Increased insulin receptors after exercise in patients with insulin-dependent diabetes mellitus

Beneficial effects of exercise training in heart failure are lost in male diabetic rats

Exercise training has been demonstrated to have beneficial effects in patients with heart failure (HF) or diabetes. However, it is unknown whether diabetic patients with HF will benefit from exercise training. Male Wistar rats were fed either a standard (Sham, n = 53) or high-fat, high-sucrose diet ( n = 66) for 6 mo. After 2 mo of diet, the rats were already diabetic. Rats were then randomly subjected to either myocardial infarction by coronary artery ligation (MI) or sham operation. Two months later, heart failure was documented by echocardiography and animals were randomly subjected to exercise training with treadmill for an additional 8 wk or remained sedentary. At the end, rats were euthanized and tissues were assayed by RT-PCR, immunoblotting, spectrophotometry, and immunohistology. MI induced a similar decrease in ejection fraction in diabetic and lean animals but a higher premature mortality in the diabetic group. Exercise for 8 wk resulted in a higher working power developed by MI animals with diabetes and improved glycaemia but not ejection fraction or pathological phenotype. In contrast, exercise improved the ejection fraction and increased adaptive hypertrophy after MI in the lean group. Trained diabetic rats with MI were nevertheless able to develop cardiomyocyte hypertrophy but without angiogenic responses. Exercise improved stress markers and cardiac energy metabolism in lean but not diabetic-MI rats. Hence, following HF, the benefits of exercise training on cardiac function are blunted in diabetic animals. In conclusion, exercise training only improved the myocardial profile of infarcted lean rats fed the standard diet. NEW & NOTEWORTHY Exercise training is beneficial in patients with heart failure (HF) or diabetes. However, less is known of the possible benefit of exercise training for HF patients with diabetes. Using a rat model where both diabetes and MI had been induced, we showed that 2 mo after MI, 8 wk of exercise training failed to improve cardiac function and metabolism in diabetic animals in contrast to lean animals.

In vitro silencing of the insulin receptor attenuates cellular accumulation of fibronectin in renal mesangial cells

Background

Insulin receptor (InsR) and insulin signaling proteins are widely distributed throughout the kidney cortex. Insulin signaling can act in the kidney in multiple ways, some of which may be totally independent of its primary role of the maintenance of whole-body glucose homeostasis. However, descriptions of the insulin signaling in renal glomerular mesangial cells (MCs) are quite limited and the roles of insulin signaling in MC functions have not been sufficiently elucidated.

Results

InsR silencing induced a unique phenotype of reduced fibronectin (FN) accumulation in renal glomerular MCs. Transcription level of FN was not significantly changed in the InsR silenced cells, suggesting the phenotype switching was caused by post-transcriptional modification. The decreased expression of InsR was associated with enhanced activity of insulin-like growth factor-1 receptor (IGF-1R)/PI3K/Akt signaling pathway which contributed in part to the attenuation of cellular FN accumulation. Formation of IGF-1R homodimer was increased in the InsR silenced cells. The InsR silenced cells also showed increased sensitivity to exogenous IGF-1, and increased PI3K activity was reversed significantly by incubating cells with IGF-1R specific antagonist, AG538. PI3K/Akt dependent activation of cAMP responsive element-binding protein (CREB)-1 induced expression of matrix metalloproteinase (MMP)-9 and suppressing MMP activity by doxycycline partially reversed FN accumulation in the InsR silenced cells.

Conclusions

The effects of InsR silencing on cellular FN accumulation in vitro are, at least partially, mediated by increased degradation of FN by MMPs which is induced by enhanced signaling sequence of IGF-1R/PI3K/Akt/CREB-1.

Insulin receptor isoforms and insulin receptor/insulin-like growth factor receptor hybrids in physiology and disease

In mammals, the insulin receptor (IR) gene has acquired an additional exon, exon 11. This exon may be skipped in a developmental and tissue-specific manner. The IR, therefore, occurs in two isoforms (exon 11 minus IR-A and exon 11 plus IR-B). The most relevant functional difference between these two isoforms is the high affinity of IR-A for IGF-II. IR-A is predominantly expressed during prenatal life. It enhances the effects of IGF-II during embryogenesis and fetal development. It is also significantly expressed in adult tissues, especially in the brain. Conversely, IR-B is predominantly expressed in adult, well-differentiated tissues, including the liver, where it enhances the metabolic effects of insulin. Dysregulation of IR splicing in insulin target tissues may occur in patients with insulin resistance; however, its role in type 2 diabetes is unclear. IR-A is often aberrantly expressed in cancer cells, thus increasing their responsiveness to IGF-II and to insulin and explaining the cancer-promoting effect of hyperinsulinemia observed in obese and type 2 diabetic patients. Aberrant IR-A expression may favor cancer resistance to both conventional and targeted therapies by a variety of mechanisms. Finally, IR isoforms form heterodimers, IR-A/IR-B, and hybrid IR/IGF-IR receptors (HR-A and HR-B). The functional characteristics of such hybrid receptors and their role in physiology, in diabetes, and in malignant cells are not yet fully understood. These receptors seem to enhance cell responsiveness to IGFs.

Electro-acupuncture improves responsiveness to insulin via excitation of somatic afferent fibers in diabetic rats

The effects of electro-acupuncture (EA) on plasma concentration of glucose and on responsiveness to insulin were examined in an animal model of diabetes, the streptozotocin-treated rat. Two weeks after treatment with streptozotocin, rats were anesthetized with urethane-chloralose and subjected to the EA for 10 min delivered to the tibialis anterior muscle of one side. The stimulation produced no significant changes in plasma glucose concentration. In contrast, EA increased the response of plasma glucose to insulin (0.2 U kg(-1)). The effect of EA on the responsiveness to insulin was abolished by section of both sciatic and femoral nerves ipsilateral to the side of the EA. These results show that EA in diabetic rats has no effect on plasma glucose concentration while it augments the responsiveness to insulin, and we show that this occurs via a mechanism that involves the somatic afferent nerves.

Type I diabetes and physical exercise

Metabolic effects of physical exercise in type I diabetes are reviewed. Physical training leads to an increased insulin sensitivity but does not seem to influence the metabolic control. However, the metabolic control is of importance for the exercise results. Patients in a good control do not differ from normal individuals concerning working capacity, recovery after hypoglycemia and hormonal balance. Furthermore, abnormalities in the blood glucose homeostasis during exercise in type I diabetes are discussed as well as potential beneficial effects of physical training in the prevention of cardiovascular disease.

Efeitos da suplementação de potássio via sal de cozinha sobre a pressão arterial e a resistência à insulina em pacientes obesos hipertensos em uso de diuréticos

OBJETIVO: Avaliar os efeitos da suplementação de potássio, por intermédio do sal de cozinha contendo cloreto de potássio, associada à dieta hipocalórica e à atividade física aeróbica, sobre a pressão arterial e índices de resistência à insulina em pacientes hipertensos com obesidade abdominal. MÉTODOS: Estudo prospectivo duplo-cego, randomizado, em 22 pacientes hipertensos com excesso de peso (índice de massa corporal >27kg/m²) e controle insatisfatório da pressão arterial durante o uso de diuréticos pressão arterial sistólica >140 e <160mmHg e/ou pressão arterial diastólica >90 e <105mmHg. O estudo teve duração de 12 semanas, durante as quais, os pacientes, divididos em dois grupos (grupo sal normal, n=10; grupo sal de potássio, n=12), receberam sal contendo 100% de cloreto de sódio, ou sal contendo 50% de cloreto de sódio e 50% de cloreto de potássio. No início e ao final do estudo, os pacientes foram submetidos à determinação do índice de massa corporal, da circunferência da cintura, dos níveis séricos e da excreção urinária de sódio e potássio, à monitorização ambulatorial da pressão arterial nas 24 horas, ao teste oral de tolerância à glicose com determinação dos níveis séricos de insulina em jejum e aos 120 minutos, à determinação do perfil lipídico do plasma e à medida da composição corporal. RESULTADOS: No grupo sal de potássio, os níveis do potássio sérico não se elevaram, como no grupo sal normal, embora se elevasse de 38,8±18,6 para 62,3±29,7mEq/g a excreção de creatinina urinária (p<0,05). A perda de peso, semelhante nos dois grupos (3,5% no grupo sal normal e 2,7% no grupo sal de potássio), associou-se às reduções na pressão arterial sistólica durante a monitorização ambulatorial da pressão arterial; de 134,7 ±14,8 para 130,2±12,6mmHg (p<0,05) no grupo sal normal e de 128,2±7,4 para 122,9±5,7mmHg (p<0,05) no grupo sal de potássio, e às reduções na pressão arterial diastólica durante a monitorização ambulatorial da pressão arterial, de 84,4±10,2 para 81,4 ± 8,9mmHg no grupo sal normal e de 84,0±5,7 para 79,5±3,9mmHg (p<0,05) no grupo sal de potássio. As variações da pressão arterial sistólica, semelhantes nos dois grupos, correlacionaram-se com as variações das medidas da circunferência da cintura em todos os pacientes analisados em conjunto (r s=0,624; p=0,002). Os índices de resistência à insulina e o perfil lipídico do plasma não se alteraram e não diferiram entre os grupos. CONCLUSÃO: Nossos resultados indicam que as perdas de peso induzidas por alterações no estilo de vida promovem reduções na pressão arterial, proporcionais às reduções na gordura abdominal. A suplementação de potássio a partir da utilização do sal de cozinha contendo cloreto de potássio, em pacientes hipertensos obesos em uso de diurético, se mostrou insuficiente para impedir a queda dos níveis séricos de potássio e não resultou em nenhum efeito sobre a resistência à insulina ou sobre a pressão arterial, além daquele obtido pela perda de peso.

Assessment of a low-intensity cardiac rehabilitation programme using the six-minute walk test

OBJECTIVE

To examine the utility of the six-minute walk test (6'WT), in assessing the effectiveness of a six-week cardiac rehabilitation programme, of which exercise training was an integral part.

SETTING

Royal Liverpool and Broad Green Hospitals Rehabilitation Unit.

DESIGN

Two hundred and thirty-nine consecutive patients referred for cardiac rehabilitation were allocated to one of two groups. In group A 209 entered and 159 completed the usual rehabilitation programme whilst group B patients (n = 30) acted as a control by deferring entry to the programme for six weeks, continuing only activities of daily living.

OUTCOME MEASURES

Both groups were assessed using the 6'WT, peak expiratory flow rate (PEFR) and isometric grip strength at enrolment and six weeks.

RESULTS

At baseline, groups A and B were demographically identical without significant differences in terms of 6'WT, PEFR or grip strength. Following the study period, group A showed a significant increase in 6'WT from 314.7 +/- 76.2 to 377.3 +/- 78.6 m, in PEFR from 406.9 +/- 115.9 to 437.8 +/- 118.6 litres per minute and in grip strength from 28.8 +/- 9.31 to 30.3 +/- 8.93 kg, all p < 0.001. There were no significant changes in group B.

CONCLUSIONS

The 6'WT proved to be a simple and effective measurement of functional capacity in patients performing cardiac rehabilitation. The clinical programme investigated successfully increased patients' functional capacity as assessed by the 6'WT. Significant improvement in PEFR and grip strength was also demonstrated, compared with a control population.

Exercise training normalizes wall-to-lumen ratio of the gracilis muscle arterioles and reduces pressure in spontaneously hypertensive rats

OBJECTIVE

To investigate mechanisms underlying the training-induced blood pressure-lowering effect we analyzed the hemodynamic responses and morphometric changes of the skeletal muscle microcirculation of spontaneously hypertensive (SHR) and normotensive Wistar-Kyoto (WKY) rats during an exercise training program. DESIGN TRAINING: (50-60% VO2 max) was performed on a treadmill for 13 weeks and control groups were kept sedentary over the same period of time. Trained and sedentary rats were chronically instrumented for hindlimb flow and arterial pressure (AP) recordings under conscious unrestrained conditions. Gracilis and myocardial muscle samples were obtained for morphometric analysis after transcardiac perfusion of fixative.

RESULTS

SHR, when compared to WKY presented an elevated blood pressure, an increased relative hindlimb vascular resistance, capillary rarefaction in both gracilis and myocardium and an increased wall-to-lumen ratio of gracilis arterioles. Training increased significantly both capillary density and capillary/fiber ratio in the gracilis and myocardium of WKY and SHR groups, causing a complete reversal of capillary rarefaction in trained SHR. In SHR, training also reduced resting blood pressure and caused normalization of both relative hindlimb vascular resistance and gracilis arterioles wall-to-lumen ratio. Regression analysis revealed strong positive correlation between hindlimb vascular resistance and mean AP (MAP) and between arterioles wall-to-lumen ratio and MAP.

CONCLUSIONS

The results suggest that low-intensity training can significantly reduce pressure in SHR while normalizing both the arteriole morphology and the resistance of the skeletal muscle microcirculation.

Subcutaneous central fat is associated with cardiovascular risk factors in men independently of total fatness and fitness

The purpose of this study was to analyze the single and independent associations of whole body composition and fat distribution with cardiovascular disease (CVD) risk factors and fitness in middle-aged men. Sixty-two healthy Caucasian men (37.6 +/- 2.9 yr, 81.8 +/- 11.3 kg, 171.5 +/- 4.9 cm) participated in the study. Dual-energy x-ray absorptiometry (DXA) was used to assess total and regional body composition. The triceps, biceps, midthigh, calf, subscapular, chest, abdominal and suprailiac skinfolds, and the waist, hip and midthigh circumferences, and sagittal diameter were estimated. Cardiovascular fitness was estimated with a submaximal test. Bivariate and partial correlation analysis were used to study the association of total body percent fat (%fat), DXA trunk fat and trunk skinfolds (sum of subscapular, chest, abdominal, and suprailiac) and fitness with insulin, total cholesterol (TC), high-density lipoprotein cholesterol (HDL-C), TC/HDL-C, low-density lipoprotein cholesterol (LDL-C), triglycerides (TG), apolipoprotein AI (apo AI), apolipoprotein B (apo B), lipoprotein(a) [Lp(a)], and diastolic and systolic blood pressure. All anthropometric and DXA body composition variables were significantly correlated with TC/HDL-C (from .26 to .50, P < .05). Similar relationships were found for insulin, HDL-C, and systolic blood pressure (r from .26 to .47, P < .05). Cardiovascular fitness was significantly (P < .05) associated with insulin (r = -.36), HDL-C (r = .27), TC/HDL (r = -.27), and with systolic blood pressure (r = -.37). After controlling for trunk skinfolds, none of the anthropometric and DXA body composition variables were correlated with any of the CVD risk factors. Similarly, when controlling for trunk skinfolds, cardiovascular fitness was not related to any of the metabolic variables. After adjusting for %fat, DXA trunk fat, and cardiovascular fitness, trunk skinfolds remained significantly (P < .05) related to insulin (r = .35), HDL-C (r = -.40), TC/HDL-C (r = .43), and apo AI (r = -.39). In conclusion, this study suggests that subcutaneous truncal fat, as estimated by skinfolds, is an independent predictor of CVD risk factors, and that the association between cardiovascular fitness and these risk factors may be mediated by the levels of abdominal subcutaneous fat in Caucasian middle-aged men.

Cardiac rehabilitation: are the potential benefits being realized?

Cardiac rehabilitation or exercise training programmes are provided by many hospitals. This article discusses the evidence supporting the implementation of such facilities and reviews the reality of services in the UK.

Diabetes mellitus and predisposition to athletic pedal fracture

The purpose of this project was to study the epidemiology of pedal fractures among diabetic athletes and to determine whether diabetic athletes have a higher prevalence of pedal fractures than athletes from the general population. Questionnaire results were obtained from 120 athletes, 60 with diabetes mellitus and 60 without the disease. Subjects answered questions regarding gender, age, duration of disease (if present), presence of Type I or Type II diabetes, daily activity level, types of physical activity, and the admission or denial of athletically induced pedal fracture, including which bones were affected. Statistical significance was achieved with the following parameters: the presence of diabetes and increased prevalence of fracture (p < 0.025) maleness and diabetes and increased prevalence of fracture (p < 0.05), duration of diabetes greater than 25 years and increased prevalence of fracture (p < 0.005), control subjects greater than 30 years of age and increased prevalence of fracture (p = 0.007), moderate correlation between diabetes and prevalence of multiple fractures (r = 0.55, p < 0.025), and moderate correlation between daily activity level and prevalence of fracture among control subjects (r = 0.73, p < 0.05). The most frequently fractured bone was the fifth metatarsal. Until now the literature available on the topic has been sparse, confusing and inconclusive; the results of this study was enable individuals with diabetes to be informed of the risks of pedal fracture associated with active lifestyles.

Role of exercise training in the prevention and treatment of insulin resistance and non-insulin-dependent diabetes mellitus

Recent epidemiological studies indicate that individuals who maintain a physically active lifestyle are much less likely to develop impaired glucose tolerance and non-insulin-dependent diabetes mellitus (NIDDM). Moreover, it was found that the protective effect of physical activity was strongest for individuals at highest risk of developing NIDDM. Reducing the risk of insulin resistance and NIDDM by regularly performed exercise is also supported by several aging studies. It has been found that older individuals who vigorously train on a regular basis exhibit a greater glucose tolerance and a lower insulin response to a glucose challenge than sedentary individuals of similar age and weight. While the evidence is substantial that aerobic exercise training can reduce the risk of impaired glucose tolerance and NIDDM, the evidence that exercise training is beneficial in the treatment of NIDDM is not particularly strong. Many of the early studies investigating the effects of exercise training on NIDDM could not demonstrate improvements in fasting plasma glucose and insulin levels, or glucose tolerance. The adequacy of the training programmes in many of these studies, however, is questionable. More recent studies using prolonged, vigorous exercise-training protocols have produced more favourable results. There are several important adaptations to exercise training that may be beneficial in the prevention and treatment of insulin resistance, impaired glucose tolerance and NIDDM. An increase in abdominal fat accumulation and loss of muscle mass are highly associated with the development of insulin resistance. Exercise training results in preferential loss of fat from the central regions of the body and should therefore contribute significantly in preventing or alleviating insulin resistance due to its development. Likewise, exercise training can prevent muscle atrophy and stimulate muscle development. Several months of weight training has been found to significantly lower the insulin response to a glucose challenge without affecting glucose tolerance, and to increase the rate of glucose clearance during a euglycaemic clamp. Muscle glucose uptake is equal to the product of the arteriovenous glucose difference and the rate of glucose delivery or muscle blood flow. While it has been known for many years that insulin will accelerate blood glucose extraction by insulin-sensitive peripheral tissues, recent evidence suggests that it can also acutely vasodilate skeletal muscle and increase muscle blood flow in a dose-dependent manner. A reduced ability of insulin to stimulate muscle blood flow is a characteristic of insulin-resistant obese individuals and individuals with NIDDM. Exercise training, however, has been found to help alleviate this problem, and substantially improve the control of insulin over blood glucose. Improvements in insulin resistance and glucose tolerance with exercise training are highly related to an increased skeletal muscle insulin action. This increased insulin action is associated with an increase in the insulin-regulatable glucose transporters, GLUT4, and enzymes responsible for the phosphorylation, storage and oxidation of glucose. Changes in muscle morphology may also be important following training. With exercise training there is an increase in the conversion of fast twitch glycolytic IIb fibres to fast twitch oxidative IIa fibres, as well as an increase in capillary density. IIa fibres have a greater capillary density and are more insulin-sensitive and -responsive than IIb fibres. Evidence has been provided that morphological changes in muscle, particularly the capillary density of the muscle, are associated with changes in fasting insulin levels and glucose tolerance. Furthermore, significant correlations between glucose clearance, muscle capillary density and fibre type have been found in humans during a euglycaemic clamp. Exercise training may also improve control over hepatic glucose production by increasin

Gestational diabetes and exercise: a survey

Exercise has long been accepted as an adjunctive nonmedical intervention in the management of diabetes in nonpregnant subjects. It is universally accepted that pregnancy is a diabetogenic event which could develop into gestational diabetes mellitus (GDM) in up to 12% of pregnant women. GDM, a carbohydrate intolerance of variable severity with onset or first recognition during pregnancy, involves a relative resistance to insulin. Exercise becomes thus a logical intervention, only recently offered as an adjunctive therapy to pregnant diabetics. This article reviews our current understanding of the role of exercise in the management of GDM.

Exercise and the nutritional management of diabetes during pregnancy

Although exercise is widely accepted as an important component in programs of maintaining a healthy lifestyle, the question of safety and utility of an exercise program for pregnant diabetic women is still controversial. Pregnant women who have diabetes want some direction as to what their possibilities are regarding exercise programs, as there is accumulating evidence that exercise during pregnancy has some advantages for them. In addition, there is now a consensus of thought that the ideal nutritional therapy for the gestational diabetic woman is a diet that facilitates normoglycemia. This article outlines a program that not only improves metabolic control through dietary principles and exercise prescriptions to achieve and maintain normoglycemia, but also will be safe for the mother and her baby, is enjoyable, and also has physical benefits for the mother.

Severe impairment of insulin action in adipocytes from amenorrheic subjects with polycystic ovary syndrome

Adipose tissue was used to characterize the metabolic abnormality of insulin resistance in polycystic ovary syndrome (PCOS). Nine patients with PCOS were studied during a period of amenorrhea and confirmed to be chronically anovulatory by vaginal ultrasound and plasma progesterone measurements. These were compared with six age- and body mass index (BMI)-matched controls (BMI, 27.2 +/- 2.2 in PCOS and 24.7 +/- 2.3 in control subjects). Insulin receptor binding was measured and insulin action was assessed by measuring initial rates of 3-O-methylglucose uptake and by inhibition of lipolysis. The maximum specific insulin receptor binding was 0.62% +/- 0.12% and 1.78% +/- 0.18% per 10-cm2 cell surface (mean +/- SEM) in PCOS and control subjects, respectively (P < .001). Maximum rates of glucose transport were also impaired as compared with controls, with 3-O-methylglucose transport being 0.90 +/- 0.15 versus 1.57 +/- 0.28 pmol/10 cm2/5 s, respectively (P < .05). The concentration of insulin required for half-maximal stimulation of glucose uptake was 165 +/- 36 versus 32 +/- 10 pmol in PCOS and control subjects, respectively (P < .05). The maximum percentage lipolysis inhibition (mean +/- SEM) was 9.5% +/- 1.6% in PCOS and 28.3% +/- 7.2% in control patients, respectively (P < .01). These data demonstrate that there are both insulin binding and postreceptor defects in adipocytes from amenorrheic PCOS subjects. The degree of defect in adipocyte insulin action is greater than would have been anticipated from in vivo data.

Diabetes mellitus in sports

Careful monitoring and proper adjustments of insulin and caloric intake allow the diabetic athlete to participate safely and successfully in almost any activity. Close interaction between the patient, physician, dietitian, or diabetic team is essential to allowing safe participation for the diabetic athlete. Physical exercise has long been considered beneficial in the treatment of both type I and type II diabetics. Improved self-image, maintenance of ideal body weight, and decreased hypertension and lipid-related cardiovascular risk factors are readily achievable by the diabetic who regularly exercises. Improved glycemic control has not been proved to be a long-term benefit of regular exercise, and this issue will remain controversial in the future. The practicing physician should understand clearly the metabolic responses to exercise in both normal and diabetic patients. The physician should be skilled in providing proper advice regarding exercise for all diabetic patients.

Exercise and the immune response

The data presented here document that exercise is associated with changes in immunological activity as assessed by a variety of in vitro assays. In general, these changes appear to be temporally associated with activity and are not persistent. In fact, most alterations are probably secondary to exercise-induced hormonal changes, with resultant effects on the intravascular composition of immunocompetent cells. Thus, changes in lymphocyte trafficking induced by hormonal effects lead to relative and absolute differences in cell numbers, which may be reflected in in vitro functional assays. These data argue against any profound impact of exercise on the immune system, which might impact on overall health. Furthermore, there is little information about exercise decreasing the number of infectious illnesses or diminishing the likelihood of immunologically mediated conditions or malignancies. Nevertheless, these results should not be construed as an argument against the tangible health benefits of exercise. The changes in life-style which often accompany exercise programmes, as well as the documented benefits for cardiovascular health, are reasons enough to support these activities.

GLUT 4 and insulin receptor binding and kinase activity in trained human muscle

1. Physical training enhances sensitivity and responsiveness of insulin-mediated glucose uptake in human muscle. This study examines if this effect of physical training is due to increased insulin receptor function or increased total concentration of insulin-recruitable glucose transporter protein (GLUT 4). 2. Seven healthy young subjects carried out single leg bicycle training for 10 weeks at 70% of one leg maximal oxygen uptake (VO2,max). Subsequently biopsies were taken from the vastus lateralis muscle of both legs. 3. Single leg VO2,max increased for the trained leg (46 +/- 3 to 52 +/- 2 ml min-1 kg-1 (means +/- S.E.M., P < 0.05), and cytochrome c oxidase activity was higher in this compared to the untrained leg (2.0 +/- 0.1 vs. 1.4 +/- 0.1 nmol s-1 (mg muscle)-1, P < 0.05). Insulin binding as well as basal- and insulin-stimulated receptor kinase activity did not differ between trained and untrained muscle. The concentration of GLUT 4 protein was higher in the former (14.9 +/- 1.9 vs. 11.6 +/- 1.0 arbitrary units (micrograms protein)-1 in crude membranes, P < 0.05). The training-induced increase in GLUT 4 (26 +/- 11%) matched a previously reported increase in maximum insulin-stimulated leg glucose uptake (25 +/- 7%) in the same subjects, and individual values of the two variables correlated (correlation coefficient (r) = 0.84, P < 0.05). 4. In conclusion, in human muscle training induces a local contraction-dependent increase in GLUT 4 protein, which enhances the effect of insulin on glucose uptake. On the other hand, insulin receptor function in muscle is unlikely to be affected by training.

Risk for renal injury in diabetic hypertensive patients. The physiologic basis for blood pressure control

In determining a therapeutic approach to coexistent adult-onset (type II) diabetes and hypertension in patients who are middle-aged, special attention must be given to the pathophysiology of the hypertensive disease and how it affects the kidneys. Diabetes and hypertension potentiate renal damage, which clearly leads to a reduced life span and increased morbidity. Nonpharmacologic measures (eg, exercise, weight control, glycemic control, protein-restricted diet) and pharmacologic approaches need to be combined so as to control systemic blood pressure yet maintain adequate renal perfusion. Clearly, preexisting accentuated vascular reactivity to vasoconstrictive growth factors in diabetic patients stimulates maladaptive compensatory responses in the kidney. This precipitates greater renal injury superimposed on the relative risk of the hypertension-diabetes combination itself.

Red blood cell insulin receptors in health and disease

CONTENTS

Structure and characteristics of erythrocyte insulin receptor. Red blood cell age and insulin receptors. Insulin receptors in human disease states. Obesity. Chronic renal failure. Acanthosis nigricans. Miscellaneous disease states. Insulin receptors in children. Insulin receptors in women during pregnancy. Insulin binding and other hormones. Comparison of biosynthetic insulin, pancreatic human insulin and porcine insulin binding to erythrocytes. Effect of exercise on insulin binding to red blood cells of normal human volunteers. Miscellaneous insulin binding studies. Insulin internalization and degradation. Insulin and erythrocyte metabolism. Summary and conclusion.

Increased insulin-stimulated glucose uptake by exercised human muscles one day after prolonged physical exercise

We evaluated whether the increased peripheral insulin sensitivity often reported after physical exercise is generalized or limited to the active musculature. Substrate exchange in leg (previously active) and forearm (previously inactive) were measured by catheterization technique basally and during a hyperinsulinaemic euglycaemic clamp (2 mU insulin kg-1 BW min-1) in nine healthy men before and 1 day after 3-h exercise (50% VO2max). One day after exercise basal glucose uptake was unchanged in the leg, while it was decreased in the forearm (-61%, P less than 0.01) compared with the pre-exercise condition. Glucose uptake during hyperinsulinaemia was increased in the leg (+31%, P less than 0.05), but not in the forearm. Basal lactate release by the leg was increased by the exercise, while lactate release by the forearm was decreased, significantly only during the clamp. These results indicate that local and not systemic factors are responsible for the changes in insulin sensitivity observed in the recovery from physical exercise.

Interaction of receptors for prostaglandin E1/prostacyclin and insulin in human erythrocytes and platelets

Prostaglandin E1/I2 and insulin receptors of human erythrocyte and platelet are capable of modulating each other's activity. This modulation of the receptor activity and number in one system by a second receptor system in human platelet and erythrocyte seems to be beneficial. Insulin increases the PGE1 binding to platelets and thereby enhances the platelet antiaggregatory action of prostaglandin by increasing cyclic AMP levels. Similarly, PGE1 increases insulin binding to human erythrocyte, and thereby reduces the optimum concentration of insulin for a maximal reduction in membrane microviscosity. During ischemia the reduced response of platelets to the inhibitory effect of PGE1 or PGI2 relates to the impaired PGE1/I2 receptor activity. Treatment of these platelets with insulin at physiological concentrations can normalise the PGE1/I2 receptor activity. This review focuses on the relationship between the two receptor systems in human blood cells.

Managing the Diabetic Athlete

In brief: Being in good diabetic control-ie, having a blood glucose level near the normal range-is possible for almost any diabetic athlete whose sport allows consistent and predictable energy expenditure. For example, the physiologic demands of cycling or marathon running can easily be anticipated. But even sports such as football that may wreak havoc on blood glucose levels can be managed by the diabetic who frequently self-tests for glucose and then makes appropriate adjustments in insulin and food intake. The author discusses the metabolic responses to exercise in the non-diabetic vs the diabetic and offers practical advice on specific problems, such as managing the obese diabetic who wants to start an exercise program.

Glucocorticoid receptors in monocytes in type 1 diabetes mellitus

Glucocorticoid receptor binding characteristics were investigated in 8 males with poorly controlled Type 1 diabetes mellitus and 14 healthy males. The cell type studied was monocytes, and a method for correction for heterogeneity in glucocorticoid binding in a mononuclear leucocyte population was introduced. The number of receptors and the dissociation constant KD were, respectively, 13,699 and 2.93 X 10(-8) mol/l for the control group and 15,788 and 2.75 X 10(-8) mol/l for diabetics (p greater than 0.05). In diabetics, KD correlated negatively with blood glucose (r = 0.762, p less than 0.05) indicating an increased sensitivity to cortisol at high blood glucose levels. In 6 of the diabetics and 7 of the control group, a simultaneous insulin receptor study was carried out. However, glucocorticoid receptor binding characteristics did not correlate with insulin receptor binding characteristics or with HbA1c. In conclusion, no major abnormalities in glucocorticoid receptor binding characteristics could be demonstrated in Type 1 diabetes mellitus.

Clinical Applications for Exercise

In brief: The body adapts to regular exercise by making central and peripheral physiologic adjustments. Although exercise doesn't reverse pathologic changes, it may play a significant role in the management of certain diseases. Thus physicians can prescribe exercise as therapy. For example, exercise increases calorie consumption but conserves lean body mass, which is an important consideration in the management of obesity. Exercise also has been shown to lower blood pressure-a desirable outcome for patients with hypertension. Similarly, diabetic patients may benefit from regular exercise because it improves glucose tolerance. The author discusses these and other interactions between physiology and exercise and their application to treatment of specific diseases.

Randomized trial of diet versus diet plus cardiovascular conditioning on glucose levels in gestational diabetes

We studied the impact of a training program on glucose tolerance in gestational diabetes mellitus. Women with gestational diabetes mellitus (N = 19) were randomized into either group I, a 6-week diet alone group (24 to 30 kcal/kg/24 hours; 20% protein, 40% carbohydrate, 40% fat), or group II, which followed the same diet plus exercise (20 minutes three times a week for 6 weeks). An arm ergometer was used to maintain heart rate in the training range. Glycemic response was monitored by glycosylated hemoglobin, a 50 gm oral glucose challenge with a fasting and 1-hour plasma glucose, and blood glucose self-monitoring, fasting and 1 hour after meals. Week 1 glycemic parameters were the same for both groups. Week 6 data (mean +/- SD) were as follows: group I glycosylated hemoglobin, 4.7% + 0.2% versus group II, 4.2% +/- 0.2%; p less than 0.001. The group I glucose challenge fasting value was 87.6 +/- 6.2 versus 70.1 +/- 6.6 mg/dl, p less than 0.001 for group II. The group I 1-hour plasma glucose challenge result was 187.5 +/- 12.9 mg/dl versus 105.9 +/- 18.9 mg/dl for group II, p less than 0.001. The glycemic levels diverged between the groups at week 4. We conclude that arm ergometer training is feasible in women with gestational diabetes mellitus and results in lower glycosylated hemoglobin, fasting, and 1-hour plasma glucose concentrations than diet alone. Arm ergometer training may provide a useful treatment option for women with gestational diabetes mellitus and may obviate insulin treatment.

Hypertriglyceridaemia as a risk factor of coronary heart disease mortality in subjects with impaired glucose tolerance or diabetes. Results from the 11-year follow-up of the Paris Prospective Study

The Paris Prospective Study is a long-term investigation of the incidence of coronary heart disease in a large population of working men. The first follow-up examination involved 7,038 men, aged 43-54 years. Subjects with impaired glucose tolerance or diabetes (n = 943) were selected from the total population for a separate analysis of coronary heart disease mortality risk factors. During a mean follow-up of 11 years, 26 of these 943 subjects with abnormal glucose tolerance died from coronary heart disease. Univariate analysis showed that plasma triglyceride level (p less than 0.006), plasma cholesterol level (p less than 0.02), and plasma insulin level both fasting and 2-h post-glucose load (p less than 0.02), were significantly higher in subjects who died from coronary heart disease compared to those who did not. In multivariate regression analysis using the Cox model, plasma triglyceride level was the only factor positively and significantly associated with coronary death. The distribution of plasma triglyceride levels was clearly higher for the subjects who died from coronary heart disease compared to those who did not die from this cause or were alive at the end of the follow-up. This new epidemiological evidence that hypertriglyceridaemia is an important predictor of coronary heart disease mortality in subjects with impaired glucose tolerance or diabetes suggests a possible role of dyslipidaemia in the excessive occurrence of atherosclerotic vascular disease in this category of subjects.

Exercise and the immune response

A growing number of reports have become available which implicate infectious disease with reduced performance in athletes. The immune system consists of both nonspecific and specific components geared to control infections. Adaptive immunity functions through both antibody-mediated and cell-mediated compartments to establish and maintain long term immunity to infectious agents. Evidence is accumulating to support the view that physical exercise can lead to modification of the cells of the immune system. However, studies have often not been well designed to control exercise protocols when examining the effects of exercise on the immune system. Large numbers of peripheral blood lymphocytes are mobilised with exercise and in vitro tests indicate that temporarily these cells may not be capable of responding normally to mitogens. These reactions appear to be influenced by hormones to some degree and there are reports that the cells of the immune system are extremely active biochemically and may depend on products from muscles to maintain their activity. Specific populations within the circulating leucocyte pool vary significantly with exercise and there is some evidence that the T4/T8 lymphocyte ratio may become significantly reduced. This reduction in ratio may be related to the variable responses to T and B cell mitogens recorded in vitro which overall suggests that a temporary immune suppression may exist following certain training or performance schedules. It is argued that this may lead to a temporary susceptibility to infection and could result from overtraining.

Child and Adolescent Athletes With Diabetes

In brief: The common desire to participate in sports can be harnessed to encourage children and adolescents with type 1 diabetes to participate actively in controlling their disease. This is partly because the diabetic who successfully learns to control blood glucose during exercise by wise regulation of diet and insulin is rewarded with enhanced athletic performance. Age, duration of the diabetes, insulin dosage, hypoglycemia, seasonality, training, duration of training periods, and calorie intake must be considered in prescribing specific exercise regimens for diabetic youngsters. To participate in endurance sports, persons with diabetes must manage the effects of exogenous insulin on their normal triphasic metabolic fuel supply derived from muscle, liver, and adipose tissue. If educational guidelines are followed and potential risks due to complications are taken into account, the benefits of regular exercise early in the course of the disease outweigh potential disadvantages.

Characterization of specific insulin binding sites on chromaffin cells from bovine adrenal medulla

1. Insulin receptors were investigated in isolated chromaffin cells from bovine adrenal medulla. 2. The cells were incubated with [125I]insulin in HEPES buffer, pH 7.8 at 15 degrees C for 180 min to obtain steady state binding. Specific binding was linearly related to the number of cells in the range 0.5-10 x 10(6) cells/ml. Insulin and proinsulin caused half maximal displacement of specifically bound tracer in concentrations of 0.18 and 2.46 nM, respectively. 3. Computer analysis of the binding data gave a linear Scatchard plot, consistent with a single class of non-interacting receptors with an affinity constant of 5.6 nM-1, the total number of receptors per cell being 1700. 4. The apparent MW of the insulin binding subunit of the receptor was 135,000, determined by affinity crosslinking and SDS gel electrophoresis under reducing conditions.

Specific insulin binding in bovine chromaffin cells; demonstration of preferential binding to adrenalin-storing cells

Insulin binding was studied in subpopulations of bovine chromaffin cells enriched in adrenalin-producing cells (A-cells) or noradrenalin-producing cells (NA-cells). Binding of 125I-insulin was carried out at 15 degrees C for 3 hrs in the absence or presence of excess unlabelled hormone. Four fractions of cells were obtained by centrifugation on a stepwise bovine serum albumin gradient. The four fractions were all shown to bind insulin in a specific manner and the highest binding was measured in the cell layers of higher densities, containing mainly A-cells. The difference in binding of insulin to the four subpopulations of chromaffin cells seemed to be related to differences in numbers of receptors as opposed to receptor affinities. We conclude that bovine chromaffin cells possess high affinity binding sites for insulin and that these binding sites are mainly confined to A-cells.

Acute adaptation in adrenergic control of lipolysis during physical exercise in humans

During prolonged exercise, the free fatty acids derived from adipocyte lipolysis are the principal fuel utilized by muscles. In humans, the lipid mobilization from adipose tissue is mainly regulated by insulin and catecholamines: the latter hormones have both beta-adrenergic stimulatory and alpha 2-adrenergic inhibitory effects on lipolysis. The aim of this study was to determine whether rapid alterations in the peripheral action of the regulatory hormones occur during physical work and whether they are of importance for the enhanced lipid mobilization. The acute effects of exercise on the regulation of lipolysis were investigated in isolated adipocytes removed from the gluteal region of 14 healthy volunteers before and immediately after the exercise period. Exercise induced a 20-35% significant increase in the lipolytic response to noradrenaline alone and in combination with the selective alpha 2-antagonist yohimbine and to the pure beta-agonist isoproterenol in isolated adipocytes. The antilipolytic effects of both the alpha 2-agonist clonidine and insulin were unaffected by exercise. Exercise did not influence the specific adipocyte receptor binding of 125I-cyanopindolol (beta-adrenergic receptor), [3H]yohimbine (alpha-adrenergic receptor), and mono-125I-[Tyr A14]insulin (insulin receptor). In conclusion, a single period of submaximal exercise increases adipocyte lipolytic responsiveness to catecholamines through an increased beta-adrenoceptor-mediated effect at steps distal to the receptor binding. Thus the increased peripheral action of catecholamines may be of importance for the observed enhanced lipid mobilization during physical work.

Response of muscle protein turnover to insulin after acute exercise and training

To determine whether the enhanced insulin-sensitivity of glucose metabolism in muscle after acute exercise also extends to protein metabolism, untrained and exercise-trained rats were subjected to an acute bout of exercise, and the responses of protein synthesis and degradation to insulin were measured in epitrochlearis muscles in vitro. Acute exercise of both untrained and trained rats decreased protein synthesis in muscle in the absence or presence of insulin, but protein degradation was not altered. Exercise training alone had no effect on protein synthesis or degradation in muscle in the absence or presence of insulin. Acute exercise or training alone enhanced the sensitivities of both protein synthesis and degradation to insulin, but the enhanced insulin-sensitivities from training alone were not additive to those after acute exercise. These results indicate that: a decrease in protein synthesis is the primary change in muscle protein turnover after acute exercise and is not altered by prior exercise training, and the enhanced insulin-sensitivities of metabolism of both glucose and protein after either acute exercise or training suggest post-binding receptor events.

Erythrocyte insulin receptors following myocardial infarction in non-diabetic subjects

To determine whether changes in insulin receptors follow acute myocardial infarction, 10 non-diabetic patients were studied on admission to a coronary care unit and 24 h later. Erythrocyte insulin receptors were 86 (50-406) per cell [median (range)] initially and increased significantly to 203 (73-714). Maximum percent specific binding and 50% inhibition of tracer binding did not change significantly. Decreased receptor number after myocardial infarction may contribute to insulin resistance in the acute phase.

Oral contraceptives and insulin receptor binding in normal women and those with previous gestational diabetes

The effect of a low-dose triphasic oral contraceptive (ethinyl estradiol and levonorgestrel) on glucose tolerance, plasma insulin response to a glucose challenge, and insulin receptor binding to monocytes and erythrocytes was investigated in seven women with previous gestational diabetes and seven nondiabetic control subjects. Investigations were performed in the luteal phase before the hormonal intake and after hormonal treatment for 2 and 6 months. Before treatment, women with previous gestational diabetes had significantly impaired glucose tolerance (p less than 0.05) when compared with the healthy controls, but no differences in insulin receptor binding were observed. Glucose tolerance and the insulin response to oral glucose remained unchanged in both groups during the treatment period. In the control subjects a significant decrease (p less than 0.05) in insulin receptor binding to monocytes was observed after hormonal intake for 6 months whereas the insulin receptor binding remained unchanged in the women with previous gestational diabetes. No correlation was found between the receptor binding data obtained from monocytes and erythrocytes in either group of women. The study demonstrates that in lean nondiabetic women and women with previous gestational diabetes of normal weight without first-degree history of diabetes there is no apparent direct association between glucose tolerance, plasma insulin levels, and insulin binding to erythrocytes and monocytes during intake of low-dose oral contraceptives.

Chronic exercise increases insulin binding in muscles but not liver

It has been postulated that the improved glucose tolerance provoked by chronic exercise is primarily attributable to increased insulin binding in skeletal muscle. Therefore, we investigated the effects of progressively increased training (6 wk) on insulin binding by five hindlimb skeletal muscles and in liver. In the trained animals serum insulin levels at rest were lower either in a fed (P less than 0.05) or fasted (P less than 0.05) state and after an oral glucose tolerance test (n = 8) (P less than 0.05). Twenty-four hours after the last exercise bout sections of the liver, soleus (S), plantaris (P), extensor digitorum longus (EDL), and red (RG) and white gastrocnemius (WG) muscles were pooled from four to six rats. From control animals, killed at the same time of day, muscles and liver were also obtained. Insulin binding to plasma membranes increased in S, P, and EDL (P less than 0.05) but not in WG (P = 0.07), RG (P greater than 0.1), or in liver (P greater than 0.1). There were insulin binding differences among muscles (P less than 0.05). Comparison of rank orders of insulin binding data with published glucose transport data for the same muscles revealed that these parameters do not correspond well. In conclusion, insulin binding to muscle is shown to be heterogeneous and training can increase insulin binding to selected muscles but not liver.

Changes in insulin receptor functions of the erythrocyte by treatment of non-insulin-dependent diabetes mellitus (NIDDM) patients with glibenclamide and diet control

The insulin binding of erythrocytes from: (i) fifteen age-matched normal subjects, (ii) ten untreated NIDDM patients and (iii) fifteen treated (glibenclamide + hypocaloric diet) NIDDM patients (all males) has been studied. A significant decrease in specific insulin binding was observed in group (ii) which improved in cases controlled after treatment (group iii). Scatchard analysis of the results suggested that changes in insulin binding were due to alteration in the number of insulin receptors on erythrocytes. The number of insulin receptors/cell was 471 in normals, 160 in diabetics and 282 in treated diabetic subjects. No significant change in the binding affinity was observed in the three groups (1.0 X 10(8), 1.2 X 10(8) and 1.1 X 10(8) M-1 in normal subjects, untreated diabetics and treated diabetics, respectively).

Effects of caloric restriction and exercise on insulin receptors in obesity: association with changes in membrane lipids

We have studied the effects of supervised caloric restriction and exercise on mononuclear leukocyte lipid composition, membrane fluidity, and insulin receptors in ten nondiabetic obese adults, (175 +/- 9.3% of ideal body weight) and ten normal adult subjects. In a second study, we examined the effects of caloric restriction alone using a very low calorie liquid diet in the treatment of another ten obese adults. In both groups of obese adults, fasting insulin levels were elevated and fell to normal levels following treatment. Insulin binding to monocytes, which was reduced in obese subjects, increased toward normal after short-term treatment; this was due to the restoration of total insulin binding capacity to levels one half of that seen in the normal adult group. Obese subjects undergoing either treatment had elevated membrane cholesterol/phospholipid ratios prior to treatment (0.499 +/- 0.050 and 0.446 +/- 0.011 v 0.400 +/- 0.025 mol/mol in normal adults P less than 0.005 by ANOVA). Prior to treatment, for all subjects there was a significant inverse correlation between insulin tracer binding and membrane cholesterol/phospholipid ratios (r = .484, n = 34, P less than 0.005). This relationship did not change significantly in obese subjects in either treatment group. Cell membrane microviscosity was determined by fluorescence polarization (FP) using DPH (2 X 10(-6) mol/L). Prior to weight loss, obese subjects had significantly higher FP values than controls (0.304 +/- 0.006 and 0.319 v 0.259 +/- 0.009, P less than 0.005, by ANOVA) indicating greater microviscosity.(ABSTRACT TRUNCATED AT 250 WORDS)

Insulin receptor binding to monocytes and erythrocytes during normal human pregnancy

In normal human pregnancy glucose tolerance deteriorates gradually in spite of a steady increase in plasma insulin levels. To see whether this change in insulin resistance is accompanied by changes in insulin receptor binding, insulin binding to monocytes and erythrocytes was measured serially during pregnancy and again post-partum in fifteen normal women. Insulin binding to monocytes increased from week 12 to week 24 of gestation (P less than 0.001) and it decreased from week 32 to week 36 (P less than 0.05). After delivery a new increase in insulin binding to monocytes was seen (P less than 0.05). Insulin binding to erythrocytes increased from week 30-32 to week 36 (P less than 0.05), decreased from week 36 to delivery (P less than 0.01) and decreased further post-partum (P less than 0.001). Insulin receptor binding was not significantly correlated to plasma insulin, estradiol, estriol, progesterone or cortisol. The insulin receptor binding to monocytes, but not to erythrocytes, paralleled the insulin resistance found in human pregnancy.

Interaction between insulin and counterregulatory hormones in control of substrate utilization in health and diabetes during exercise

In summary, the appropriate balance of glucagon and insulin at the liver and the catecholamines and insulin in the periphery provide the most optimal balance of substrate fluxes to the working muscle. When the hormonal balance is perturbed such as is seen in diabetes or with glucagon suppression, or when the effect of a hormone is impaired such as with beta blockade, optimal substrate balance is lost. The effects of these hormones can be overridden by metabolic factors in muscle, as evidenced by the uncoupling of the normal catecholamine antagonism of glucose uptake from the actual glucose uptake observed during exercise under conditions of tissue hypoxia.