The delayed effects of prolonged physical exercise and physical training on cholesterol level

Summary The delayed effects of prolonged physical exercise on total and high-density lipoprotein (HDL) cholesterol were studied before and after a training period of 8 weeks. In 15 subjects, 1 and 2 days after a 3 h running test, total cholesterol was significantly lower than 1 day before and 8 days after the end of the exercise. One day post-exercise, HDL-cholesterol was significantly higher compared with 1 day before and 8 days afterwards. In ten subjects participating in the training program, decreased total cholesterol values were again found on the first day after the post-training exercise test. Total and HDL cholesterol levels were not significantly affected by 8 weeks of training.This work was supported by the Bundesinstitut für Sportwissenschaft, Köln     

短链酰基辅酶A脱氢酶在大鼠生理性和病理性心肌肥大中的作用

 目的：研究短链酰基辅酶A脱氢酶(short-chain acyl-CoA dehydrogenase, SCAD)在大鼠生理性和病理性心肌肥大中的变化,探讨其与心肌肥大之间的关系。方法：以自发性高血压大鼠作为病理性心肌肥大模型,游泳运动训练性大鼠作为生理性心肌肥大模型。检测大鼠的血压、左室重量指数、血清和心肌游离脂肪酸含量、SCAD mRNA、蛋白表达及其酶活性的变化,采用超声心动图观察心脏的结构及功能。结果：与对照组比较,运动组大鼠出现了明显的离心性肥大,心肌收缩功能增强;而高血压组大鼠呈现出明显的向心性肥大,心肌收缩功能减退。与对照组比较,运动组和高血压组大鼠的左室重量指数均明显增高,但两组间比较无显著差异,二者发生了相同程度的心肌肥大。与对照组比较,运动组大鼠左心室SCAD mRNA和蛋白表达均明显上调,酶活性增高,血清和心肌游离脂肪酸含量明显减少;而自发性高血压大鼠左心室SCAD mRNA和蛋白表达均明显下调,酶活性下降,血清和心肌游离脂肪酸含量明显增多。结论：SCAD在生理性和病理性心肌肥大中呈现出不一致的变化趋势,可能作为区别2种不同心肌肥大的分子标志物以及病理性心肌肥大的潜在治疗靶点。     

Metabolic response to heavy physical exercise before and after a 3-month training period

Summary Twenty healthy athletes performed a heavy physical exercise before and after a controlled training period of 3 months. As a result of physical training there was a reduction in lactate concentration during and after exercise. Plasma free fatty acids and triglyceride levels were lower at rest as well as during and after exercise. Insulin concentrations decreased during exercise before the training period whereas they remained constant afterwards. The composition of individual free fatty acids changed in the same way during exercise before and after training: fatty acids with shorter hydrocarbon chains increased, those with longer chains decreased. Comparing the pattern of individual free fatty acids before and after training a higher percentage of saturated and a lower percentage of mono-unsaturated fatty acids was observed.It is concluded that changes in the plasma free fatty acid profile during heavy exercise reflect a preferential uptake and oxidation of certain individual free fatty acids. The significance of training-induced changes in the plasma free fatty acid pattern is discussed.     

Changes of free amino acids in plasma of healthy subjects induced by physical exercise

In eight healthy men a 20-min load of 1.5 W/kg body weight on a bicycle ergometer led to a significant increase of alanine and decline of leucine. Exhausting exercise caused in the same subjects a highly significant increase of alanine and decline of isoleucine, threonine, ornithine, leucine, serine, glycine, and asparagine and glutamine. The methionine and citrulline level declines also significantly. The total amino acids practically did not change. Physical exercise led furthermore to a marked increase of serum ammonia and uric acid. Urea nitrogen changed only little and on average had rather a declining tendency. The rise of alanine suggests the existence of a glucose-alanine cycle, the drop of ornithine and citrulline is most probably associated with the inhibition of ureogenesis in the liver. The reduction of leucine and isoleucine is probably the result of the entry of these amino acids into muscle and their deamination.     

Effect of exercise training on the fatty acid composition of lipid classes in rat liver, skeletal muscle, and adipose tissue

The aim of the present study was to examine the effects of 8 weeks of exercise training on the fatty acid composition of phospholipids (PL) and triacylglycerols (TG) in rat liver, skeletal muscle (gastrocnemius medialis), and adipose tissue (epididymal and subcutaneous fat). For this purpose, the relevant tissues of 11 trained rats were compared to those of 14 untrained ones. Training caused several significant differences of large effect size in the concentrations and percentages of individual fatty acids in the aforementioned lipid classes. The fatty acid composition of liver PL, in terms of both concentrations and percentages, changed with training. The TG content of muscle and subcutaneous adipose tissue decreased significantly with training. In contrast to the liver, where no significant differences in the fatty acid profile of TG were found, muscle underwent more significant differences in TG than PL, and adipose tissue only in TG. Most differences were in the same direction in muscle and adipose tissue TG, suggesting a common underlying mechanism. Estimated fatty acid elongase activity was significantly higher, whereas ⁹-desaturase activity was significantly lower in muscle and adipose tissue of the trained rats. In conclusion, exercise training modified the fatty acid composition of liver PL, muscle PL and TG, as well as adipose tissue TG. These findings may aid in delineating the effects of exercise on biological functions such as membrane properties, cell signaling, and gene expression.An erratum to this article can be found at     

The effect of exercise training on restraint ulcers in rats

The effect of chronic treadmill running on susceptibility to restraint-cold-induced ulcers was studied in two strains of rats: Long-Evans and Sprague-Dawley. Runners were progressively trained for 8 weeks, reaching a rate of 1 mph for 1 hr daily, 5 days per week after the 4th week. Walkers were exposed to the treadmill environment 3 days per week (0.2 mph for 10 min). Sedentary groups remained in their home cages. After 8 weeks the rats were starved for 24 hrs, immobilized in restraint cages and placed in the refrigerator (5° C) for 4 hrs. Animals were then sacrificed and their stomachs examined for ulcerative lesions. No significant differences in number of ulcers or ulcer indexes per stomach were found between groups within each rat strain or between strains. These results suggest that treadmill running provides no protection against gastric ulceration induced by restraint-cold stress. The complex variables involved in ulcer research are discussed and suggestions presented for future work on the anti-ulcer effect of exercise.Supported in part by the University of Nebraska Research Council Summer Fellowship.     

The effects of exercise training and denervation on the morphology of intrafusal muscle fibers

Summary The morphological effects of daily bouts of exercise and denervation on teres minor intrafusal muscle fibers were investigated in male Sprague-Dawley rats. After denervation, nuclear bag and nuclear chain muscle fiber cross-sectional area atrophied only 25 and 33% of the amount experienced by extrafusal fibers. Of the two fiber types, the nuclear chain fibers appeared to be more responsive to the effects of exercise than the nuclear bag fibers; however, this trend for enlargement had no statistical significance. Length measurements did not reveal any marked changes of any fiber type to the experimental conditions of this study. It was concluded that the possible differences in function and innervation of the nuclear bag and nuclear chain fibers could partly account for these findings.Supported in part by funds provided by the Graduate College.     

Stereology of myocardial hypertrophy induced by physical exercise

Summary Twenty young female Sprague-Dawley rats were randomly assigned to 2 groups. Ten animals served as sedentary controls, the 10 experimental animals were subjected to a training program with gradually increasing intensity of 18 weeks duration on a motor-driven treadmill. The rats were fixed by retrograde vascular perfusion via the abdominal aorta under anesthesia. Two transverse and 2 longitudinal sections per animal were selected at random from the left ventricular papillary muscles for light and electron microscopic stereological investigation. Length density and surface density of myocardial cells and capillaries were estimated with correction for partial anisotropy and curvature by means of the mathematical model of a Dimroth Watson orientation distribution. Left and right ventricular weight increased by 20% in the exercise group (P<0.001), whereas body weight remained unchanged. Physical training led to a significant increase of heart muscle fiber cross-sectional area by 17% (P<0.01). The ultrastructural volumetric composition of the myocardial cell cytoplasm by myofibrils, mitochondria, and sarcoplasmic matrix remained unchanged. Volume density, length density and surface density of capillaries, as well as capillary cross-sectional area and capillary anisotropy parameters were not significantly altered by training. From the data one concludes an increase of the 3-dimensional capillary-fiber ratio by 19% (P<0.001). Thus physical training induces mild absolute biventricular cardiac hypertrophy in young female rats, in which capillary proliferation compensates for the increase of mean oxygen diffusion distance resulting from fiber thickening, by supplying each unit of fiber length by more units of capillary length.     

Effects of acute exercise and prolonged exercise training on blood pressure,vasopressin and plasma renin activity in spontaneously hypertensive rats

Summary The purpose of this study was to investigate the effect of swimming training on systolic blood pressure (BP_s), plasma and brain vasopressin (AVP), and plasma renin activity (PRA) in spontaneously hypertensive rats (SHR) during rest and after exercise. Resting and postexercise heart rate, as well as blood parameters such as packed cell volume (PCV), haemoglobin concentration (Hb), plasma sodium and potassium concentrations ([Na⁺], [K⁺]) osmolality and proteins were also studied. Hypophyseal AVP had reduced significantly after exercise in the SHR, whereas PRA had increased significantly in the Wistar-Kyoto (WKY) strain used as normotensive controls. Plasma AVP concentration increased in both strains. By the end of the experiment, training had reduced body mass and BP_s by only 10% and 6%, respectively. Maximal oxygen uptake was increased 10% and plasma osmolality 2% by training. The postexercise elevation of heart rate was not significantly attenuated by training. A statistically significant reduction in postexercise plasma osmolality (10%) and [Na⁺] (4%) was observed. These results suggested that swimming training reduced BPS. Plasma and brain AVP played a small role in the hypertensive process of SHR in basal conditions because changes in AVP contents did not correlate with those of BP_s. Moreover, there were no differences between SHR and WKY in plasma, hypophyseal and hypothalamic AVP content in these basal conditions. Finally, during moderate exercise a haemodilution probably occurred with an increase of plasma protein content. This was confirmed by the exercise-induced increase of plasma AVP and the reduction of hypophyseal AVP content, suggesting a release of this hormone, which probably contributed to the water retention and haemodilution. This investigation showed that swimming training produced an attenuation of the raised resting blood pressure in this strain and that plasma and brain AVP played a negligible role in the maintenance of hypertension in basal conditions. However, during training, this hormone may have played a role, training having induced simultaneously a decrease in BP_s and plasma AVP.     

Exercise training prevents diastolic dysfunction induced by metabolic syndrome in rats

OBJECTIVE:

High fructose consumption contributes to the incidence of metabolic syndrome and, consequently, to cardiovascular outcomes. We investigated whether exercise training prevents high fructose diet-induced metabolic and cardiac morphofunctional alterations.

METHODS:

Wistar rats receiving fructose overload (F) in drinking water (100 g/l) were concomitantly trained on a treadmill (FT) for 10 weeks or kept sedentary. These rats were compared with a control group (C). Obesity was evaluated by the Lee index, and glycemia and insulin tolerance tests constituted the metabolic evaluation. Blood pressure was measured directly (Windaq, 2 kHz), and echocardiography was performed to determine left ventricular morphology and function. Statistical significance was determined by one-way ANOVA, with significance set at p<0.05.

RESULTS:

Fructose overload induced a metabolic syndrome state, as confirmed by insulin resistance (F: 3.6±0.2 vs. C: 4.5±0.2 mg/dl/min), hypertension (mean blood pressure, F: 118±3 vs. C: 104±4 mmHg) and obesity (F: 0.31±0.001 vs. C: 0.29±0.001 g/mm). Interestingly, fructose overload rats also exhibited diastolic dysfunction. Exercise training performed during the period of high fructose intake eliminated all of these derangements. The improvements in metabolic parameters were correlated with the maintenance of diastolic function.

CONCLUSION:

The role of exercise training in the prevention of metabolic and hemodynamic parameter alterations is of great importance in decreasing the cardiac morbidity and mortality related to metabolic syndrome.     

Effect of short physical exercise on the levels of zinc and carbonic anhydrase isoenzyme activities in human erythrocytes

Summary Studies of the influences of physical exercise of short duration (bicycle ergometer, 200 W for 30 min) on the activities of carbonic anhydrase isoenzymes (CA-B and CA-C types) and zinc concentration in erythrocytes were made on 5 untrained healthy male volunteers. The subjects were rested for 30 min after the exercise. There were significant decreases in the levels of zinc, CA-B, total carbonic anhydrase activity and CA-B-dependent activity immediately after exercise, but after 30 min of rest they all returned to their pre-exercise levels. No significant change in CA-C level or CA-C-dependent activity was found after exercise. Immediately after exercise, total carbonic anhydrase activity and CA-B-dependent activity following the addition of Zn²⁺ showed significant increases, compared with their respective activities without Zn²⁺ addition. However, no such effects were observed just before exercise or after rest; the addition of Zn²⁺ had no effect on CA-C-dependent activity at any time. A significant correlation was found between the changes in concentration of zinc and CA-B-dependent activity after exercise (r=0.711). The findings of the present study suggest that active CA-B enzymes are converted in part to inactive enzymes during acute physical exercise, possibly by decreased zinc binding. Moreover, the change in CA-B-dependent activity correlated well with the changes in pH and HCO₃ concentrations in venous blood (r=0.853 and r=0.718, respectively). One may speculate that an adaptive decrease in CA-B-dependent activity in erythrocytes occurs with increased acidification in blood during heavy physical exercise of short duration.The present study was presented to the Fifth International Symposium on the Biochemistry of Exercise, Boston, June 1–5, 1982     

Changes in human heart rate during sleep following daily physical exercise

Summary Four fit, healthy young men (aged 20) volunteered for the experiment. After a 5 day control period, they marched for 6 consecutive days (from 09:00 h to 17:00 h) for 34 km/day at a speed of 6 km/h, with an energy expenditure of 35% of individual max. A recovery period of 5 consecutive days began immediately after the exercise period. Sleep records and electrocardiograms were taken every night during the three periods from 22:00 h to 06:00 h.During the exercise period the night time heart rates increased by about 10%, compared to the previous control condition, and returned to normal during the recovery period.The relation between heart rate changes and sleep stages remained identical throughout the three experimental periods. Three subjects showed an increase in heart rate during paradoxical sleep, compared to the preceding slow wave sleep, while one subject experienced the reverse.The tonic increases in heart rate are discussed in relation to changes in body temperature, sleep patterns, blood composition and hormonal status induced by the physical exercise performed.Supported by grant N 77/1198 from the Direction des Recherches et Etudes Techniques (Délégation Ministérielle pour l'Armement)     

Plasma vasopressin,renin activity,and aldosterone: Effect of exercise and training

Summary The influence of endurance-training on hematocrit, plasma vasopressin, renin activity, and aldosterone changes at rest and at the end of an exercise performed until exhaustion at a given and constant relative work-load (87% of maximal oxygen uptake) has been studied in four untrained subjects submitted to a 5-month training. At the end of this period, maximal oxygen uptake increased of 15.2% (p<0.01). Hematocrit at rest slightly rose after training, and if exercise constantly induced increases in hematocrit before (p<0.001) and after training (p<0.005), the per cent increase after training was lower than before (p<0.05). Comparison between the importance of weight loss and hematocrit variation showed that when untrained subjects become trained the variation of hematocrit after exercise becomes smaller while weight loss is more important (p<0.01).Plasma renin activity (PRA), aldosterone (Aldo) and vasopressin (AVP) levels, compared to control values, displayed a significant increase after exercise before as well as after training. Control values remained unchanged after training for aldosterone and AVP, but were significantly lower (p<0.05) for PRA. This latter observation could be explained by the change in blood volume induced by exercise.This work was supported by DGRST (grant nos. 77.7.0823 to Cl. Gharib and 77.7.0824 to J. R. Lacour) and Fondation pour la Recherche Médicale FranÇaise (1979)     

Changes in red cell density and related indices in response to distance running

Summary The red cell population in peripheral venous blood was characterised in 7 young males before and up to 16 days after a 21.1 km road race.There was a 1.9±2.4% (mean±SD) reduction in plasma volume immediately post race (p<0.05), an increase in serum osmolality from 277±4 mOsm·kg^–1 to 291±14 mOsm·kg^–1 (p<0.05) and a reduction in red cell water (64.4±0.3% to 63.4±0.4%,p<0.001). The latter was consistent with alterations in the manually derived MCV and MCHC values although the same Coulter derived values were unaltered. A concomitant increase in median red cell density in whole blood (1.1045±0.0009 g·ml^–1 pre race to 1.1057±0.012 g·ml^–1 immediate post race,p<0.05) was recorded by centrifugation through phthalate esters of different density. The changes in creatine content of the red cells suggested that during the race younger cells were released into the circulation but that 24 h to 72 h after the race the mean red cell age had increased. Similarly, fractionation of the red cells on discontinuous Percoll density gradients indicated that the cell population was significantly denser in all post race samples up to 72 h but had normalized by a 16 day sample; the osmotic fragility was similarly affected. The reticulocyte count did not significantly increase throughout the experiment but the mean red cell creatine content was elevated 16 days post exercise compared with the pre-race value suggesting a possible increase in erythropoiesis between 72 h and 16 days post race. The study shows that exercise of this type may induce a small reduction in mean red cell survival time but that this does not immediately change erythropoietic activity.     

Leucocytosis as a marker of organ damage induced by chronic strenuous physical exercise

The effects of strenuous physical exercise on the serial changes in the haematological, biochemical and hormonal markers were investigated. A group of 14 soldiers, aged 24–36 years, took part in a military training course for about 13 weeks. After severe exercise stress, an increase (90%) in the number of peripheral blood leucocytes was observed. The degree of leucocytosis showed a close correlation with the values of some serum parameters, such as concentrations of aspartate aminotransferase (AST;r = 0.747), lactate dehydrogenase (LD;r = 0.748), blood urea nitrogen (r = 0.756), creatine kinase (CK;r = 0.637), manganese-superoxide dismutase (Mn-SOD;r = 0.508), alanine aminotransferase (ALT;r = 0.542) and uric acid (r = 0.538), and concentrations of urinary parameters, such as vanilmandelic acid (r = 0.429) and free cortisol (r = 0.437). The subjects showing prominent leucocytosis over 9500 cells · l^–1 exhibited a lower concentration of serum cholinesterase than those who showed milder leucocytosis. The serum Mn-SOD concentration was closely correlated with the serial changes in serum concentrations of AST, ALT, LD and CK, indicating exercise-induced muscle and liver damage. The change in peripheral leucocyte number was assumed to be diagnostically informative and may be a prognostic marker, reflecting organ damage and restoration after strenuous physical exercise.     

Insulin resistance induced by high-fat feeding is only partially reversed by exercise training

Diets high in saturated fat and simple carbohydrate result in an insulin-resistant state, while training increases insulin sensitivity. Insulin resistance was induced by feeding a high-fat, high-sucrose (HFS) diet to 4-week-old female Sprague-Dawley rats. A control diet (low-fat, complex-carbohydrate) was fed to another group for comparison. During the 4-week dietary treatment, half of each group was trained by treadmill running (2 h day^–1, 6 days week^–1m 30 m min^–1, 0% grade). At the end of this 4-week experimental period, hindquarter perfusions were performed at either basal (0) or maximal (100 nM) insulin concentrations to determine glucose uptake, glycogen synthesis, total glycogen content and the activity of several enzymes. Insulin (100 nM) significantly increased glucose uptake and glycogen synthesis in all four groups (CON-UN, CON-TR, HFS-UN, HFS-TR, where CON, UN and TR refer to control, untrained and trained respectively). HFS feeding significantly decresed (P<0.002) glucose uptake (mol g^–1 h^–1) with maximal insulin stimulation, while training significantly increased uptake (P<0.01) at both insulin concentrations. Glycogen synthesis was also increased by training (P<0.05) at both insulin concentrations, but accounted for only 25–28% of the glucose uptake. Although training improved the insulin resistance caused by the HFS diet, glucose uptake in the HFS-TR group was still significantly lower than the CON-TR group. Changes in glycogen synthesis are not great enough to account for the decrease or increase in glucose uptake found in the HFS-fed or trained animals.     

Changes to erythrocyte membrane cation permeability induced by a bacterial toxin

Vibrio parahaemolyticus secretes an exotoxin prepared as Kanagawa haemolysin (KH) which causes marked alterations to the function of epithelial, cardiac and other cell types, but whose cellular mode of action is poorly understood. Using human red cells as a model system with radiotracer flux techniques, we have shown that KH (1) markedly elevated the basal leak to K⁺, (2) raised Ca²⁺ influx, and as a consequence of this, (3) stimulated the Ca²⁺-activated K⁺ channel. These results suggest that an important deleterious effect of this toxin is to elevate cation permeability, which will have both direct and indirect actions on the behaviour of a variety of cell typesin vivo.     

Cardiovascular and respiratory responses to submaximal exercise training in the thoroughbred horse

Cardiovascular and respiratory responses to submaximal exercise training were investigated in 6 thoroughbred racehorses. Oxygen uptake, heart rate (HR) and arteriovenous oxygen content difference were measured during incremental treadmill exercise tests, before and after 7 weeks of treadmill training. Cardiac output during exercise was calculated by the direct Fick technique. Maximal oxygen uptake ( ) was increased by 23% after training, from 129.7 ml/kg/min to 160.0 ml/kg/min. The treadmill speed at which was attained increased by 19%. The increased aerobic power after training was associated with an increase in maximal cardiac output and stroke volume, a decrease in arteriovenous oxygen difference and no change in HR. There was no change in pulmonary ventilation during exercise at . Mean mixed venous oxygen content ( ) at before training was 2.8±1.0 ml/100 ml blood (mean ±SE). After training the value was 8.6±1.4 ml/100 ml blood. It is concluded that the increase in after training in the horse is dependant on augmented blood flow, and is not dependent on either increased arterial oxygen content or arteriovenous oxygen content difference. Cardiac capacity to pump blood is therefore of primary importance as a determinant of increases in due to training in the horse.