key: cord-0776763-4ylphjsv authors: Nieman, David C. title: Clinical implications of exercise immunology date: 2012-05-31 journal: Journal of Sport and Health Science DOI: 10.1016/j.jshs.2012.04.004 sha: 75c0d70a870296ef5f017a9301bb486525880240 doc_id: 776763 cord_uid: 4ylphjsv Abstract Maintaining leanness and a physically active lifestyle during adulthood reduces systemic inflammation, an underlying factor in multiple chronic diseases. The anti-inflammatory influence of near-daily physical activity in lowering C-reactive protein, total blood leukocytes, interleukin-6, and other inflammatory cytokines may play a key role in lowering risk of cardiovascular disease, certain types of cancer, type 2 diabetes, sarcopenia, and dementia. Moderate exercise training causes favorable perturbations in immunity and a reduction in incidence of upper respiratory tract infection (URTI). During each bout of moderate exercise, an enhanced recirculation of immunoglobulins, neutrophils, and natural killer cells occurs that persists for up to 3-h post-exercise. This exercise-induced surge in immune cells from the innate immune system is transient but improves overall surveillance against pathogens. As moderate exercise continues on a near-daily basis for 12–15 weeks, the number of symptoms days with URTI is decreased 25%–50% compared to randomized sedentary controls. Epidemiologic and animal studies support this inverse relationship between URTI risk and increased physical activity. Exercise immunology, a relatively new area of scientific endeavor, is the study of acute and chronic effects of various exercise workloads on the immune system and immunosurveillance against pathogens. 1 Two areas of investigation from exercise immunology have clinical and public health implications: (1) the chronic anti-inflammatory influence of exercise training; (2) the reduction in risk of upper respiratory tract infections (URTI) from regular moderate exercise training. Acute inflammation is a normal response of the immune system to infection and trauma. Intense and prolonged exercise similar to marathon race competition causes large but transient increases in total white blood cells (WBC) and a variety of cytokines including interleukin-6 (IL-6), IL-8, IL-10, IL-1 receptor antagonist (IL-1ra), granulocyte colony stimulating factor (GCSF), monocyte chemoattractant protein 1 (MCP-1). macrophage inflammatory protein 1b (MIP-1b), tumor necrosis factor-a (TNF-a), and macrophage migration inhibitory factor (MIF) 2,3 C-reactive protein (CRP) is also elevated following heavy exertion, but the increase is delayed in comparison to most cytokines. Despite regular increases in these inflammation biomarkers during each intense exercise bout, endurance athletes have lower resting levels in contrast to overweight and unfit adults. For example, mean CRP levels in long distance runners (rested state) typically fall below 0.5 mg/L in comparison to 4.0 mg/L and higher in obese, postmenopausal women. 3, 4 The persistent increase in inflammation biomarkers is defined as chronic or systemic inflammation, and is linked with multiple disorders and diseases including atherosclerosis and cardiovascular disease (CVD), the metabolic syndrome, diabetes mellitus, sarcopenia, arthritis, osteoporosis, chronic obstructive pulmonary disease, dementia, depression, and various types of cancers. 5e7 CRP is the most frequently measured inflammatory biomarker, and individuals with CRP values in the upper tertile of the adult population (>3.0 mg/L) have a 2-fold increase in CVD risk compared to those with a CRP concentration below 1.0 mg/L. 7 An elevated fasting IL-6 concentration is a significant component of the chronic lowgrade inflammation that underlies the metabolic syndrome, CVD, diabetes, and various cancers. 8 Athletes typically have plasma IL-6 concentrations that fall below 1.0 pg/mL in contrast to values above 2.0 pg/mL in older and obese individuals. 3,8 Large population observational studies consistently show reduced WBC, CRP, IL-6, TNF-a, and other inflammatory biomarkers in adults with higher levels of physical activity and fitness, even after adjustment for potential confounders. 9e14 The inverse association between physical activity/fitness and inflammation is related in part to the effect of activity on fat mass. 11 In most studies, however, adjustment for body mass index (BMI) and adiposity attenuates but does not negate the strength of the relationship between inflammatory biomarkers and physical activity/fitness. 11, 15 For example, in a study of 1002 community-dwelling adults (18e85 years), a general linear model (GLM) analysis adjusted CRP means for frequency of physical activity, BMI, and several other lifestyle and demographic factors. 15 BMI had the strongest effect on CRP followed by gender (higher in females), exercise frequency, age, and smoking status (see Fig. 1 ). Randomized, controlled exercise-intervention studies provide equivocal support for the inverse relationship between increased physical activity and reduced systemic inflammation. 11,16e22 One explanation is that in comparison to the large variance evaluated in observational studies, the change in aerobic fitness and activity levels is typically of low magnitude in randomized exercise trials, the duration of training seldom extends beyond 6 months, and the number of subjects is relatively low. 17, 18, 20, 21 Nonetheless, data from both study formats support that in order for reductions in chronic inflammation to be experienced, a large change in a combination of lifestyle factors is needed including weight loss, near-daily moderate-tovigorous physical activity of 30e60-min duration, avoidance of cigarette smoking, and increased intake of fruits and vegetables. 22, 23 For example, if an obese, older individual adds three weekly 30-min walking sessions to the lifestyle, reductions in chronic inflammation are unlikely to be experienced unless the exercise workload is increased in combination with significant weight loss and improved diet quality. When successful, exercise training may exert anti-inflammatory influences through a reduction in visceral fat mass and the induction of an acute anti-inflammatory environment with each bout of exercise that over time becomes chronic. 24, 25 These effects may be mediated in part through musclederived peptides or myokines, but this proposed mechanism needs further testing. 25 Contracting skeletal muscles release myokines (e.g., IL-6, IL-8, IL-15) that may exert both direct and chronic anti-inflammatory effects. The first identified and most studied myokine is IL-6. During prolonged and intense exercise, IL-6 is produced by muscle fibers and stimulates the appearance in the circulation of other anti-inflammatory cytokines such as IL-1ra and IL-10. 26 IL-6 also inhibits the production of the proinflammatory cytokine TNF-a and stimulates lipolysis and fat oxidation. 26 With weight loss from energy restriction and exercise, plasma levels of IL-6 fall, skeletal muscle TNF-a decreases, and insulin sensitivity improves. 27, 28 Thus IL-6 release from the exercising muscle may help mediate some of the health benefits of exercise including metabolic control of type 2 diabetes. 27, 28 Fig. 1. C-reactive protein (CRP) adjusted means for frequency of physical activity, body mass index (BMI), and several other lifestyle and demographic factors. 15 Clinical implications of exercise immunology Muscle IL-6 release, however, is very low during moderate physical activity. For example, during a 30-min brisk walk on a treadmill, plasma IL-6 concentrations increased from1.3 pg/mL to 2.0 pg/mL in female subjects. 29 The increase in IL-6 during brisk walking is probably insufficient to mediate anti-inflammatory and other beneficial health effects, and additional research is needed to determine the relative contribution of myokines compared to other exercise-induced factors. The acute exerciseinduced increase in IL-6 after heavy exertion (e.g., typically above 5 pg/mL, 10 pg/mL, and 50 pg/mL following 1-h, 2-h, and marathon race running bouts, respectively) may indeed orchestrate anti-inflammatory influences, lipolysis, and improved insulin sensitivity, but this amount of physical activity is beyond levels achievable by most overweight/obese individuals. A moderate exercise program of near daily 30-min walking bouts, without diet control, has small influences on visceral fat, even in long-term studies. 30 This is further evidence that the myokine hypothesis does not apply at the activity level attainable by most middle-aged and elderly individuals. Thus moderate physical activity training must be increased to the highest levels acceptable to an individual (e.g., 60 min a day) and combined with weight loss through tight control of energy intake and improved diet quality to achieve reductions in systemic inflammation. URTI is the most frequently occurring infectious disease in humans worldwide. 31e33 More than 200 different viruses cause the common cold, and rhinoviruses and coronaviruses are the culprits 25%e60% of the time. The National Institute of Allergy and Infectious Diseases reports that people in the USA suffer one billion colds each year with an incidence of 2e4 for the average adult and 6e10 for children. 31 URTI imposes an estimated USD40 billion burden in direct and indirect costs on the U.S. economy. 32 Low to high exercise workloads have a unique effect on URTI risk. 34 Regular physical activity improves immune function and lowers URTI risk while sustained and intense exertion has the opposite effect. Marathon race competitions and heavy exercise training regimens increase URTI risk, but relatively few individuals exercise at this level, limiting public health concerns. The second half of this chapter will review the benefits of regular, moderate activity in improving immunosurveillance against pathogens and lowering URTI risk. This information has broad public health significance and appeal, and provides the clinician with an additional inducement to encourage increased physical activity among patients. Several lines of evidence support the linkage between moderate physical activity and improved immunity and lowered infection rates: survey, animal, epidemiologic, and randomized training data. Survey data consistently support the common belief among fitness enthusiasts that regular exercise confers resistance against infection. In surveys, 80%e90% of regular exercisers perceive themselves as less vulnerable to viral illnesses compared to sedentary peers. 35, 36 Animal studies are difficult to apply to the human condition, but in general, support the finding that moderate exercise lowers morbidity and mortality following pathogen inoculation, especially when compared to prolonged and intense exertion or physical inactivity. Mice infected with the herpes simplex virus, for example, and then exposed to 30-min of moderate exercise experience a lower mortality during a 21day period compared to higher mortality rates after 2.5 h of exhaustive exercise or rest. 37 Another study with mice showed that 3.5 months of moderate exercise training compared to no exercise prior to induced influenza infection decreased symptom severity and lung viral loads and inflammation. 38 Retrospective and prospective epidemiologic studies have measured URTI incidence in large groups of moderately active and sedentary individuals. Collectively, the epidemiologic studies consistently show reduced URTI rates in physically active or fit individuals. A one-year epidemiological study of 547 adults showed a 23% reduction in URTI risk in those engaging in regular versus irregular moderate-to-vigorous physical activity. 39 In a group of 145 elderly subjects, URTI symptomatology during a one-year period was reduced among those engaging in higher compared to lower amounts of moderate physical activity. 40 During a one-year study of 142 males aged 33e90 years, the odds of having at least 15 days with URTI was 64% lower among those with higher physical activity patterns. 41 A cohort of 1509 Swedish men and women aged 20e60 years were followed for 15 weeks during the winter/spring. 42 Subjects in the upper tertile for physical activity experienced an 18% reduction in URTI risk, but this proportion improved to 42% among those with high perceived mental stress. A group of 1002 adults (18e85 years, 60% female, 40% male) were followed for 12 weeks (half during the winter, half during the fall) while monitoring URTI symptoms and severity using the Wisconsin Upper Respiratory Symptom Survey. 43, 44 Subjects reported frequency of moderate-to-vigorous aerobic activity, and rated their physical fitness level using a 10-point Likert scale. The number of days with URTI was 43% lower in subjects reporting an average of five or more days of aerobic exercise (20-min bouts or longer) compared to those who were largely sedentary ( 1 day per week) (see Fig. 2 ). This relationship occurred after adjustment for important confounders including age, education level, marital status, gender, BMI, and perceived mental stress. The number of days with URTI was 46% lower when comparing subjects in the highest versus lowest tertile for perceived physical fitness, even after adjustment for confounders. Regular physical activity may lower rates of infection for other types of diseases, but data are limited due to low disease prevalence. For example, women with a high frequency of walking experienced an 18% lower risk of pneumonia compared with women who walked the least. 45 In the same cohort, women who reported running or jogging more than 2 h per week had a reduced pneumonia risk compared with women who spent no time running or jogging. 45 Randomized experimental trials provide important data in support of the viewpoint that moderate physical activity reduces URTI symptomatology. In a randomized, controlled study of 36 women (mean age, 35 years), subjects walked briskly for 45-min, five days a week, and experienced one-half the days with URTI symptoms (5.1 vs. 10.8) during the 15- week period compared to that of the sedentary control group. 46 The effect of exercise training (five 45-min walking sessions/ week at 60%e75% maximum heart rate) and/or moderate energy restriction (1200e1300 kcal per day) on URTI was studied in obese women (n ¼ 91, BMI 33.1 AE 0.6 kg/m 2 ) randomized to one of four groups: control, exercise, diet, exercise and diet. 47 Energy restriction had no significant effect on URTI incidence, and subjects from the two exercise groups were contrasted with subjects from the two nonexercise groups. The number of days with URTI for subjects in the exercise groups was reduced 40% relative to the nonexercise groups (5.6 vs. 9.4), similar to the level of nonobese, physically active controls (n ¼ 30, 4.8 days with URTI). In another study, 30 sedentary elderly women (mean age, 73 years) were assigned to walking or sedentary groups. 48, 49 The exercise group walked 30e40 min, 5 days per week, for 12 weeks at 60% heart rate reserve. Incidence of URTI in the walking groups was 21% compared to 50% in the calisthenic control group during the study (SeptembereNovember). A one-year randomized study of 115 overweight, postmenopausal women showed that regular moderate exercise (166 min per week, w4 days per week) lowered URTI risk compared to controls (who engaged in a stretching program). 50 In the final three months of the study, the risk of colds in the control group was more than threefold that of the exercisers. During moderate exercise several transient changes occur in the immune system. 29,51e53 Moderate exercise increases the recirculation of immunoglobulins, and neutrophils and natural killer cells, two cells that play a critical role in innate immune defenses. Animal data indicate that lung macrophages play an important role in mediating the beneficial effects of moderate exercise on lowered susceptibility to infection. 54 Stress hormones, which can suppress immunity, and pro-and antiinflammatory cytokines, indicative of intense metabolic activity, are not elevated during moderate exercise. 29 Although the immune system returns to pre-exercise levels within a few hours after the exercise session is over, each session may represent an improvement in immune surveillance that reduces the risk of infection over the long term. Other exerciseimmune related benefits include enhanced antibody-specific responses to vaccinations. For example, several studies indicate that both acute and chronic moderate exercise training improves the body's antibody response to the influenza vaccine. 55e58 In one study, a 45-min moderate exercise bout just before influenza vaccination improved the antibody response. 55 These data provide additional evidence that moderate exercise favorably influences overall immune surveillance against pathogens. Taken together, the data on the relationship between moderate exercise, enhanced immunity, and lowered URTI risk are consistent with guidelines urging the general public to engage in near-daily brisk walking. Although methodology varies widely and evidence is still emerging 59 epidemiologic and randomized exercise training studies consistently report a reduction in URTI incidence or risk of 18%e67%. This is the most important finding that has emerged from exercise immunology studies during the past two decades. Animal and human data indicate that during each exercise bout, transient immune changes take place that over time may improve immunosurveillance against pathogens, thereby reducing URTI risk. The magnitude of reduction in URTI risk with near-daily moderate physical activity exceeds Fig. 2 . The number of days with upper respiratory tract infection (URTI) by exercise frequency tertiles after adjustment for age, education level, marital status, gender, body mass index (BMI), and perceived mental stress. 43 levels reported for most medications and supplements, and bolsters public health guidelines urging individuals to be physically active on a regular basis. Regular physical activity should be combined with other lifestyle strategies to more effectively reduce URTI risk. These strategies include stress management, regular sleep, avoidance of malnutrition, and proper hygiene. 33,60e63 URTI is caused by multiple and diverse pathogens, making it unlikely that a unifying vaccine will be developed. 33 Thus lifestyle strategies are receiving increased attention by investigators and public health officials, and a comprehensive lifestyle approach is more likely to lower the burden of URTI than a focus on physical activity alone. The anti-inflammatory effect of near-daily physical activity may play a key role in many health benefits, including reduced cardiovascular disease, type 2 diabetes, various types of cancer, sarcopenia, and dementia. 9e18 This is an exciting area of scientific endeavor, and additional research is needed to determine how immune perturbations during each exercise bout accumulate over time to produce an anti-inflammatory influence. As with URTI, multiple lifestyle approaches to reducing chronic inflammation should be employed with a focus on weight loss, high volume of physical activity, avoidance of smoking, and improved diet quality. 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