Synthesis of stress proteins in rat cardiac myocytes 2-4 days after imposition of hemodynamic overload.

Isolated adult myocytes incubated with [35S]methionine were used to study the expression of proteins in the rat heart during the first 2 wk after either pressure or volume overload. In both models an early (2-4 d) and transient expression of three major stress proteins (heat shock protein [HSP] HSP 70, HSP 68, and HSP 58) was observed together with an increased synthesis of putative ribosomal proteins. Only traces of 35S-labeled HSPs were detected in controls and sham-operated animals. The three stress proteins were identified by their migration in two-dimensional gels, by comigration with HSPs, which had been induced in myocytes by incubation at 41 degrees C and immunoblot analysis using antisera directed against the 70-kD protein. Immunohistochemical staining of HSP 70 in rod-shaped myocytes and detection by immunoblot showed that HSP 70 was equally present and distributed in both sham-operated and overloaded hearts, and provided no evidence for a subpopulation of myocytes acutely involved in the increased expression of HSP 70. It is suggested that the transient expression of HSPs that occurs during the early adaptation of the myocardial cells to overload could confer some degree of protection to the actively growing myocytes.

Accumulation of fetal fibronectin mRNAs during the development of rat cardiac hypertrophy induced by pressure overload.

Cardiac pressure overload induces a shift towards the fetal form of major proteins expressed by the myocytes, and an accumulation of extracellular matrix proteins. One of them, fibronectin (FN), accumulates soon after the imposition of pressure overload. Because FN exists both as cellular FN (c-FN) locally synthesized by nonmuscle cells and as "plasma-FN" (p-FN) synthesized by the hepatocytes, the first issue of this study was to determine whether FN accumulation within the myocardium in response to pressure overload is paralleled by a local increase in mRNA. The expression of c-FN isoforms being developmentally regulated in a tissue-specific manner, the types of FN exons expressed by cardiac cells were analyzed. Pressure overload was induced in 25-d-old rats by stenosis of the thoracic aorta. Using in situ hybridization, we show that the mRNAs encoding the fetal forms of c-FN are accumulated in the interstitial tissue of fetal rat hearts but are absent in adult. 1-3 d after aortic stenosis, the fetal forms of c-FN mRNAs were found in the wall of coronary arteries and in focal areas of the myocardium. Thus nonmuscle cells and smooth muscle cells, like myocytes, do respond to pressure overload by reexpressing fetal gene transcripts.

The separation of the myosin light chains on agarose beads.

The myosin light chains from rabbit skeletal muscle and bovine and human hearts are separated according to their molecular weights by filtration on agarose beads. The purity of the isolated components and the yield of such columns are compared to the results obtained by other techniques of separation.

Expression of fibronectin during rat fetal and postnatal development: an in situ hybridisation and immunohistochemical study.

OBJECTIVE: Fibronectin is a protein of the extracellular matrix with numerous binding sites to the other elements of the matrix and to the cells. The aim of this study was to determine the relative importance of fibronectin isoform expression (FN-EIIIA, FN-EIIIB) during fetal and postnatal development of the rat heart. METHODS: In situ hybridisation and immunolabelling approaches were used to describe the cellular synthesis of fibronectin and its distribution throughout the rat heart from 11 d postconception until adulthood. The distribution of fibronectin was compared to that of laminin and of alpha type III procollagen. RESULTS: The accumulation and pattern of distribution of the major fibronectin mRNA isoforms were identical, that is, there was a progressive decrease in their accumulation as a function of time after 11 d postconception, resulting in a complete absence in the adult. The distribution of fibronectin and procollagen type III mRNAs were, however, quite distinct. At the protein level the time course of synthesis and secretion of the locally synthesised fibronectin (c-FN) did not follow fibronectin mRNA expression, the accumulation of the protein being rather poor, except just before birth, where it was found mainly in the coronary vessels. CONCLUSIONS: During the development of the fetal rat heart fibronectin gene transcription is active and progressively decreases with age, whereas the translation of the mRNAs into their corresponding proteins is always relatively poor. If fibronectin is involved in fetal and postnatal morphogenesis of the rat myocardium, it is the plasma form (p-FN) that is most probably involved in the process of growth and differentiation of the rat heart.

Expression of laminin alpha2 chain during normal and pathological growth of myocardium in rat and human.

OBJECTIVES: Fibrosis is a classical feature of cardiac hypertrophy. To date changes within the basal lamina during normal and pathological cardiac growth have been poorly investigated. The goal of the present study was to determine if the expression of the muscle specific subunit of merosin (laminin alpha2 chain) together with that of fibronectin (FN) is modified in the diseased human heart. Laminin alpha2 chain expression was also investigated during physiological and pathological cardiac growth in the rat. METHODS: In ten normal human hearts and ten hearts with idiopathic dilated cardiomyopathy (IDCM), the laminin-alpha2 and FN mRNA levels were quantified by slot-blot using total RNA and the protein distribution was analysed using an immunofluorescence approach. In Wistar rats, laminin alpha2 and FN mRNA expression was analyzed using RNase protection assay (RPA) and slot-blot assays. RESULTS: The amount of laminin alpha2 mRNA did not vary in normal and pathological human hearts whereas it was significantly decreased in renovascular hypertensive rats (-20%) P<0.05 versus normal tissue). The amount of fibronectin mRNA increased in IDMC patients (x2, P<0.05 versus normal tissue), but was unchanged in hypertensive rats. A negative correlation was found between the cardiac laminin-alpha2 level and the age of the patients whatever the cardiac status. During postnatal development in the rat, a similar decrease in cardiac laminin-alpha2 level was observed between 3 and 30 weeks of age. Finally, the immunofluorescent approach failed to detect any alteration in laminin alpha2 distribution within the human myocardium. CONCLUSION: These data indicate that an imbalance between myocyte hypertrophy and the level of laminin-alpha2 might contribute to alterations in sarcolemmal properties, which occur during the development of cardiac hypertrophy and its transition to cardiac failure.

Diuretic effects on cardiac hypertrophy in the stroke prone spontaneously hypertensive rat.

OBJECTIVE: The aim was to compare the effects of two diuretics, indapamide and hydrochlorothiazide, on cardiac hypertrophy in stroke prone spontaneously hypertensive rats (SHR-SP). METHODS: Six week old SHR-SP, on a 1% sodium chloride water intake, were treated with oral indapamide (3 mg.kg-1 x d-1) or hydrochlorothiazide (20 mg.kg-1 x d-1) over a 44 d period. The hypertrophic process was evaluated by classical indices and by the morphological analysis of myocyte cross sectional area, coronary artery thickness, and immunohistochemical analysis of interstitial fibrosis. RESULTS: In the untreated SHR-SP on 1% sodium chloride, all animals developed severe hypertension and cardiac hypertrophy when compared to normotensive salt loaded WKY by 13 weeks of age. In salt loaded SHR-SP treated with indapamide or hydrochlorothiazide, systolic blood pressure was moderately decreased by the end of the treatment when compared with untreated SHR-SP, at 259(7) and 245(7) mm Hg respectively, v 300(11) mm Hg, p < or = 0.05. Myocyte enlargement appears to be the main feature involved in the development of cardiac hypertrophy in the SHR-SP. By the end of treatment both indapamide and hydrochlorothiazide prevented the development of cardiac hypertrophy evaluated by heart weight to body weight ratio [4.69(0.07) and 4.61(0.08) respectively, v 5.39(0.13), p < or = 0.001] and myocyte hypertrophy (-33% and -21% of the SHR-SP values, p < or = 0.001). Myocardial interstitial fibrosis and perivascular fibrosis were practically absent in the two treated groups. CONCLUSIONS: Our results allow the characterisation of SHR-SP cardiac hypertrophy and indicate that the two types of chronic diuretic treatment prevent SHR-SP cardiac hypertrophy with a drug specific efficiency.

Immunological quantitation and localization of tubulin in adult rat heart isolated myocytes.

Isolated myocytes were purified from adult rat heart. Identification and localization of microtubules and quantitation of tubulin in these cells were performed by immunochemical procedures. Antibodies were raised against brain tubulin and purified by affinity chromatography. An enzyme-linked immunosorbent assay, ELISA, was developed for quantitation of tubulin. It allowed the measurement of 10 to 500 ng of tubulin. Tubulin content in adult rat cardiac myocytes was found to be approximately 10 micrograms per 100 mg of the total protein content. By means of a double immunofluorescence technique, the microtubule network, identified with antitubulin, was studied in reference to the sarcomeric A band labeled with antibodies specific to myosin heavy chains. The basis for identifying the microtubule network have included the use of specific antitubulin immunoglobulins and the sensitivity of the specific labeling of the network to antimitotic drugs and low temperature. It was found that microtubules were organized mainly around the nuclei, with important concentrations at the poles, showing extensions in the cone and in the cytoplasm as loosely organized loops. The shape of adult cardiac myocyte was not dependent upon the integrity of the microtubule network.

Different distributions of microtubules, desmin filaments and isomyosins during the onset of cardiac hypertrophy in the rat.

To elucidate the role of the cytoskeleton in the development of adult heart, microtubules and intermediate filaments of desmin were studied in young and adult rat heart myocytes during the onset of growth, after mechanical overloading induced by aortic stenosis. Such overloading is known to cause heart hypertrophy by stimulating overall protein synthesis, and to initiate a shift in myosin isozymes. For this study, we used double immunolabelling of isolated myocytes with specific antibodies raised against tubulin, desmin, and the two main isomyosins V1 and V3. Whereas desmin remained unchanged, tubulin was redistributed in arrays parallel to the long axis of the myocytes, and was densest around the nuclei. Alterations in the microtubule pattern were observed very early after aortic stenosis, during the onset of heart growth; they were transitory, and did not occur simultaneously in all myocytes. Chronological examination of myocytes labelling with both antitubulin and anti V3 myosin clearly suggested that the transitory alteration in the microtubule pattern was an early event preceding the change in the expression of the myosin gene. Results, observed in young rats, in which mitosis is stimulated by overloading, and in adult rats, exhibiting no mitosis, showed that microtubules are involved in the development of cells in which mitosis does not occur. This work provides the first evidence of a correlation in functional adult heart, between the reorganization of cytoplasmic microtubules and the onset of growth.

Cardiac senescence is associated with enhanced expression of angiotensin II receptor subtypes.

Recent studies have pointed out the differential role of angiotensin II (Ang II) receptor subtypes, AT1 and AT2, in cardiac hypertrophy and fibrosis during pathological cardiac growth. Because senescence is characterized by an important cardiovascular remodeling, we examined the age-related expression of cardiac Ang II receptors in rats. AT1 and AT2 receptor subtype messenger RNA (mRNA) levels were quantitated by RT-PCR. In parallel, specific Ang II densities were determined in competition binding experiments using specific antagonists. AT1a and AT1b mRNA levels were markedly up-regulated (5.6-fold) in the left ventricle of 24-month-old rats compared with 3-month-old rats, but not in the right ventricle. In contrast, AT2 gene expression was increased in both ventricles of senescent rats (4.2- and 2.8-fold in the left and right ventricles, respectively). Similarly, AT1 and AT2 gene expression was increased 2.3- and 2-fold, respectively, in freshly isolated cardiomyocytes from aged rats. Furthermore, AT1 and AT2 specific binding was increased in the aged left ventricular myocardium. Even though the mechanistic pathway of this up-regulation of Ang II receptor subtype gene expression might be intrinsic to developmental gene reprogramming, the up-regulation of AT1 mRNA accumulation in the left ventricle during aging could also be secondary to age-related hemodynamic changes, whereas increased AT2 gene expression in both ventricles may depend upon hormonal and humoral factors.

Microvasculature in angiotensin II-dependent cardiac hypertrophy in the rat.

The long-lasting effect of angiotensin II (Ang II) on the microvasculature in the rat left ventricle was studied. Immunolabeling of ventricular cryosections combined with morphometric analysis allowed us to (1) distinguish between capillaries and arterioles and (2) precisely evaluate their respective densities in the endomyocardium. Ang II-induced hypertensive cardiac hypertrophy was associated with an 18% decrease in capillary density (P<0.05) and an increase in arteriole density (+54%, P<0.001). Treatments with losartan or PD123319, the respective antagonists of the angiotensin subtype 1 and subtype 2 receptors, prevented the increase in arteriolar density, whereas only losartan, which restored normal arterial pressure, prevented changes in capillary density. Taken together, these results indicate that Ang II-induced cardiac hypertrophy was associated with capillary rarefaction and arteriolar growth, the 2 processes being independently regulated.

Arterial smooth muscle cell phenotype in stroke-prone spontaneously hypertensive rats.

The aim of this study was to determine the phenotype of smooth muscle cells in the arteries of chronically hypertensive animals and to analyze the effects of treatments known to increase the survival of the animal without a clear effect on its hypertensive state. Stroke-prone spontaneously hypertensive rats (SHRSP) kept on a 1% sodium drinking solution were untreated or treated with one of two diuretics, indapamide (3 mg/kg per day) or hydrochlorothiazide (20 mg/kg per day), from 6 to 13 weeks of age. Phenotype was characterized by the immunolabeling of arteries with antibodies raised against a cellular form (EIIIA) of fibronectin, alpha-smooth muscle actin, and nonmuscle myosin. We demonstrated that phenotypes of smooth muscle cells of the SHRSP differ from those found in Wistar-Kyoto rats. The difference in phenotype is specific for the vessel type: ie, an increased expression of nonmuscle myosin in the aorta and of both EIIIA fibronectin and nonmuscle myosin in the coronary arteries. The two diuretics (1) had no effect on blood pressure, (2) prevented or did not prevent the increase in medial thickness, and (3) prevented changes in both smooth muscle cell phenotype and ischemic tissular lesions. Taken together, the results suggest that in SHRSP the changes in the phenotype of smooth muscle cells and the thickness of arteries are unrelated events. We propose that the maintenance of the contractile phenotype of the arterial smooth muscle cells could be an essential parameter involved in the prevention of the deleterious consequences characteristic of a severe hypertensive state.

Rat cardiac hypertrophy. Altered sodium-calcium exchange activity in sarcolemmal vesicles.

The sodium-calcium exchange activity has been studied in sarcolemmal vesicles isolated from rat ventricles hypertrophied by pressure overload. 4 weeks after aortic stenosis the degree of hypertrophy varied from 30 to 70%. The Na+-dependent 45Ca2+ influx and efflux were up to 50% decreased and the sensitivity to Ca2+ was 13-fold lower in vesicles from hypertrophied heart as compared to those from normal heart. However, the Na+,K+-ATPase activity, the orientation of the vesicles and the passive Ca2+ permeability were found to be similar in the two heart groups. These results indicate that the sarcolemmal Na+/Ca2+ exchange activity could be qualitatively and/or quantitatively changed in hypertrophied rat heart.

The sarco(endo)plasmic reticulum Ca(2+)-ATPase mRNA isoform, SERCA 3, is expressed in endothelial and epithelial cells in various organs.

The sarco(endo)plasmic reticulum Ca(2+)-ATPase mRNA isoform, SERCA 3, was previously shown to be expressed in a great variety of muscle and non-muscle tissues [(1989) J. Biol. Chem. 264, 18568] but its cellular localization within these organs was unknown. We have used in situ hybridization and RNase protection techniques to demonstrate that SERCA 3 mRNA is expressed in specific cell types, namely the endothelial and epithelial cells.

Storage of phosphorylated desmin in a familial myopathy.

The quantity and the electrophoretic characteristics of desmin were analyzed in a familial skeletal muscle disorder, characterized by the intra-sarcoplasmic accumulation of an electron-dense granulo-filamentous material facing the Z-lines and reacting strongly with polyclonal anti-desmin antibodies. The analysis was performed on biopsies from the deltoid muscles of 4 patients, members of 2 families. In the 4 biopsies, an increase in the relative amount of desmin compared to that of actin or insoluble proteins (3 fold) and in the number of isovariants (6 instead of 3) was observed. The isovariants of desmin were similar to those described in Purkinje fibres of the heart as a phosphorylated form of the protein [(1987) Eur. J. Cell Biol. 44, 68-78]. Therefore, post-translational events could affect both the polymerization and the amount of desmin filaments in this autosomal dominant familial myopathy.

Cyclo-oxygenase-1 and -2 contribution to endothelial dysfunction in ageing.

Experiments were designed to investigate the role of cyclo-oxygenase isoforms in endothelial dysfunction in ageing. Aortic rings with endothelium of aged and young (24 vs 4 month-old) Wistar rats, were mounted in organ chambers for the recording of changes in isometric tension. In young rats, acetylcholine (ACh) caused a complete relaxation which was not affected by indomethacin (0.3 microM), NS-398 (a preferential COX-2 inhibitor; 1 microM), SQ-29548 (a thromboxane-receptor antagonist; 1 microM), nor valeryl-salicylate (VAS, a preferential inhibitor of COX-1; 3 mM). In aged rats, ACh caused a biphasic response characterized by a first phase of relaxation (0.01 - 1 microM ACh), followed by a contraction (3 - 100 microM ACh). Indomethacin, NS-398 and SQ-29548, but not VAS, augmented the first phase. Indomethacin, VAS, NS-398 and SQ-29548 decreased the contractions to high ACh concentrations. Then, the sensitivity to thromboxane receptor activation was investigated with U-46619. The results show comparable EC(50) values in young and aged rats. In aged rats, the ACh-stimulated release of prostacyclin, prostaglandin F(2alpha) and thromboxane A(2) was decreased by either indomethacin, NS-398, VAS or endothelium removal. However, in young animals, the ACh-stimulated release of prostacyclin and prostaglandin F(2alpha) were smaller than in older animals and remained unaffected by NS-398. Aortic endothelial cells from aged - but not young - rats express COX-2 isoform, while COX-1 labelling was observed in endothelial cells from both young and aged rats. These data demonstrate the active contribution of COX-1 and -2 in endothelial dysfunction associated with ageing.

Comparison of the effects of fetal cardiomyocyte and skeletal myoblast transplantation on postinfarction left ventricular function.

OBJECTIVES: Transplantation of fetal cardiomyocytes improves function of infarcted myocardium but raises availability, immunologic, and ethical issues that justify the investigation of alternate cell types, among which skeletal myoblasts are attractive candidates. METHODS: Myocardial infarction was created in rats by means of coronary artery ligation. One week later, the animals were reoperated on and intramyocardially injected with culture growth medium alone (controls, n = 15), fetal cardiomyocytes (5 x 10(6) cells, n = 11), or neonatal skeletal myoblasts (5 x 10(6) cells, n = 16). The injections consisted of a 150-microL volume and were made in the core of the infarct, and the animals were immunosuppressed. Left ventricular function was assessed by echocardiography immediately before transplantation and 1 month thereafter. Myoblast-transplanted hearts were then immunohistologically processed for the expression of skeletal muscle-specific embryonic myosin heavy chain and cardiac-specific connexin 43. RESULTS: The left ventricular ejection fraction markedly increased in the fetal and myoblast groups from 39.3% +/- 3.9% to 45% +/- 3.4% (P =.086) and from 40.4% +/- 3.6% to 47.3% +/- 4.4% (P =.034), respectively, whereas it decreased in untreated animals from 40.6% +/- 4% to 36.7% +/- 2.7%. Transplanted myoblasts could be identified in all animals by the positive staining for skeletal muscle myosin. Conversely, clusters of connexin 43 were not observed on these skeletal muscle cells. CONCLUSIONS: These results support the hypothesis that skeletal myoblasts are as effective as fetal cardiomyocytes for improving postinfarction left ventricular function. The clinical relevance of these findings is based on the possibility for skeletal myoblasts to be harvested from the patient himself.

Increased compliance in diaphragm muscle of the cardiomyopathic Syrian hamster.

We investigated the hypothesis that diaphragm compliance was abnormal in cardiomyopathic Syrian hamsters (CSH), an experimental model of myopathy. The passive elastic properties of isolated diaphragm muscles were analyzed at both the muscle and sarcomere levels. We used the following passive exponential relationship between stress (sigma) and strain (epsilon): sigma = (Eo/beta) (ebetaepsilon - 1), where Eo is the initial elastic modulus and beta is the stiffness constant. Immunocytochemistry procedures were used to analyze the distribution of two key elastic components of muscle, extracellular collagen and intracellular titin elastic components, as well as the extracellular matrix glycoprotein laminin. Muscle and sarcomere values of beta were nearly twofold lower in CSH (8.7 +/- 1.9 and 8.3 +/- 1.4, respectively) than in control animals (19.7 +/- 1.7 and 16.8 +/- 2.1, respectively) (P < 0.01 for each). Compared with controls, Eo was higher in CSH. Sarcomere slack length was significantly longer in CSH than in control animals (2.1 +/- 0.1 vs. 1.9 +/- 0.1 micrometer, P < 0.05). The surface area of collagen I was significantly larger in CSH (17.4 +/- 1.8%) than in control animals (12.4 +/- 0.7%, P < 0.05). There was no change in the distribution of titin or laminin labelings between the groups. These results demonstrate increased diaphragm compliance in cardiomyopathic hamsters. The increase in CSH diaphragm compliance was observed despite an increase in the surface area of collagen and was not associated with an abnormal distribution of titin or laminin.