Changes in composition of cardiac myosin light chains in dilated cardiomyopathy: effect on functional properties

A reduction (by 16-24%) in the amount of myosin regulatory light chains (LC2) in all heart sections of patients with dilated cardiomyopathy was found. The appearance of atrial essential light chains in ventricular myosin (up to 23%) not typical for this heart section in norm was also revealed. The decrease in LC2 content leads to a considerable inhibition of actin-activated ATPase activity and a loss of Ca2+ sensitivity of reconstructed filaments of myosin isolated from atria and ventricles of patients with dilated cardiomyopathy. The hybridization of myosin molecules from heavy chains of pathological human left ventricular myosin and light chains of pig left ventricular myosin leads to an increase in actin-activated ATPase activity of myosin and its Ca2+ sensitivity to the control level. The data suggest strongly the contribution of LC2-deficit to the distortion of functional properties of myosin in dilated cardiomyopathy. In contrast, the appearance of atrial LC1 in ventricle in dilated cardiomyopathy is a factor improving these properties.     

Reconstitution of ventricular myosin with atrial light chains 1 improves its functional properties

Atrial light chain 1 (ALC-1) is expressed in embryonic and hypertrophied human ventricles but not in normal adult human ventricles. We investigated the effects of recombinant human atrial light chains (hALC-1) on the structure and enzymatic activity of synthetic filaments of ventricular myosin. The endogenous ventricular myosin light chain 1 (VLC-1) was partially replaced by recombinant hALC-1 yielding hALC-1 levels of 12%, 24% and 42%. This reconstitution of ventricular myosin with hALC-1 did not change the length of synthetic myosin filaments but led to more rounded myosin heads in comparison with those of control filaments. Actin-activated ATPase activity of myosin, a parameter of functional activity of molecular motor, amounted to 79.5 nmol Pi/mg per min in control myosin filaments. Reconstitution with hALC-1 caused a profound increase of the actin-activated myosin ATPase activity in a dose dependent manner, for example, synthetic myosin filaments formed with 12%, 24% and 42% hALC-1 reconstituted myosin revealed the actin-activated ATPase activity increased by 18%, 26% and 36%, respectively, as compared to control. These results strongly suggest that in vivo expression of ALC-1 enhances ventricular myosin function, thereby contributing to cardiac compensation.     

A comparison of myosin light chain subunits in the atria and ventricles of mammals

An SDS-electrophoretic comparison of atrial and ventricular myosin light chain isotypes was performed in mouse, rat, rabbit, dog, pig, rhesus monkey, baboon, human and cow heart. Light chains 1 and 2 in atria and ventricles differed in all species with the possible exception of the rhesus monkey. Relative migration of atrial and ventricular LC-2 isotypes was similar in all species but LC-1 isotypes varied in relative migration rates suggesting increased primary sequence heterogeneity. Order of migration was VLC-1 less than ALC-1 less than ALC-2 less than VLC-2 in mouse, rat, rabbit, dog, baboon and cow and ALC-1 less than VLC-1 less than ALC-2 less than VLC-2 in pig and human heart. No obvious relationship existed between electrophoretic pattern and phylogenetic evolution.     

Isolation of cardiac myosin light-chain isotypes by chromatofocusing. Comparison of human cardiac atrial light-chain 1 and foetal ventricular light-chain 1

Cardiac myosin light chain isotypes have been resolved using chromatofocusing, a new preparative column chromatographic technique. The method relies on production of narrow-range, shallow and stable pH gradients using ion-exchange resins and buffers with even buffering capacity over the required pH range. Light chains were resolved in order of decreasing isoelectric point in the pH range 5.2-4.5. Gradients of delta pH = 0.004-0.006/ml elution volume were achieved which were capable of resolving light chains with isoelectric point differences of only 0.03. Analytical isoelectric focusing of light chains in polyacrylamide gels could be used to predict the results of preparative chromatofocusing for method development. Chromatofocusing was capable of resolving human and bovine cardiac light chain 1 and 2 subunits, atrial (ALC) and ventricular (VLC) light chain isotypes and homologous VLC-2 and VLC-2* light chains. The technique was used to purify and resolve the human foetal ventricular light chain 1 (FLC-1) from adult ventricular light chain 1 (VLC-1) present in foetal ventricles and the atrial light chain 1 (ALC-1) in adult atria. Comparative peptide mapping studies and amino acid analyses were carried out on FLC-1 and ALC-1. No differences were detected between FLC-1 and ALC-1 using three different proteases and amino acid compositions were similar with the exception of glycine content. The studies indicate that FLC-1 and ALC-1 are homologous, and possibly identical, light chains. Comparison of human FLC-1/ALC-1 with VLC-1 suggested marked structural and chemical differences in these light chain isotypes, in particular in the contents of methionine, proline, lysine and alanine residues. Differences in the contents of these residues were also apparent in the corresponding bovine atrial and ventricular light chains [Wikman-Coffelt, J. & Srivastava, S. (1979) FEBS Lett. 106, 207-212]. The latter three residues are known to be rich in the N-termini of cardiac and skeletal light chain 1 isotypes, an area that has been implicated in actin binding, suggesting that atrial and ventricular light chains may differ functionally in this region.     

Differential synthesis by cultured atrial and ventricular rat cardiac myocytes of myosin light chain isoforms

Dissociated cells from neonatal rat atria and ventricles were cultured in monolayers for 3 days. Newly synthesized 35S-methionine labeled myosin light chain isoforms ALC-1, ALC-2 (atrial) and VLC-1, VLC-2 (ventricular) were identified on 2D gels, and their pattern of synthesis was compared to that of myocard fragments immediately after explanation. ALCs were synthesized in 5- to 10-fold excess over VLCs by atrial cultures, whereas the converse was true for ventricular cultures, with two exceptions: one third of the LC-1 synthesized by ventricular fragments was ALC-1, and dissociated atrial cells synthesized very little LC-2 of either isoform. The former finding corresponds to the relatively high proportion of ALC-1 in neonatal ventricular tissue. We conclude that the regional programme of LC isoform expression is basically retained after tissue explantation and even after dissociation and culturing of cardiac myocytes.     

Comparative analyses of the kinetics and subunits of myosins from canine skeletal muscle and cardiac tissue.

Two types of canine cardiac myosins, myosin from the free wall of the right ventricle and the free wall of the left ventricle, were compared with canine skeletal muscle myosin from the gastrocnemius. The Vmax values for the ATPase reaction catalyzed by myosin were significantly different among the three types of tissues. For K+-activated myosin the Vmax values in micromoles of Pi per mg per min were: right ventricle, 0.57; left ventricle, 0.72; and gastrocnemius, 0.95. For Ca-2+ -activated myosin the Vmax values were: right ventricle, 0.32; left ventricle, 0.42; gastrocnemius, 0.50. All differences were significant (p smaller than 0.001). For all three types of tissues the Vmax values for NH4+ -activated myosin were the same (2.30). Light chains among all three types of tissues were immunologically identical, whereas the heavy chains of the two cardiac ventricles were immunologically identical with each other; however both were immunologically nonidentical with those of the gastrocnemius. The proportion of myosin light chains to heavy chains was different in the three types of tissue. Of the total protein present in each of the myosins, there was 18% in the light chains of right ventricle myosin, 10% in the light chains of left ventricle myosin, and 13% in the light chains of gastrocnemius. Both left ventricle myosin and myosin from gastrocnemius had significantly less C1d light chain, as compared to myosin from the right ventricle.     

A new cardiac myosin characterized from the canine atria.

Canine atrial myosin light chains were electrophoretically distinct from myosins of canine ventricles on 5–20% polyacrylamide gradient slab gels (SDS), giving molecular weights of 26,000 and 21,000 as compared to 28,000 and 18,500 for ventricular myosin light chains. While atrial myosin heavy chains were immunologically identical with ventricular myosin heavy chains, in contrast, there was 8.0% relative cross-reactivity of atrial myosin light chains with left ventricular myosin light chains by radioimunoassay. According to charge separation on two-dimensional polyacrylamide urea gels, atrial myosin light chains were different from those of ventricular myosins. Variances in ATPase activities between atrial and ventricular myosins were strongly demonstrated. There was a lower K⁺ activated ATPase activity in atrial myosin, however the Ca²⁺ activated ATPase activity, at ATP saturation levels, was higher in atrial myosin as compared to ventricular myosins.     

Changes in the composition of cardiac muscle myosin light chains during cardiac diseases

In this paper our data of the study on composition of human cardiac myosin light chains in norm and its changes at different stages of dilated cardiomyopathy and heart valvular diseases are presented. Functional role and diagnostic value of these changes are discussed.     

Changes in the composition of cardiac muscle myosin light chains during cardiac diseases

In this paper our data of the study on composition of human cardiac myosin light chains in norm and its changes at different stages of dilated cardiomyopathy and heart valvular diseases are presented. Functional role and diagnostic value of these changes are discussed.     

Canine cardiac myosin with special referrence to pressure overload cardiac hypertrophy. I. Subunit composition.

In studies of myosin from left and right ventricles of normal hearts and hypertrophic hearts at 5 weeks and 13 weeks after aortic banding, polyacrylamide gel electrophoresis shows intermediate molecular weight components which derive from heavy chains fragmented in the presence of dodecyl sulfate. The proportion of degraded heavy chains is greater in myosin from hypertrophic hearts than normal hearts, with comparable degradation in left and right ventricle myosin. The observed fragmentation of myosin results from proteolysis due to contaminant proteases or a thermally activated, heat-stable nonenzymatic process, or both. The susceptibility of heavy chains to crude myofibrillar proteases differs in normal and hypertrophic cardiac myosin; however, the kinetics of tryptic digestion are identical for both myosins. With precautions to minimize proteolytic artifacts on dodecyl sulfate-polyacrylamide gel electrophoresis, preparations of myosin from left and right ventricles of normal and hypertrophic hearts exhibit comparable subunit composition, with approximately molar ratios of heavy chains, light chain L1, and light chain L2. Comparable stoichiometry for the light chain fraction is determined by high speed sedimentation equilibrium at pH 11 and direct fractionation of the different cardiac myosins. We do not confirm reports (e.g. Wikman-Coffelt, J., Fenner, C., Smith, A., and Mason, D. T. (1975) J. Biol. Chem. 250, 1257-1262) of different proportions of light chains in left and right ventricle myosin of normal and hypertrophic canine hearts. The light chains display microheterogeneity, with L1 generating two isoelectric variants and L2 generating two major and two minor variants, but identical mobilities and isoelectric values are obtained in the different myosin preparations.     

Myosin light chains of skeletal and cardiac muscles of ground squirrel Citillus undulatus in different periods of hibernation

The isoform composition of myosin light chains and the extent of their phosphorylation in skeletal and cardiac muscles of ground squirrel Citellus undulatus in different periods of hibernation were studied. Regulatory myosin light chains of skeletal muscles of hibernating ground squirrels were completely dephosphorylated, while 25% of these light chains in active animals were phosphorylated. During hibernation, a shift of isoform composition of essential and regulatory skeletal muscle myosin light chains toward slower isoforms was observed, which is evidenced by the data obtained on m. psoas and on the totality of all skeletal muscles. In the atrial myocardium of hibernating ground squirrels, ventricular myosin light chains 1 (up to 60%) were registered. In contrast, during arousal of ground squirrels, in ventricular myocardium the appearance of atrial myosin light chains 1 (up to 30%) was revealed. A possible role of posttranslation changes in myosin light chains and their isoform shifts in the hibernation scenario is discussed.     

Myosin light chains of guinea-pig striated muscles. Similarities and differences with rat myosin light chains

1. Myosin light chains of guinea-pig striated muscles have been screened by two-dimensional gel electrophoresis and compared to rat myosin light chains. 2. The fast type light chains 1F and 3F, slow type light chains 1S and 2S, and embryonic type light chain 1E are shown to differ in the two rodents; only the fast type light chains 2F co-electrophorese on the gel. 3. In guinea-pig, as in rat, ventricle muscle light chains appear the same as the 1S and 2S light chains and atrial light chain type 1 the same as the 1E light chain. We show that this embryonic light chain of guinea-pig myosin is difficult to identify and may be confused with the adult 1F light chain.     

Human atrial and ventricular myosin light-chains subunits in the adult and during development.

1. Myosin was isolated from human right- and left-atrial and -ventricular myocardium, and examined both in adult subjects and at different stages during pre- and post-natal development. 2. The myosin light-chain subunits in the atria and ventricles were different when characterized by isoelectric focusing and subsequent two-dimensional poly-acrylamide-gel electrophoresis. 3. No differences were observed between the light-chain subunits in the right and left ventricle at any stage of development. 4. The foetal ventricle contained a characteristic light chain that was a major component throughout the latter half of gestation. This foetal light chain, which disappeared in the postnatal period, could not be distinguished from adult atrial light chain 1 on two-dimensional electrophoresis. 5. Myosin in the adult atria, particularly the left, contained components similar to ventricular light-chain components. 6. The possible stimuli for the observed changes in myosin light-chain expression are discussed in relation to the known physiological changes occurring during development.     

Immunological and biochemical evidence for atrial-like isomyosin in thyrotoxic rabbit ventricle

Immunological, structural and enzymatic characteristics of atrial and ventricular myosin from euthyroid rabbits were analyzed and compared with ventricular myosin from hyperthyroid animals. (1) Specific antibodies against bovine atrial myosin were found to react selectively in double-immunodiffusion and enzyme immunoassay with both rabbit atrial myosin and ventricular myosin from thyroxine-treated animals. These specific anti-bovine atrial myosin antibodies reacted with the heavy chains of thyrotoxic ventricular myosin when examined by enzyme immunoassay combined with SDS-polyacrylamide gel electrophoresis. (2) In one-dimensional SDS-polyacrylamide gel electrophoresis, no difference could be demonstrated in the light chain pattern of ventricular myosin from euthyroid and hyperthyroid rabbit hearts. One-dimensional analysis of myosin heavy chains after chymotryptic digestion in the presence of SDS showed significant differences between the two ventricular myosins. Also, the peptide maps from atrial myosin resembled the pattern of peptides found with ventricular heavy chains from hyperthyroid rabbits. The steady state rate, the alkali stability and the pH sensitivity of Ca2+-ATPase activity of thyrotoxic ventricular myosin were very similar to those of atrial myosin. (3) These results provide direct immunochemical and biochemical evidence for the existence of an atrial-like isomyosin in thyrotoxic rabbit ventricles.     

Changes in structure and functional properties of cytoskeletal elastic protein titin in dilated cardiomyopathy

To elucidate the role of titin in the onset and development of dilated cardiomyopathy, the structure and functional properties of this protein from pathological myocardium (human left ventricle) were studied. By the use of SDS gel electrophoresis, a decrease in molecular weight of titin in dilated cardiomyopathy compared with norm (pig left ventricle) was revealed. The decrease correlated with the stage of the disease. A decrease in the length of molecules of pathological forms of titin was also found by electron microscopy, which confirms the results of electrophoresis tests. It was shown that, unlike titin from healthy muscle, pathological forms of titin do not activate but inhibit the main functional properties of control myosin: the actin-activated ATPase activity and its Ca2+ sensitivity. The direction of the changes in structure and functional properties of titin allows one to conclude about its contribution to the development of the pathology studied.     

Identification of new biophysical markers for pathological ventricular remodelling in tachycardia‐induced dilated cardiomyopathy

Our aim was to identify biophysical biomarkers of ventricular remodelling in tachycardia‐induced dilated cardiomyopathy (DCM). Our study includes healthy controls (N = 7) and DCM pigs (N = 10). Molecular analysis showed global myocardial metabolic abnormalities, some of them related to myocardial hibernation in failing hearts, supporting the translationality of our model to study cardiac remodelling in dilated cardiomyopathy. Histological analysis showed unorganized and agglomerated collagen accumulation in the dilated ventricles and a higher percentage of fibrosis in the right (RV) than in the left (LV) ventricle (P = .016). The Fourier Transform Infrared Spectroscopy (FTIR) 1st and 2nd indicators, which are markers of the myofiber/collagen ratio, were reduced in dilated hearts, with the 1st indicator reduced by 45% and 53% in the RV and LV, respectively, and the 2nd indicator reduced by 25% in the RV. The 3rd FTIR indicator, a marker of the carbohydrate/lipid ratio, was up‐regulated in the right and left dilated ventricles but to a greater extent in the RV (2.60‐fold vs 1.61‐fold, P = .049). Differential scanning calorimetry (DSC) showed a depression of the freezable water melting point in DCM ventricles – indicating structural changes in the tissue architecture – and lower protein stability. Our results suggest that the 1st, 2nd and 3rd FTIR indicators are useful markers of cardiac remodelling. Moreover, the 2nd and 3rd FITR indicators, which are altered to a greater extent in the right ventricle, are associated with greater fibrosis.     

磁共振成像对扩张型心肌病转基因模型小鼠左右心室对比分析

目的对cTnTR141W扩张型心肌病转基因模型小鼠左、右心室进行对比分析,研究cTnTR141W转基因小鼠作为右心室心肌病的动物模型的可行性。方法利用7.0 T高场强磁共振成像(MRI)技术,定量分析了2、4、6和8月龄对照组及cTnTR141W转基因模型小鼠左、右心室的舒张末容积(EDV)、收缩末容积(ESV)和射血分数(EF)的变化情况,同时对6月龄对照组cTnTR141W转基因模型小鼠心肌组织进行组织学分析。结果转基因阴性对照小鼠相比,cTnTR141W转基因小鼠左、右心室的容积在2月龄时已有增大趋势,而射血分数有减小趋势。右心室射血分数减小出现最早也最显著(P<0.05)。随年龄增加,cTnTR141W转基因小鼠与转基因阴性对照小鼠相比,右心室的结构和功能的病理生理变化与左心室同时趋于严重。该小鼠左、右心室在4月龄后表现典型的扩张型心肌病表型。结论 cTnTR141W转基因模型小鼠左心室和右心室的扩张性心肌病表型同时出现,该小鼠可作为右室性心肌病等右心室功能下降相关疾病研究的动物模型。     

Comparison of myosin heavy chains in atria and ventricles from hyperthyroid, hypothyroid, and euthyroid rabbits

The structural similarities of the heavy chains (HC) of myosin isolated from atria and ventricles of hyper-, hypo-, and euthyroid rabbits were compared by immunological analysis, by one- and two-dimensional peptide mapping, and by electrophoresis under nondenaturing conditions. Monoclonal and polyclonal antibodies, which are specific for HC alpha of ventricular myosin, cross-reacted equally with the HCs of euthyroid atrial myosin. Our immunological analysis identified multiple epitopes common to euthyroid atrial HC and ventricular HC alpha. One- and two-dimensional gel electrophoretic analysis of peptides produced by partial proteolytic digestion of each type of HC reveal no differences between euthyroid atrial HCs and ventricular HC alpha, whereas marked differences are apparent between atrial HC and ventricular HC beta. Nondenaturing gel electrophoresis separates ventricular myosin from hyper- and hypothyroid rabbits into two forms, V1 and V3, respectively. In euthyroid atria, two isomyosins, A1 and A2, were resolved; with the slower moving A2 isomyosin having the same mobility as that of the V1 isomyosin. After cross-hybridization of light chains of ventricular myosin with euthyroid atrial HCs, only a single band having a mobility identical with that of the V1 isomyosin was seen. Furthermore, atrial myosin HCs isolated from hyper- and hypothyroid rabbits were indistinguishable from euthyroid atrial HC and from ventricular HC alpha by these procedures. We conclude that ventricular HC alpha and atrial HC are indistinguishable proteins, and that the type of HC expressed in the atria is unaffected by the thyroid state of the rabbit.     

Regulation of protein synthesis and accumulation during oogenesis in Xenopus laevis

The tissue and developmental distribution of the various myosin subunits has been examined in bovine cardiac muscle. Electrophoretic analysis shows that a myosin light chain found in fetal but not in adult ventricular myosin is very similar and possibly identical to the light chain found in fetal or adult atrial and adult Purkinje fiber myosins. This light chain comigrates on two-dimensional gels with the bovine skeletal muscle embryonic light chain. Thus, this protein appears to be expressed only at early developmental stages in some tissues (cardiac ventricles, skeletal muscle) but at all stages in others (cardiac atria). The heavy chains of these myosins have been examined by one- and two-dimensional polypeptide mapping. The ventricular and Purkinje fiber heavy chains are indistinguishable. They are, however, different from the heavy chain found in cultured skeletal muscle myotubes, in contrast to the situation concerning the embryonic/atrial light chain.