Novel insights on the relationship between T-tubular defects and contractile dysfunction in a mouse model of hypertrophic cardiomyopathy. (February 2016)
- Record Type:
- Journal Article
- Title:
- Novel insights on the relationship between T-tubular defects and contractile dysfunction in a mouse model of hypertrophic cardiomyopathy. (February 2016)
- Main Title:
- Novel insights on the relationship between T-tubular defects and contractile dysfunction in a mouse model of hypertrophic cardiomyopathy
- Authors:
- Crocini, C.
Ferrantini, C.
Scardigli, M.
Coppini, R.
Mazzoni, L.
Lazzeri, E.
Pioner, J.M.
Scellini, B.
Guo, A.
Song, L.S.
Yan, P.
Loew, L.M.
Tardiff, J.
Tesi, C.
Vanzi, F.
Cerbai, E.
Pavone, F.S.
Sacconi, L.
Poggesi, C. - Abstract:
- Abstract: Abnormalities of cardiomyocyte Ca 2 + homeostasis and excitation–contraction (E–C) coupling are early events in the pathogenesis of hypertrophic cardiomyopathy (HCM) and concomitant determinants of the diastolic dysfunction and arrhythmias typical of the disease. T-tubule remodelling has been reported to occur in HCM but little is known about its role in the E–C coupling alterations of HCM. Here, the role of T-tubule remodelling in the electro-mechanical dysfunction associated to HCM is investigated in the Δ160E cTnT mouse model that expresses a clinically-relevant HCM mutation. Contractile function of intact ventricular trabeculae is assessed in Δ160E mice and wild-type siblings. As compared with wild-type, Δ160E trabeculae show prolonged kinetics of force development and relaxation, blunted force-frequency response with reduced active tension at high stimulation frequency, and increased occurrence of spontaneous contractions. Consistently, prolonged Ca 2 + transient in terms of rise and duration are also observed in Δ160E trabeculae and isolated cardiomyocytes. Confocal imaging in cells isolated from Δ160E mice reveals significant, though modest, remodelling of T-tubular architecture. A two-photon random access microscope is employed to dissect the spatio-temporal relationship between T-tubular electrical activity and local Ca 2 + release in isolated cardiomyocytes. In Δ160E cardiomyocytes, a significant number of T-tubules (> 20%) fails to propagate actionAbstract: Abnormalities of cardiomyocyte Ca 2 + homeostasis and excitation–contraction (E–C) coupling are early events in the pathogenesis of hypertrophic cardiomyopathy (HCM) and concomitant determinants of the diastolic dysfunction and arrhythmias typical of the disease. T-tubule remodelling has been reported to occur in HCM but little is known about its role in the E–C coupling alterations of HCM. Here, the role of T-tubule remodelling in the electro-mechanical dysfunction associated to HCM is investigated in the Δ160E cTnT mouse model that expresses a clinically-relevant HCM mutation. Contractile function of intact ventricular trabeculae is assessed in Δ160E mice and wild-type siblings. As compared with wild-type, Δ160E trabeculae show prolonged kinetics of force development and relaxation, blunted force-frequency response with reduced active tension at high stimulation frequency, and increased occurrence of spontaneous contractions. Consistently, prolonged Ca 2 + transient in terms of rise and duration are also observed in Δ160E trabeculae and isolated cardiomyocytes. Confocal imaging in cells isolated from Δ160E mice reveals significant, though modest, remodelling of T-tubular architecture. A two-photon random access microscope is employed to dissect the spatio-temporal relationship between T-tubular electrical activity and local Ca 2 + release in isolated cardiomyocytes. In Δ160E cardiomyocytes, a significant number of T-tubules (> 20%) fails to propagate action potentials, with consequent delay of local Ca 2 + release. At variance with wild-type, we also observe significantly increased variability of local Ca 2 + transient rise as well as higher Ca 2 + -spark frequency. Although T-tubule structural remodelling in Δ160E myocytes is modest, T-tubule functional defects determine non-homogeneous Ca 2 + release and delayed myofilament activation that significantly contribute to mechanical dysfunction. Highlights: Contraction and Ca 2 + transient kinetics are impaired in myocardial preparations from mice carrying the cardiac troponin T ∆ 160E mutation. T-tubules architecture is mildly altered in ∆160E cardiomyocytes. 20% of T-tubules fail to propagate action potential and produce delay of local Ca 2 + rise. Higher spatio-temporal variability of local Ca 2 + rise and increased Ca 2 + sparks frequency are found in ∆160E cardiomyocytes. … (more)
- Is Part Of:
- Journal of molecular and cellular cardiology. Volume 91(2016:Feb.)
- Journal:
- Journal of molecular and cellular cardiology
- Issue:
- Volume 91(2016:Feb.)
- Issue Display:
- Volume 91 (2016)
- Year:
- 2016
- Volume:
- 91
- Issue Sort Value:
- 2016-0091-0000-0000
- Page Start:
- 42
- Page End:
- 51
- Publication Date:
- 2016-02
- Subjects:
- TATS Transverse-axial tubular system -- AP Action potential -- E–C Excitation–contraction -- HF Heart failure -- HCM Hypertrophic cardiomyopathy -- cTnT Cardiac troponin T -- VSD Voltage sensitive dye -- AOD Acousto-optic deflector -- RAMP Random access multi-photon -- SS Surface sarcolemma -- TT T-tubule -- S/N Signal-to-noise ratio -- AP + Electrically coupled T-tubules -- AP − Failing T-tubules -- TTP Time-to-peak -- CaT50 Time of 50% Ca2 + decay
Hypertrophic cardiomyopathy -- T-tubules -- Excitation–contraction coupling -- Imaging -- Non-linear microscopy
Cardiology -- Periodicals
Heart Diseases -- Periodicals
Molecular Biology -- Periodicals
Cardiologie -- Périodiques
Cardiology
Electronic journals
Periodicals
616.12 - Journal URLs:
- http://www.sciencedirect.com/science/journal/00222828 ↗
http://www.clinicalkey.com/dura/browse/journalIssue/00222828 ↗
http://www.clinicalkey.com.au/dura/browse/journalIssue/00222828 ↗
http://www.elsevier.com/journals ↗ - DOI:
- 10.1016/j.yjmcc.2015.12.013 ↗
- Languages:
- English
- ISSNs:
- 0022-2828
- Deposit Type:
- Legaldeposit
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- Available online (eLD content is only available in our Reading Rooms) ↗
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- British Library DSC - 5020.690000
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