V. Cappelli

Altered contractile properties of rat cardiac muscle during experimental thiamine deficiency and food deprivation

Alterations of cardiac contractility caused by thiamine deficiency were studied on three groups of 2 month old male Wistar rats: B1, fed a thiamine deficient diet, PF pair fed, which received an amount of thiamine free diet determined on the daily consumption of B1 animals, supplemented with appropriate thiamine supply, C ad libitum fed controls. The animals were studied after 35 days of dietary treatment. Force-velocity curves were determined in right ventricle papillary muscles. Shortening velocity was significantly lower in B1 and PF than in C muscles and in B1 than in PF muscles. The ability to develop tension was not altered. Myosin ATPase activity was assayed in preparations of myofibrils and in preparations of purified myosin. Both Ca-Mg activated myofibrillar ATPase activity and Ca-activated myosin ATPase activity were significantly reduced in B1 and PF compared to C myocardium. Furthermore Ca-activated ATPase activity was lower in B1 than in PF myocardium. Myosin isoenzyme distribution was determined by pyrophosphate gel electrophoresis of purified myosin preparations. When compared to C animals both B1 and PF animals showed a myosin electrophoretic pattern shifted towards the slow isoform V3; such a shift was more pronounced in B1 animals. Information concerning excitation-contraction coupling was obtained by determining the steady state and transient force-interval relation and by recording transmembrane action potential. B1 and PF myocardium exhibited, when compared to C, a less sensitivity to a reduction of the interval of stimulation, a faster mechanical restitution, a prolonged action potential duration. Such alterations were generally more pronounced in B1 than in PF myocardium. The results support the view that in the rat cardiac contractility is deeply affected by thiamine deficiency. The alterations of cardiac contractility seem to be caused by adaptive mechanisms rather than by cardiac failure and seem to be attributable for a big part to the reduction of food supply.

Age-dependent variations of diastolic stiffness and collagen content in rat ventricular myocardium.

A parallel investigation on collagen content and diastolic mechanical properties has been performed on myocardial specimens isolated from male albino Wistar rats of different age groups (1-5 days, 10-20 days, 2 months, 8 months, 18 months, 24-26 months). Total water content, inulin-distribution space, protein concentration were determined together with hydroxyprolin content of the tissue. Mechanical properties of isolated papillary muscles were characterized in terms of static, dynamic, and plastic response to strain. During maturation (from birth to 2 months) the increase of collagen content is paralleled by an increase of static elasticity and by a reduction of plasticity. During maturity (2-8 months) and ageing (8-26 months) the collagen concentration in myocardial tissue still increases, but this change is associated to a reduction of the static components and to an increase of dynamic components of myocardial stiffness. A comparison between specimens from right and left ventricular myocardium indicates that a higher collagen content in the right ventricle is associated with a higher static elasticity.

Effects of amrinone on shortening velocity and force development in skinned skeletal muscle fibres

SummaryThe effects of amrinone were studied on single skinned fibres isolated from rat hindlimb muscles. In each fibre a force-velocity relation was determined during maximal calcium activation (pCa=4.45) in control conditions and in the presence of amrinone. The MgATP concentration was 3.93 mm, close to the physiological value. After the experiment the fibre was classified as fast or slow on the basis of its reactivity with anti-myosin monoclonal antibodies. In fast fibres amrinone (3 mm) potentiated isometric tension (P0) by 13.8±2.9% (n=13), reduced maximum shortening velocity (Vmax) by 32.6±3.2% and the curvature of the force-velocity relation (a/P0) was increased by 98.9±46.0%. All these effects were less pronounced in slow fibres, where Vmax was reduced only by 11.4±3.6 (n=16). The effects of amrinone (0.3–6 mm) on the ATPase activity of myofibrils and myosin prepared from fast (tibialis anterior) and slow (soleus) rat skeletal muscles were studied. Amrinone was found to depress Ca−Mg dependent ATPase activity of myofibrillar preparations of the tibialis anterior (up to 16.6±2%) and, to a lesser extent, of the soleus (up to 7.2±1.2%). On the contrary, Ca-stimulated myosin ATPase activity was significantly increased by amrinone in myosin preparations from the tibialis anterior. Experiments were carried out to test whether amrinone (3 mm) might affect the sensitivity of the contractile system to MgATP concentration ([MgATP]). The results obtained showed that (1) the [MgATP] value at which isometric tension reached its maximum was shifted by amrinone from 0.1 mm to 0.3 mm, (2) the slope of the negative relation between [MgATP] and a/P0 was made more steep by amrinone, and (3) the Km of the hyperbolic relation between [MgATP] and Vmax was increased from 0.39 to 1.71 mm by amrinone, thus indicating a reduced affinity of myosin for MgATP. These results are in accordance with the hypothesis that amrinone exerts a direct effect on the contractile mechanism.

Age-dependent changes of relaxation and its load sensitivity in rat cardiac muscle.

SummaryThe relaxation phase and its load dependence were studied in papillary muscles isolated from the left ventricle of rats of the following ages: 20 days, 2, 8, 18, and 24 months. The myofibrillar ATPase activity and the force-velocity relation were determined in each age group in order to characterize the kinetic properties of the contractile material. Both shortening velocity and myofibrillar ATPase activity showed a progressive reduction with maturation and aging. This observation suggested an age-dependent decrease in cross bridge formation rate. The relaxation phase was characterized by its duration and the maximum rate of tension decline in isometric conditions, and by the speed of relenthenning in isotonic conditions. Relaxation became faster and of shorter duration with maturation from 20 days to 2 months and then became slower and of longer duration with further maturation and aging. The sensitivity of relaxation to changes in length or load was evaluted by measuring how much earlier tension declined in the presence of a given length change. An increase in load sensitivity of relaxation was observed during maturation from 20 days to 8 months. This increase was followed by a reduction during aging from 8 to 24 months. Such a biphasic trend of the age-related changes in load sensitivity of relaxation could result from the interplay between the progressive decrease in cross bridge formation rate and a reduction in activation decay rate. The latter was suggested by the prolongation of the relaxation phase and by the maintenance of developed tension during aging.

Tritiated water (HTO) and inulin spaces in isolated skeletal and cardiac muscles: influence of contractile activity

In isolated cardiac and skeletal muscle inulin space increased significantly after isometric contractions: no significant change (in myocardium) or a less pronounced increase (in skeletal preparations) was found following isotonic responses. The HTO space was uninfluenced by the contractile activity.

Oxygen availability, dietary restriction and transport of glucose 3-O-methylglucose and fructose in the isolated small intestine of rat.

The influences of PO2 of the incubating medium on glucose, 3-O-methylglucose and fructose transport by everted small intestine sacs in semistarved and rats fed ad libitum (controls) was investigated. Moreover fructose uptake and conversion to glucose by intestinal sacs was also studied. The results showed that intestinal sacs from semistarved rats transported larger amounts of glucose and 3-O-methylglucose and took up more fructose than controls, when PO2 of the incubating medium was 150 mm Hg. There was greater fructose conversion to glucose in the intestine of semistarved rats than in controls at all PO2s considered. The greater functional capacity of intestinal tissue of semistarved rats in comparison to controls has been related to larger O2 availability in their intestinal wall.

Inulin uptake and washout in contracting and quiescent rat papillary muscle

Equilibration and washout curves of inulin were determined in isolated rat papillary muscles. Inulin uptake did not reach a steady-state value even after a long equilibration time. The effects of contractile activity were investigated. Isometric contractions increased the rate of inulin uptake and washout. In isotonic conditions, a smaller increase in the uptake and washout was observed. These changes could be attributed to an actual increase of inulin distribution space and/or to an accelerated diffusion kinetics.