "The Tumor Microenvironment: New Insights into Regulation of Tumor pH by Carbonic Anhydrases".  Cancer Drug Discov D (2010)\\
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6	Vaughan-Jones, Spitzer & Swietach. "Intracellular pH regulation in heart".  J Mol Cell Cardiol (2009)\\
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5	Vaughan-Jones & Swietach. "Pushing and pulling the cardiac sodium/hydrogen exchanger".  Circ Res (2008)\\
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4	Swietach, Vaughan-Jones & Harris. "Regulation of tumor pH and the role of carbonic anhydrase 9".  Cancer Metast Rev (2007)\\
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3	Vaughan-Jones, Spitzer & Swietach. "Spatial aspects of intracellular pH regulation in heart muscle".  Prog Biophys Mol Bio (2006)\\
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2	Swietach & Vaughan-Jones. "Spatial regulation of intracellular pH in the ventricular myocyte".  Ann Ny Acad Sci (2005)\\
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1	Swietach, Zaniboni, Stewart, Rossini, Spitzer & Vaughan-Jones. "Modelling intracellular H+ ion diffusion".  Prog Biophys Mol Bio (2003)\\ \\[{ALLOW view All}][{ALLOW edit pswietach}][{ALLOW upload pswietach}][{ALLOW comment All}]