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1.
Bull Exp Biol Med ; 155(5): 618-21, 2013 Sep.
Article in English | MEDLINE | ID: mdl-24288723

ABSTRACT

Histoenzymological changes, indicating inhibition of the main metabolic processes, were found in the conduction cardiomyocytes of the left ventricle and ventricular septum in experimental stenosis of the aorta. The histoenzymological changes in the conduction system of both ventricles and ventricular septum were similar in experimental stenosis of the pulmonary artery and indicated primarily activation of glycolysis. The histoenzymological profile of conduction cardiomyocytes differed little in cases when the increase of the pressure load was complicated or not complicated by the development of heart failure, particularly in pulmonary artery stenosis. The histoenzymological changes in the conduction system in response to increased afterload differed significantly from those in the contractile myocardium and correlated with the level of cellular functional activity and sensitivity to the regulatory and alterative exposure. These data attest to minor role of metabolic shifts in conduction cell injuries with increasing afterload, primarily, of the right ventricle.


Subject(s)
Heart Conduction System/enzymology , Heart Failure/enzymology , Heart Ventricles/enzymology , Myocytes, Cardiac/enzymology , Animals , Aortic Valve Stenosis/enzymology , Aortic Valve Stenosis/pathology , Glycolysis , Guinea Pigs , Heart Conduction System/pathology , Heart Failure/pathology , Heart Failure/physiopathology , Heart Ventricles/pathology , Myocardial Contraction , Myocardium/enzymology , Myocardium/pathology , Myocytes, Cardiac/pathology , Pulmonary Artery/enzymology , Pulmonary Artery/pathology , Pulmonary Circulation , Pulmonary Valve Stenosis/enzymology , Pulmonary Valve Stenosis/pathology , Ventricular Septum/enzymology , Ventricular Septum/pathology
2.
J Vet Cardiol ; 9(1): 39-42, 2007 May.
Article in English | MEDLINE | ID: mdl-17689467

ABSTRACT

OBJECTIVES: This study was intended to compare the tissue chymase-like activity and angiotensin converting enzyme (ACE) activity in the right and left ventricles of a dog with congenital pulmonic stenosis (PS), with normal dogs, and to discuss the potential clinical implications of these findings. ANIMALS, MATERIALS AND METHODS: Study subjects included a one-year-old Beagle dog with spontaneous PS and six clinically normal Beagles. Chymase-like and ACE activities were determined in all hearts by high pressure liquid chromatography. RESULTS: In the PS dog right ventricular (RV) chymase-like activity (49.79 nmol/min/g tissue) and left ventricular (LV) chymase-like activity (36.85 nmol/min/g tissue) were elevated vs normal Beagle dogs (mean+/-standard deviation, RV: 20.17+/-5.24 nmol/min/g, LV: 19.03+/-3.27 nmol/min/g). CONCLUSIONS: Activation of the tissue RAA system was detected in a dog with congenital PS. This interesting finding should be pursued with further studies to validate this result, and to explore whether pharmacological blockade of chymase, or the angiotensin II receptor, represents a useful strategy to prevent myocardial remodeling in this condition.


Subject(s)
Chymases/metabolism , Dog Diseases/enzymology , Myocardium/enzymology , Peptidyl-Dipeptidase A/metabolism , Pulmonary Valve Stenosis/veterinary , Renin-Angiotensin System/physiology , Animals , Case-Control Studies , Chromatography, High Pressure Liquid/methods , Chromatography, High Pressure Liquid/veterinary , Dog Diseases/congenital , Dogs , Male , Pulmonary Valve Stenosis/congenital , Pulmonary Valve Stenosis/enzymology
3.
Circ Res ; 62(6): 1088-92, 1988 Jun.
Article in English | MEDLINE | ID: mdl-3383358

ABSTRACT

To investigate the response of myosin isozyme transition in specialized myocardium to cardiac overload, we examined immunohistochemically the distribution of myosin isozymes in sinus node cells of overloaded canine atria, using the monoclonal antibodies CMA19 and HMC14, which are specific for atrial myosin heavy chain (alpha-HC) and ventricular myosin heavy chain (beta-HC), respectively. Overloading in canine right atria was induced by artificial tricuspid valve regurgitation and pulmonary stenosis. Right atrial mean pressure rose to 15-20 mm Hg (n = 4) 2 months after surgery. In the working myocardium, cardiac overload caused redistribution of myosin isozymes, alpha-HC to beta-HC. Compared with the normal right atria, fewer myocytes were labeled with CMA19, but more were labeled with HMC14. However, the reactivity of sinus node cells with CMA19 and HMC14 was not changed between normal and overloaded right atria, indicating no redistribution of myosin heavy chain isozymes, alpha-HC to beta-HC. These results suggest that isozymes in myosin heavy chains in the specialized myocardium are protected from overload effects by their firm cytoskeletal framework or other mechanisms.


Subject(s)
Isoenzymes/metabolism , Myocardium/enzymology , Myosins/metabolism , Animals , Heart/physiopathology , Heart Atria , Heart Ventricles , Immunohistochemistry , Myocardium/cytology , Pulmonary Valve Stenosis/enzymology , Pulmonary Valve Stenosis/physiopathology , Sinoatrial Node/cytology , Sinoatrial Node/enzymology , Tricuspid Valve Insufficiency/enzymology , Tricuspid Valve Insufficiency/physiopathology
4.
Jpn Heart J ; 26(1): 69-80, 1985 Jan.
Article in English | MEDLINE | ID: mdl-2989573

ABSTRACT

Adenosine effects on the transmembrane potential characteristics and the sarcolemmal Na+-K+ ATPase activity of human atrial myocardium were studied in tissue from 20 patients who were divided into 2 groups based on the maximum diastolic potentials (MDP) greater than or less than -60 mV. Group A consisted of 10 patients with MDP of 70.84 +/- 4.20 mV and Na+-K+ ATPase activity of 15.37 +/- 0.46 mumole Pi/mg/hr. Ten patients with MDP of 44.54 +/- 6.24 mV and Na+-K+ ATPase activity of 12.55 +/- 0.42 mumole Pi/mg/hr were included in group B. Adenosine had no effects on the electrophysiological properties and the sarcolemmal Na+-K+ ATPase activity of atrial myocardium at concentrations below 1 X 10(-5) M in either group. Adenosine resulted in mildly altered atrial transmembranes potentials without significant effect on Na+-K+ ATPase activity at concentrations between 1 X 10(-5) M and 5 X 10(-4) M. However, a significant reduction of transmembrane potentials and an apparent inhibition of Na+-K+ ATPase activity were observed only in tissue from group B. These results suggest that: 1) adenosine has no effect on the electrophysiological properties and the sarcolemmal Na+-K+ ATPase activity of human atrial myocardium at physiological concentrations; 2) adenosine induced inhibition of the sarcolemmal Na+-K+ ATPase activity in slow channel-dependent atrial tissues may be a mechanism responsible for the alterations of transmembrane potentials under unphysiological conditions; and 3) adenosine contributes to the genesis of cardiac arrhythmias during acute myocardial ischemia, which can reduce transmembrane potentials of the myocardial cells and may increase the myocardial adenosine level above its effective concentration.


Subject(s)
Adenosine/pharmacology , Heart/drug effects , Myocardium/enzymology , Sarcolemma/enzymology , Sodium-Potassium-Exchanging ATPase/metabolism , Action Potentials/drug effects , Adolescent , Adult , Child , Female , Heart/physiopathology , Heart Atria , Heart Defects, Congenital/enzymology , Heart Defects, Congenital/physiopathology , Humans , Male , Membrane Potentials/drug effects , Mitral Valve Stenosis/enzymology , Mitral Valve Stenosis/physiopathology , Myocardium/cytology , Pulmonary Valve Stenosis/enzymology , Pulmonary Valve Stenosis/physiopathology
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