Correlations between alterations in length-dependent Ca2+ activation of cardiac myofilaments and the end-systolic pressure–volume relation

详细信息    查看全文

• 作者：Grzegorz Nowak (1)
  James R. Pe?a (1)
  Dalia Urboniene (2)
  David L. Geenen (1)
  R. John Solaro (2)
  Beata M. Wolska (1) (2)
  
• 关键词：Length ; dependent activation ; Frank–Starling law ; Pressure–volume relation
• 刊名：Journal of Muscle Research and Cell Motility
• 出版年：2007
• 出版时间：October 2007
• 年：2007
• 卷：28
• 期：7-8
• 页码：415-419
• 全文大小：321KB
• 参考文献：1. Arteaga GM, Palmiter KA, Leiden JM, Solaro RJ (2000) Attenuation of length dependence of calcium activation in myofilaments of transgenic mouse hearts expressing slow skeletal troponin I. J Physiol 526:541-49 CrossRef
  2. Cazorla O, Wu Y, Irving TC, Granzier H (2001) Titin-based modulation of calcium sensitivity of active tension in mouse skinned cardiac myocytes. Circ Res 88:1028-035 CrossRef
  3. Evans CC, Pena JR, Phillips RM, Muthuchamy M, Wieczorek DF, Solaro RJ, Wolska BM (2000) Altered hemodynamics in transgenic mice harboring mutant tropomyosin linked to hypertrophic cardiomyopathy. Am J Physiol 279:H2414–H2423
  4. Feldman MD, Erikson JM, Mao Y, Korcarz CE, Lang RM, Freeman GL (2000) Validation of a mouse conductance system to determine LV volume: comparison to echocardiography and crystals. Am J Physiol Heart Circ Physiol 279:H1698–H1707
  5. Fentzke RC, Buck SH, Patel JR, Lin H, Wolska BM, Stojanovic MO, Martin AF, Solaro RJ, Moss RL, Leiden JM (1999) Impaired cardiomyocyte relaxation and diastolic function in transgenic mice expressing slow skeletal troponin I in the heart. J Physiol 517:143-57 CrossRef
  6. Fukuda N, Sasaki D, Ishiwata S, Kurihara S (2001) Length dependence of tension generation in rat skinned cardiac muscle: role of titin in the Frank–Starling mechanism of the heart. Circulation 104:1639-645 CrossRef
  7. Goldspink PH, Montgomery DE, Walker LA, Urboniene D, McKinney RD, Geenen DL, Solaro RJ, Buttrick PM (2004) Protein kinase Cε overexpression alters myofilament properties and composition during the progression of heart failure. Circ Res 95:424-32 CrossRef
  8. Hoit BD (2002) Echocardiographic assessment of the mouse heart and aorta. In Hoit BD, Walsh RA (eds) Cardiovascular physiology in the genetically engineered mouse. Kluwer Academic Publishers, Boston/Dordrecht/London, pp 177-90
  9. Irving TC, Konhilas J, Perry D, Fischetti R, de Tombe PP (2000) Myofilament lattice spacing as a function of sarcomere length in isolated rat myocardium. Am J Physiol Heart Circ Physiol 279:H2568–H2573
  10. Kajiwara H, Morimoto S, Fukuda N, Ohtsuki I, Kurihara S (2000) Effect of troponin I phosphorylation by protein kinase A on length-dependence of tension activation in skinned cardiac muscle fibers. Biochem Biophys Res Commun 272:104-10 CrossRef
  11. Komukai K, Kurihara S (1997) Length dependence of Ca(2+)-tension relationship in aequorin-injected ferret papillary muscles. Am J Physiol 273:H1068–H1074
  12. Konhilas JP, Irving TC, de Tombe PP (2002) Length-dependent activation in three striated muscle types of the rat. J Physiol 544:225-36 CrossRef
  13. Konhilas JP, Irving TC, Wolska BM, Jweied EE, Martin AF, Solaro RJ, Tombe PP (2003) Troponin I in the murine myocardium: influence on length-dependent activation and interfilament spacing. J Physiol 547:951-61 CrossRef
  14. Layland J, Grieve DJ, Cave AC, Sparks E, Solaro RJ, Shah AM (2004) Essential role of troponin I in the positive inotropic response to isoprenaline in mouse hearts contracting auxotonically. J Physiol 556:835-47 CrossRef
  15. Lorenz JN, Kranias EG (1997) Regulatory effects of phospholamban on cardiac function in intact mice. Am J Physiol 273:H2826–H2831
  16. Pena JR, Wolska BM (2004) Troponin I phosphorylation plays an important role in the relaxant effect of β-adrenergic stimulation in mouse hearts. Cardiovasc Res 61:756-63 CrossRef
  17. Pyle WG, Solaro RJ (2004) At the crossroads of myocardial signaling: the role of Z-discs in intracellular signaling and cardiac function. Circ Res 94:296-05 CrossRef
  18. Solaro RJ (1999) Integration of myofilament response to Ca²⁺ with cardiac pump regulation and pump dynamics. Am J Physiol 277:S155–S163
  19. Urboniene D, Dias FA, Pena JR, Walker LA, Solaro RJ, Wolska BM (2005) Expression of slow skeletal troponin I in adult mouse heart helps to maintain the left ventricular systolic function during respiratory hypercapnia. Circ Res 97:70-7 CrossRef
  20. Van der Velden J, de Jong VJW, Owen VJ, Burton PB, Stienen GJ (2000) Effect of protein kinase A on calcium sensitivity of force and its sarcomere length dependence in human cardiomyocytes. Cardiovasc Res 46:487-95
  21. Wolska BM, Arteaga GM, Pena JR, Nowak G, Phillips RM, Sahai S, de Tombe PP, Martin AF, Kranias EG, Solaro RJ (2002) Expression of slow skeletal troponin I in hearts of phospholamban knockout mice alters the relaxant effect of β-adrenergic stimulation. Circ Res 90:882-88 CrossRef
  
• 作者单位：Grzegorz Nowak (1)
  James R. Pe?a (1)
  Dalia Urboniene (2)
  David L. Geenen (1)
  R. John Solaro (2)
  Beata M. Wolska (1) (2)
  
  1. Department of Medicine, Section of Cardiology, Center for Cardiovascular Research, University of Illinois at Chicago, 840 S. Wood Street (M/C 715), Chicago, IL, 60612, USA
  2. Department of Physiology and Biophysics, Section of Cardiology, Center for Cardiovascular Research, University of Illinois at Chicago, Chicago, IL, 60612, USA
  

文摘

We have tested the hypothesis that alterations in length dependent activation (LDA) of cardiac myofilaments represent an important regulatory mechanism affecting the Frank–Starling mechanism as determined by the slope (Ees) of the relation between left ventricular (LV) volume and end-systolic pressure. We employed a transgenic (TG) mouse model in which the cardiac isoform of TnI (cTnI) has been completely replaced with slow skeletal TnI (ssTnI), the embryonic/neonatal isoform in the heart. Compared to non-transgenic (NTG) controls, myofilaments from TG–ssTnI hearts demonstrate an increase in Ca2+ sensitivity and a substantially blunted LDA that is unaffected by PKA-dependent phosphorylation. We measured in situ LV pressure and volume relations during basal conditions and isoproterenol (ISO) stimulation. In the basal state in TG–ssTnI hearts there was significant increase in end-systolic pressure and slight decrease in heart rate. ISO stimulation resulted in a significant increase in heart rate, ejection fraction, maximum dP/dt, preload-recruitable stroke work, maximum dP/dt versus end diastolic volume and cardiac output in both groups. During basal conditions there was no difference in the Ees relation between NTG and TG–ssTnI groups. However, during ISO stimulation the Ees relation was significantly different between NTG and TG–ssTnI groups. Our study provides the first direct evidence that enhancement in differences in LDA between cardiac myofilaments from NTG and TG–ssTnI hearts induced by post-translational modifications of sarcomeric proteins are reflected in the in situ beating heart by a different change in Ees. Thus, changes in LDA should be considered in interpreting results from in situ experiments on inotropic effects associated with physiological and patho-physiological states of the heart.