N‐terminal phosphorylation of cardiac troponin‐I reduces length‐dependent calcium sensitivity of contraction in cardiac muscle. (10th December 2012)
- Record Type:
- Journal Article
- Title:
- N‐terminal phosphorylation of cardiac troponin‐I reduces length‐dependent calcium sensitivity of contraction in cardiac muscle. (10th December 2012)
- Main Title:
- N‐terminal phosphorylation of cardiac troponin‐I reduces length‐dependent calcium sensitivity of contraction in cardiac muscle
- Authors:
- Rao, Vijay S.
Korte, F. Steven
Razumova, Maria V.
Feest, Erik R.
Hsu, Hsiaoman
Irving, Thomas C.
Regnier, Michael
Martyn, Donald A. - Abstract:
- Key points: β‐Adrenergic stimulation is an important control mechanism, matching cardiac output to venous return during increased metabolic demand. β‐Adrenergic signalling leads to protein kinase A (PKA) phosphorylation of myofilament proteins cardiac troponin I (cTnI), cardiac myosin binding protein‐C (cMyBP‐C) and titin, but their specific effects on the sarcomeric length (SL) dependence of contraction – which underlies the Frank–Starling Law of the Heart – is debated. Recombinant cTnI phosphomimetics were exchanged into cardiac muscle to isolate the effects of cTnI from those of cMyBP‐C/titin phosphorylation on SL‐dependent force–Ca 2+ relations and sarcomeric structure. Results suggest cTnI or cMyBP‐C/titin phosphorylation, separately or together, eliminate the SL dependence of Ca 2+ sensitivity of force, but not maximal force. The reduction occurs particularly at long SL, suggesting effects on thin filament access and crossbridge recruitment. The net effect of PKA phosphorylation is to blunt SL dependence of force at submaximal [Ca 2+ ] to maintain elevated systolic function. Abstract Protein kinase A (PKA) phosphorylation of myofibrillar proteins constitutes an important pathway for β‐adrenergic modulation of cardiac contractility. In myofilaments PKA targets troponin I (cTnI), myosin binding protein‐C (cMyBP‐C) and titin. We studied how this affects the sarcomere length (SL) dependence of force– p Ca relations in demembranated cardiac muscle. To distinguishKey points: β‐Adrenergic stimulation is an important control mechanism, matching cardiac output to venous return during increased metabolic demand. β‐Adrenergic signalling leads to protein kinase A (PKA) phosphorylation of myofilament proteins cardiac troponin I (cTnI), cardiac myosin binding protein‐C (cMyBP‐C) and titin, but their specific effects on the sarcomeric length (SL) dependence of contraction – which underlies the Frank–Starling Law of the Heart – is debated. Recombinant cTnI phosphomimetics were exchanged into cardiac muscle to isolate the effects of cTnI from those of cMyBP‐C/titin phosphorylation on SL‐dependent force–Ca 2+ relations and sarcomeric structure. Results suggest cTnI or cMyBP‐C/titin phosphorylation, separately or together, eliminate the SL dependence of Ca 2+ sensitivity of force, but not maximal force. The reduction occurs particularly at long SL, suggesting effects on thin filament access and crossbridge recruitment. The net effect of PKA phosphorylation is to blunt SL dependence of force at submaximal [Ca 2+ ] to maintain elevated systolic function. Abstract Protein kinase A (PKA) phosphorylation of myofibrillar proteins constitutes an important pathway for β‐adrenergic modulation of cardiac contractility. In myofilaments PKA targets troponin I (cTnI), myosin binding protein‐C (cMyBP‐C) and titin. We studied how this affects the sarcomere length (SL) dependence of force– p Ca relations in demembranated cardiac muscle. To distinguish cTnI from cMyBP‐C/titin phosphorylation effects on the force– p Ca relationship, endogenous troponin (Tn) was exchanged in rat ventricular trabeculae with either wild‐type (WT) Tn, non‐phosphorylatable cTnI (S23/24A) Tn or phosphomimetic cTnI (S23/24D) Tn. PKA cannot phosphorylate either cTnI S23/24 variant, leaving cMyBP‐C/titin as PKA targets. Force was measured at 2.3 and 2.0 μm SL. Decreasing SL reduced maximal force ( F max ) and Ca 2+ sensitivity of force ( p Ca50 ) similarly with WT and S23/24A trabeculae. PKA treatment of WT and S23/24A trabeculae reduced p Ca50 at 2.3 but not at 2.0 μm SL, thus eliminating the SL dependence of p Ca50 . In contrast, S23/24D trabeculae reduced p Ca50 at both SL values, primarily at 2.3 μm, also eliminating SL dependence of p Ca50 . Subsequent PKA treatment moderately reduced p Ca50 at both SLs. At each SL, F max was unaffected by either Tn exchange and/or PKA treatment. Low‐angle X‐ray diffraction was performed to determine whether p Ca50 shifts were associated with changes in myofilament spacing ( d 1, 0 ) or thick–thin filament interaction. PKA increased d 1, 0 slightly under all conditions. The ratios of the integrated intensities of the equatorial X‐ray reflections ( I 1, 1 / I 1, 0 ) indicate that PKA treatment increased crossbridge proximity to thin filaments under all conditions. The results suggest that phosphorylation by PKA of either cTnI or cMyBP‐C/titin independently reduces the p Ca50 preferentially at long SL, possibly through reduced availability of thin filament binding sites (cTnI) or altered crossbridge recruitment (cMyBP‐C/titin). Preferential reduction of p Ca50 at long SL may not reduce cardiac output during periods of high metabolic demand because of increased intracellular Ca 2+ during β‐adrenergic stimulation. … (more)
- Is Part Of:
- Journal of physiology. Volume 591:Number 2(2013)
- Journal:
- Journal of physiology
- Issue:
- Volume 591:Number 2(2013)
- Issue Display:
- Volume 591, Issue 2 (2013)
- Year:
- 2013
- Volume:
- 591
- Issue:
- 2
- Issue Sort Value:
- 2013-0591-0002-0000
- Page Start:
- 475
- Page End:
- 490
- Publication Date:
- 2012-12-10
- Subjects:
- Physiology -- Periodicals
612.005 - Journal URLs:
- http://jp.physoc.org/ ↗
http://onlinelibrary.wiley.com/ ↗ - DOI:
- 10.1113/jphysiol.2012.241604 ↗
- Languages:
- English
- ISSNs:
- 0022-3751
- Deposit Type:
- Legaldeposit
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- Available online (eLD content is only available in our Reading Rooms) ↗
- Physical Locations:
- British Library DSC - 5039.000000
British Library DSC - BLDSS-3PM
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