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Items: 1 to 50 of 149

1.

The role of fibroblast - Cardiomyocyte interaction for atrial dysfunction in HFpEF and hypertensive heart disease.

Bode D, Lindner D, Schwarzl M, Westermann D, Deissler P, Primessnig U, Hegemann N, Blatter LA, van Linthout S, Tschöpe C, Schoenrath F, Soltani S, Stamm C, Duesterhoeft V, Rolim N, Wisløff U, Knosalla C, Falk V, Pieske BM, Heinzel FR, Hohendanner F.

J Mol Cell Cardiol. 2019 Jun;131:53-65. doi: 10.1016/j.yjmcc.2019.04.016. Epub 2019 Apr 18.

PMID:
31005484
2.

Action potential shortening rescues atrial calcium alternans.

Kanaporis G, Kalik ZM, Blatter LA.

J Physiol. 2019 Feb;597(3):723-740. doi: 10.1113/JP277188. Epub 2018 Dec 5.

PMID:
30412286
3.

p53 promotes AKT and SP1-dependent metabolism through the pentose phosphate pathway that inhibits apoptosis in response to Nutlin-3a.

Duan L, Perez RE, Chen L, Blatter LA, Maki CG.

J Mol Cell Biol. 2018 Aug 1;10(4):331-340. doi: 10.1093/jmcb/mjx051.

4.

Tissue Specificity: SOCE: Implications for Ca2+ Handling in Endothelial Cells.

Blatter LA.

Adv Exp Med Biol. 2017;993:343-361. doi: 10.1007/978-3-319-57732-6_18. Review.

PMID:
28900923
5.

The intricacies of atrial calcium cycling during excitation-contraction coupling.

Blatter LA.

J Gen Physiol. 2017 Sep 4;149(9):857-865. doi: 10.1085/jgp.201711809. Epub 2017 Aug 10. Review. No abstract available.

6.

Alternans in atria: Mechanisms and clinical relevance.

Kanaporis G, Blatter LA.

Medicina (Kaunas). 2017;53(3):139-149. doi: 10.1016/j.medici.2017.04.004. Epub 2017 Jun 7. Review.

7.

AP and Ca2+ alternans: An inseparable couple.

Kanaporis G, Blatter LA.

Channels (Austin). 2017 Sep 3;11(5):368-369. doi: 10.1080/19336950.2017.1330094. Epub 2017 May 12. No abstract available.

8.

Membrane potential determines calcium alternans through modulation of SR Ca2+ load and L-type Ca2+ current.

Kanaporis G, Blatter LA.

J Mol Cell Cardiol. 2017 Apr;105:49-58. doi: 10.1016/j.yjmcc.2017.02.004. Epub 2017 Feb 28.

9.

The effect of PKA-mediated phosphorylation of ryanodine receptor on SR Ca2+ leak in ventricular myocytes.

Bovo E, Huke S, Blatter LA, Zima AV.

J Mol Cell Cardiol. 2017 Mar;104:9-16. doi: 10.1016/j.yjmcc.2017.01.015. Epub 2017 Jan 25.

10.
11.

Dyssynchronous calcium removal in heart failure-induced atrial remodeling.

Hohendanner F, DeSantiago J, Heinzel FR, Blatter LA.

Am J Physiol Heart Circ Physiol. 2016 Dec 1;311(6):H1352-H1359. doi: 10.1152/ajpheart.00375.2016. Epub 2016 Sep 30.

12.

Ca(2+)-activated chloride channel activity during Ca(2+) alternans in ventricular myocytes.

Kanaporis G, Blatter LA.

Channels (Austin). 2016 Nov;10(6):507-17. doi: 10.1080/19336950.2016.1207020. Epub 2016 Jun 29.

13.

Calcium-activated chloride current determines action potential morphology during calcium alternans in atrial myocytes.

Kanaporis G, Blatter LA.

J Physiol. 2016 Feb 1;594(3):699-714. doi: 10.1113/JP271887. Epub 2016 Jan 15.

14.

p53-regulated autophagy is controlled by glycolysis and determines cell fate.

Duan L, Perez RE, Davaadelger B, Dedkova EN, Blatter LA, Maki CG.

Oncotarget. 2015 Sep 15;6(27):23135-56.

15.

Harnessing the Power of Integrated Mitochondrial Biology and Physiology: A Special Report on the NHLBI Mitochondria in Heart Diseases Initiative.

Ping P, Gustafsson ÅB, Bers DM, Blatter LA, Cai H, Jahangir A, Kelly D, Muoio D, O'Rourke B, Rabinovitch P, Trayanova N, Van Eyk J, Weiss JN, Wong R, Schwartz Longacre L.

Circ Res. 2015 Jul 17;117(3):234-8. doi: 10.1161/CIRCRESAHA.117.306693.

16.

Cytosolic and nuclear calcium signaling in atrial myocytes: IP3-mediated calcium release and the role of mitochondria.

Hohendanner F, Maxwell JT, Blatter LA.

Channels (Austin). 2015;9(3):129-38. doi: 10.1080/19336950.2015.1040966.

17.

Distinct mPTP activation mechanisms in ischaemia-reperfusion: contributions of Ca2+, ROS, pH, and inorganic polyphosphate.

Seidlmayer LK, Juettner VV, Kettlewell S, Pavlov EV, Blatter LA, Dedkova EN.

Cardiovasc Res. 2015 May 1;106(2):237-48. doi: 10.1093/cvr/cvv097. Epub 2015 Mar 5.

18.

Variations in local calcium signaling in adjacent cardiac myocytes of the intact mouse heart detected with two-dimensional confocal microscopy.

Hammer KP, Hohendanner F, Blatter LA, Pieske BM, Heinzel FR.

Front Physiol. 2015 Jan 12;5:517. doi: 10.3389/fphys.2014.00517. eCollection 2014.

19.

The mechanisms of calcium cycling and action potential dynamics in cardiac alternans.

Kanaporis G, Blatter LA.

Circ Res. 2015 Feb 27;116(5):846-56. doi: 10.1161/CIRCRESAHA.116.305404. Epub 2014 Dec 22.

20.

Inositol-1,4,5-trisphosphate induced Ca2+ release and excitation-contraction coupling in atrial myocytes from normal and failing hearts.

Hohendanner F, Walther S, Maxwell JT, Kettlewell S, Awad S, Smith GL, Lonchyna VA, Blatter LA.

J Physiol. 2015 Mar 15;593(6):1459-77. doi: 10.1113/jphysiol.2014.283226. Epub 2014 Dec 22.

21.

Role of β-hydroxybutyrate, its polymer poly-β-hydroxybutyrate and inorganic polyphosphate in mammalian health and disease.

Dedkova EN, Blatter LA.

Front Physiol. 2014 Jul 17;5:260. doi: 10.3389/fphys.2014.00260. eCollection 2014. Review.

22.

Cardiac alternans and intracellular calcium cycling.

Edwards JN, Blatter LA.

Clin Exp Pharmacol Physiol. 2014 Jul;41(7):524-32. doi: 10.1111/1440-1681.12231. Review.

23.

Urocortin 2 stimulates nitric oxide production in ventricular myocytes via Akt- and PKA-mediated phosphorylation of eNOS at serine 1177.

Walther S, Pluteanu F, Renz S, Nikonova Y, Maxwell JT, Yang LZ, Schmidt K, Edwards JN, Wakula P, Groschner K, Maier LS, Spiess J, Blatter LA, Pieske B, Kockskämper J.

Am J Physiol Heart Circ Physiol. 2014 Sep 1;307(5):H689-700. doi: 10.1152/ajpheart.00694.2013. Epub 2014 Jul 11.

24.

Calcium and IP3 dynamics in cardiac myocytes: experimental and computational perspectives and approaches.

Hohendanner F, McCulloch AD, Blatter LA, Michailova AP.

Front Pharmacol. 2014 Mar 6;5:35. doi: 10.3389/fphar.2014.00035. eCollection 2014. Review.

25.

NFAT transcription factor regulation by urocortin II in cardiac myocytes and heart failure.

Walther S, Awad S, Lonchyna VA, Blatter LA.

Am J Physiol Heart Circ Physiol. 2014 Mar;306(6):H856-66. doi: 10.1152/ajpheart.00353.2013. Epub 2014 Jan 17.

26.

Spatially defined InsP3-mediated signaling in embryonic stem cell-derived cardiomyocytes.

Kapoor N, Maxwell JT, Mignery GA, Will D, Blatter LA, Banach K.

PLoS One. 2014 Jan 7;9(1):e83715. doi: 10.1371/journal.pone.0083715. eCollection 2014.

27.

Ca(2+) release events in cardiac myocytes up close: insights from fast confocal imaging.

Shkryl VM, Blatter LA.

PLoS One. 2013 Apr 18;8(4):e61525. doi: 10.1371/journal.pone.0061525. Print 2013.

28.

β-adrenergic stimulation increases the intra-SR Ca termination threshold for spontaneous Ca waves in cardiac myocytes.

Maxwell JT, Domeier TL, Blatter LA.

Channels (Austin). 2013 May-Jun;7(3):206-10. doi: 10.4161/chan.24173. Epub 2013 Mar 19.

29.

Using two dyes with the same fluorophore to monitor cellular calcium concentration in an extended range.

Figueroa L, Shkryl VM, Blatter LA, Ríos E.

PLoS One. 2013;8(2):e55778. doi: 10.1371/journal.pone.0055778. Epub 2013 Feb 7.

30.

Mitochondria-mediated cardioprotection by trimetazidine in rabbit heart failure.

Dedkova EN, Seidlmayer LK, Blatter LA.

J Mol Cell Cardiol. 2013 Jun;59:41-54. doi: 10.1016/j.yjmcc.2013.01.016. Epub 2013 Feb 4.

31.

Effects of mitochondrial uncoupling on Ca(2+) signaling during excitation-contraction coupling in atrial myocytes.

Zima AV, Pabbidi MR, Lipsius SL, Blatter LA.

Am J Physiol Heart Circ Physiol. 2013 Apr 1;304(7):H983-93. doi: 10.1152/ajpheart.00932.2012. Epub 2013 Feb 1.

32.

Calcium signaling in cardiac mitochondria.

Dedkova EN, Blatter LA.

J Mol Cell Cardiol. 2013 May;58:125-33. doi: 10.1016/j.yjmcc.2012.12.021. Epub 2013 Jan 7. Review.

33.

Inorganic polyphosphate--an unusual suspect of the mitochondrial permeability transition mystery.

Seidlmayer LK, Blatter LA, Pavlov E, Dedkova EN.

Channels (Austin). 2012 Nov-Dec;6(6):463-7. doi: 10.4161/chan.21939. Epub 2012 Sep 18.

34.

Facilitation of cytosolic calcium wave propagation by local calcium uptake into the sarcoplasmic reticulum in cardiac myocytes.

Maxwell JT, Blatter LA.

J Physiol. 2012 Dec 1;590(23):6037-45. doi: 10.1113/jphysiol.2012.239434. Epub 2012 Sep 17.

35.

β-Adrenergic stimulation increases the intra-sarcoplasmic reticulum Ca2+ threshold for Ca2+ wave generation.

Domeier TL, Maxwell JT, Blatter LA.

J Physiol. 2012 Dec 1;590(23):6093-108. doi: 10.1113/jphysiol.2012.236117. Epub 2012 Sep 17.

36.

Regulation of cardiac alternans by β-adrenergic signaling pathways.

Florea SM, Blatter LA.

Am J Physiol Heart Circ Physiol. 2012 Oct 15;303(8):H1047-56. doi: 10.1152/ajpheart.00384.2012. Epub 2012 Aug 17.

37.

Inorganic polyphosphate is a potent activator of the mitochondrial permeability transition pore in cardiac myocytes.

Seidlmayer LK, Gomez-Garcia MR, Blatter LA, Pavlov E, Dedkova EN.

J Gen Physiol. 2012 May;139(5):321-31. doi: 10.1085/jgp.201210788.

38.

Refractoriness of sarcoplasmic reticulum Ca2+ release determines Ca2+ alternans in atrial myocytes.

Shkryl VM, Maxwell JT, Domeier TL, Blatter LA.

Am J Physiol Heart Circ Physiol. 2012 Jun 1;302(11):H2310-20. doi: 10.1152/ajpheart.00079.2012. Epub 2012 Mar 30.

39.

Properties of Ca2+ sparks revealed by four-dimensional confocal imaging of cardiac muscle.

Shkryl VM, Blatter LA, Ríos E.

J Gen Physiol. 2012 Mar;139(3):189-207. doi: 10.1085/jgp.201110709. Epub 2012 Feb 13.

40.

Synthetic localized calcium transients directly probe signalling mechanisms in skeletal muscle.

Figueroa L, Shkryl VM, Zhou J, Manno C, Momotake A, Brum G, Blatter LA, Ellis-Davies GC, Ríos E.

J Physiol. 2012 Mar 15;590(6):1389-411. doi: 10.1113/jphysiol.2011.225854. Epub 2012 Feb 6.

41.

A novel method for spatially complex diffraction-limited photoactivation and photobleaching in living cells.

Shkryl VM, Maxwell JT, Blatter LA.

J Physiol. 2012 Mar 1;590(5):1093-100. doi: 10.1113/jphysiol.2011.223446. Epub 2011 Dec 19.

42.

Dantrolene prevents arrhythmogenic Ca2+ release in heart failure.

Maxwell JT, Domeier TL, Blatter LA.

Am J Physiol Heart Circ Physiol. 2012 Feb 15;302(4):H953-63. doi: 10.1152/ajpheart.00936.2011. Epub 2011 Dec 16.

43.

Regulation of sarcoplasmic reticulum Ca²⁺ leak by cytosolic Ca²⁺ in rabbit ventricular myocytes.

Bovo E, Mazurek SR, Blatter LA, Zima AV.

J Physiol. 2011 Dec 15;589(Pt 24):6039-50. doi: 10.1113/jphysiol.2011.214171. Epub 2011 Oct 10.

44.

Measuring mitochondrial function in intact cardiac myocytes.

Dedkova EN, Blatter LA.

J Mol Cell Cardiol. 2012 Jan;52(1):48-61. doi: 10.1016/j.yjmcc.2011.08.030. Epub 2011 Sep 22. Review.

45.

Single ryanodine receptor channel basis of caffeine's action on Ca2+ sparks.

Porta M, Zima AV, Nani A, Diaz-Sylvester PL, Copello JA, Ramos-Franco J, Blatter LA, Fill M.

Biophys J. 2011 Feb 16;100(4):931-8. doi: 10.1016/j.bpj.2011.01.017.

46.

Dynamic calcium movement inside cardiac sarcoplasmic reticulum during release.

Picht E, Zima AV, Shannon TR, Duncan AM, Blatter LA, Bers DM.

Circ Res. 2011 Apr 1;108(7):847-56. doi: 10.1161/CIRCRESAHA.111.240234. Epub 2011 Feb 10.

47.

Ca²+ spark-dependent and -independent sarcoplasmic reticulum Ca²+ leak in normal and failing rabbit ventricular myocytes.

Zima AV, Bovo E, Bers DM, Blatter LA.

J Physiol. 2010 Dec 1;588(Pt 23):4743-57. doi: 10.1113/jphysiol.2010.197913. Epub 2010 Oct 20.

48.

Activation of NFATc1 is directly mediated by IP3 in adult cardiac myocytes.

Rinne A, Blatter LA.

Am J Physiol Heart Circ Physiol. 2010 Nov;299(5):H1701-7. doi: 10.1152/ajpheart.00470.2010. Epub 2010 Sep 17.

49.

A fluorescence-based assay to monitor transcriptional activity of NFAT in living cells.

Rinne A, Blatter LA.

J Physiol. 2010 Sep 1;588(Pt 17):3211-6. doi: 10.1113/jphysiol.2010.192419. Epub 2010 Jul 12.

50.

The IP3 receptor regulates cardiac hypertrophy in response to select stimuli.

Nakayama H, Bodi I, Maillet M, DeSantiago J, Domeier TL, Mikoshiba K, Lorenz JN, Blatter LA, Bers DM, Molkentin JD.

Circ Res. 2010 Sep 3;107(5):659-66. doi: 10.1161/CIRCRESAHA.110.220038. Epub 2010 Jul 8.

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