Load-Induced Growth Responses in Isolated Adult Rat Hearts

Selective glycolytic inhibition (GI) promotes electromechanical alternans and triggered beats in isolated cardiac myocytes. We sought to determine whether GI promotes triggered activity by early afterdepolarization (EAD) or delayed afterdepolarizations in intact hearts isolated from adult and aged rats. Dual voltage and intracellular calcium ion (Cai2+) fluorescent optical maps and single cell glass microelectrode recordings were made from the left ventricular (LV) epicardium of isolated Langendorff-perfused adult (∼4 mo) and aged (∼24 mo) rat hearts. GI was induced by replacing glucose with 10 mM pyruvate in oxygenated Tyrode's. Within 20 min, GI slowed Cai2+ transient decline rate and shortened action potential duration in both groups. These changes were associated with ventricular fibrillation (VF) in the aged hearts (64 out of 66) but not in adult hearts (0 out of 18; P < 0.001). VF was preceded by a transient period of focal ventricular tachycardia caused by EAD-mediated triggered activity leading to VF within seconds. The VF was suppressed by the ATP-sensitive K (KATP) channel blocker glibenclamide (1 μM) but not (0 out of 7) by mitochondrial KATP block. The Ca-calmodulin-dependent protein kinase II (CaMKII) blocker KN-93 (1 μM) prevented GI-mediated VF ( P < 0.05). Block of Na-Ca exchanger (NCX) by SEA0400 (2 μM) prevented GI-mediated VF (3 out of 6), provided significant bradycardia did not occur. Aged hearts had significantly greater LV fibrosis and reduced connexin 43 than adult hearts ( P < 0.05). We conclude that in aged fibrotic unlike in adult rat hearts, GI promotes EADs, triggered activity, and VF by activation of KATP channels CaMKII and NCX.

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Effect of thyroid status on thin-filament Ca2+ regulation and expression of troponin I in perinatal and adult rat hearts.

Circulation Research ◽

10.1161/01.res.67.2.344 ◽

1990 ◽

Vol 67 (2) ◽

pp. 344-351 ◽

Cited By ~ 25

Author(s):

L J Dieckman ◽

R J Solaro

Keyword(s):

Thin Filament ◽

Troponin I ◽

Thyroid Status ◽

Adult Rat ◽

Rat Hearts

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Quantitative comparison of sarcomeric phosphoproteomes of neonatal and adult rat hearts

AJP Heart and Circulatory Physiology ◽

10.1152/ajpheart.00357.2008 ◽

2008 ◽

Vol 295 (2) ◽

pp. H647-H656 ◽

Cited By ~ 36

Author(s):

Chao Yuan ◽

Quanhu Sheng ◽

Haixu Tang ◽

Yixue Li ◽

Rong Zeng ◽

...

Keyword(s):

Protein Phosphorylation ◽

Ion Trap ◽

Physiological State ◽

Phosphorylation Site ◽

Mass Spectrometry Analysis ◽

Specific Staining ◽

Spectrometry Analysis ◽

Sarcomeric Protein ◽

Adult Rat ◽

Rat Hearts

Neonatal hearts respond to stress and function in an environment quite different from adult hearts. There is evidence that these functional differences not only reflect modifications in the abundance and isoforms of sarcomeric proteins but also in the modulation of sarcomeric protein phosphorylation. Yet our understanding of changes in sarcomeric protein phosphorylation in development is incomplete. In the experiments reported here, we first quantified the intact sarcomeric protein phosphorylation status between neonatal and adult rat hearts by employing comparative two-dimensional (2-D) gel electrophoresis in conjunction with phosphoprotein-specific staining. Subsequently, we measured phosphorylation changes at the peptide level by employing high-resolution linear ion trap-Fourier transform (LTQ-FT) mass spectrometry analysis of titanium dioxide-enriched phosphopeptides differentially labeled with 16O/18O during in-gel digestion. We also employed Western blot analysis using phosphorylation site-specific antibodies to measure phosphorylation changes. Our data demonstrated the novel finding that phosphorylation levels of myosin-binding protein C (MyBP-C) at Ser295 and Ser315 as well as tropomyosin at Ser283 increased, whereas phosphorylation levels of MyBP-C at Ser320 and myosin light chain 2 at Ser15 decreased in neonatal hearts compared with the same sites in adult hearts. Although our data highlight the significant challenges in understanding relations between protein phosphorylation and cardiac function, they do support the hypothesis that developmental changes in the modulation of protein are functionally significant and correlate with the prevailing physiological state.

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Characteristics of the second inward current in cells isolated from rat ventricular muscle

Proceedings of the Royal Society of London Series B Biological Sciences ◽

10.1098/rspb.1983.0084 ◽

1983 ◽

Vol 219 (1217) ◽

pp. 447-469 ◽

Cited By ~ 59

Keyword(s):

Single Cells ◽

External Solution ◽

Maximum Level ◽

Charge Carriers ◽

Ventricular Muscle ◽

Inward Current ◽

Adult Rat ◽

Time To Peak ◽

Rat Hearts ◽

Steady Level

The second inward current ( I si ) in single cells isolated from ventricular muscle of adult rat hearts was measured in response to step depolarizations under voltage-clamp conditions. The major ion carrying this current was Ca, and I si was reduced or abolished by Mn, Ni, Cd, nifedipine, nimodipine and D600. Sr and Ba could substitute for Ca as charge carriers, and reduced the rate of apparent inactivation of I si . These effects of Sr and Ba, together with the relation between the steady level of apparent inactivation and membrane potential in Ca containing solution, were taken as evidence that inactivation was at least in part dependent on internal Ca. The reduction of external Na to 11% of normal caused a reduction in peak I si when Ca was present in the external solution, but did not reduce I si when Ca was replaced by Sr. It therefore seems unlikely that Na is a major charge carrier I si under the conditions of our experiments. The time-to-peak and rate of apparent inactivation of I si were faster than in previous studies that used multicellular preparations. Both the kinetics and peak amplitude of I si were markedly dependent on temperature ( Q 10 close to 3). Contraction of the cells, which was monitored optically, was initiated within 3 ms of the peak I si , reached a maximum level after approximately 40–50 ms, and was about 100 ms in duration.

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Does Angiotensin II Accelerate Protein Synthesis in Adult Rat Hearts?

New Aspects in the Treatment of Failing Heart ◽

10.1007/978-4-431-68219-6_46 ◽

1992 ◽

pp. 220-222

Author(s):

Takashi Haneda ◽

Jun Fukuzawa ◽

Setsuya Miyata ◽

Junzo Osaki ◽

Yasuhiro Nakamura ◽

...

Keyword(s):

Protein Synthesis ◽

Angiotensin Ii ◽

Adult Rat ◽

Rat Hearts

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Cardiac myocyte stiffness following extraction with detergent and high salt solutions

AJP Heart and Circulatory Physiology ◽

10.1152/ajpheart.1986.250.6.h932 ◽

1986 ◽

Vol 250 (6) ◽

pp. H932-H943 ◽

Cited By ~ 1

Author(s):

A. J. Brady ◽

S. P. Farnsworth

Keyword(s):

Cardiac Myocyte ◽

Cell Length ◽

Cell Stiffness ◽

Control Solution ◽

Thin Filaments ◽

Adult Rat ◽

Rat Hearts ◽

Length Constant ◽

Triton X ◽

Exponential Relation

Myocytes were prepared from enzymatically digested adult rat hearts and attached to concentric double-barreled suction micropipettes. Myocyte stiffness was calculated as the ratio of the oscillatory tension-to-strain amplitude, where the strain was produced by an applied 5-Hz perturbation. Stiffness, as a function of cell length, was measured in relaxing solution (pCa = 9) as the control solution, 0.5% Triton X-100 detergent, 0.47 M KCl, and 0.6 M KI. Ultrastructure of unattached cells in each solution is illustrated with electron micrographs. The dependence of cell stiffness on cell length was described by an exponential relation with a length constant that increased slightly in detergent, whereas the stiffness at control length appeared to fall. The major fall in absolute stiffness occurred with myosin extraction in KCl. Both the stiffness at control length and the slope of the ln stiffness-to-length relation declined with the disappearance of the A band. A further, but smaller, decline of stiffness occurred with KI extraction of the thin filaments. A highly compliant "ghost" remained after KI extraction but the stiffness-to-length relation was still measurable. The fall in stiffness with myosin extraction is discussed in relation to cytoskeletal filaments (titin, nebulin, and intermediate filaments.

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Autophagy and protein kinase C are required for cardioprotection by sulfaphenazole

AJP Heart and Circulatory Physiology ◽

10.1152/ajpheart.00716.2009 ◽

2010 ◽

Vol 298 (2) ◽

pp. H570-H579 ◽

Cited By ~ 58

Author(s):

Chengqun Huang ◽

Wayne Liu ◽

Cynthia N. Perry ◽

Smadar Yitzhaki ◽

Youngil Lee ◽

...

Keyword(s):

Protein Kinase C ◽

Protein Kinase ◽

Enhanced Recovery ◽

Ischemia Reperfusion ◽

Dominant Negative ◽

Rat Cardiomyocytes ◽

Adult Rat ◽

Kinase C ◽

Rat Hearts

Previously, we showed that sulfaphenazole (SUL), an antimicrobial agent that is a potent inhibitor of cytochrome P4502C9, is protective against ischemia-reperfusion (I/R) injury (Ref. 15 ). The mechanism, however, underlying this cardioprotection, is largely unknown. With evidence that activation of autophagy is protective against simulated I/R in HL-1 cells, and evidence that autophagy is upregulated in preconditioned hearts, we hypothesized that SUL-mediated cardioprotection might resemble ischemic preconditioning with respect to activation of protein kinase C and autophagy. We used the Langendorff model of global ischemia to assess the role of autophagy and protein kinase C in myocardial protection by SUL during I/R. We show that SUL enhanced recovery of function, reduced creatine kinase release, decreased infarct size, and induced autophagy. SUL also triggered PKC translocation, whereas inhibition of PKC with chelerythrine blocked the activation of autophagy in adult rat cardiomyocytes. In the Langendorff model, chelerythrine suppressed autophagy and abolished the protection mediated by SUL. SUL increased autophagy in adult rat cardiomyocytes infected with GFP-LC3 adenovirus, in isolated perfused rat hearts, and in mCherry-LC3 transgenic mice. To establish the role of autophagy in cardioprotection, we used the cell-permeable dominant-negative inhibitor of autophagy, Tat-Atg5K130R. Autophagy and cardioprotection were abolished in rat hearts perfused with recombinant Tat-Atg5K130R. Taken together, these studies indicate that cardioprotection mediated by SUL involves a PKC-dependent induction of autophagy. The findings suggest that autophagy may be a fundamental process that enhances the heart's tolerance to ischemia.

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