Efficacy and Mechanisms of Aerobic Exercise on Cancer Initiation, Progression, and Metastasis: A Critical Systematic Review of In Vivo Preclinical Data.

A major objective of the emerging field of exercise-oncology research is to determine the efficacy of, and biological mechanisms by which, aerobic exercise affects cancer incidence, progression, and/or metastasis. There is a strong inverse association between self-reported exercise and the primary incidence of several forms of cancer; similarly, emerging data suggest that exercise exposure after a cancer diagnosis may improve outcomes for early-stage breast, colorectal, or prostate cancer. Arguably, critical next steps in the development of exercise as a candidate treatment in cancer control require preclinical studies to validate the biological efficacy of exercise, identify the optimal "dose", and pinpoint mechanisms of action. To evaluate the current evidence base, we conducted a critical systematic review of in vivo studies investigating the effects of exercise in cancer prevention and progression. Studies were evaluated on the basis of tumor outcomes (e.g., incidence, growth, latency, metastasis), dose-response, and mechanisms of action, when available. A total of 53 studies were identified and evaluated on tumor incidence (n = 24), tumor growth (n = 33), or metastasis (n = 10). We report that the current evidence base is plagued by considerable methodologic heterogeneity in all aspects of study design, endpoints, and efficacy. Such heterogeneity precludes meaningful comparisons and conclusions at present. To this end, we provide a framework of methodologic and data reporting standards to strengthen the field to guide the conduct of high-quality studies required to inform translational, mechanism-driven clinical trials. Cancer Res; 76(14); 4032-50. ©2016 AACR.

[1]  L. Jones Precision Oncology Framework for Investigation of Exercise As Treatment for Cancer. , 2015, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[2]  Chi-Ping Day,et al.  Preclinical Mouse Cancer Models: A Maze of Opportunities and Challenges , 2015, Cell.

[3]  Heather K. Neilson,et al.  Effects of a High vs Moderate Volume of Aerobic Exercise on Adiposity Outcomes in Postmenopausal Women: A Randomized Clinical Trial. , 2015, JAMA oncology.

[4]  M. Aveseh,et al.  Exercise‐induced changes in tumour LDH‐B and MCT1 expression are modulated by oestrogen‐related receptor alpha in breast cancer‐bearing BALB/c mice , 2015, The Journal of physiology.

[5]  J. Dufour,et al.  Regular exercise decreases liver tumors development in hepatocyte-specific PTEN-deficient mice independently of steatosis. , 2015, Journal of hepatology.

[6]  M. Woźniewski,et al.  The effect of physical training on the N-methyl-N-nitrosourea-induced mammary carcinogenesis of Sprague–Dawley rats , 2015, Experimental biology and medicine.

[7]  L. Jones,et al.  A framework for prescription in exercise-oncology research† , 2015, Journal of cachexia, sarcopenia and muscle.

[8]  M. Junttila,et al.  Translational value of mouse models in oncology drug development , 2015, Nature Medicine.

[9]  Gregory Palmer,et al.  Modulation of Murine Breast Tumor Vascularity, Hypoxia, and Chemotherapeutic Response by Exercise , 2015, Journal of the National Cancer Institute.

[10]  J. Christensen,et al.  Effects of Exercise on Tumor Physiology and Metabolism , 2015, Cancer journal.

[11]  K. Courneya,et al.  Effect of aerobic training on the host systemic milieu in patients with solid tumours: an exploratory correlative study , 2015, British Journal of Cancer.

[12]  A. Crétual,et al.  Exercise training combined with antioxidant supplementation prevents the antiproliferative activity of their single treatment in prostate cancer through inhibition of redox adaptation. , 2014, Free radical biology & medicine.

[13]  J. Hawley,et al.  Integrative Biology of Exercise , 2014, Cell.

[14]  W. Curran,et al.  Exercise‐induced lung cancer regression: Mechanistic findings from a mouse model , 2014, Cancer.

[15]  D. Gorski Integrative oncology: really the best of both worlds? , 2014, Nature Reviews Cancer.

[16]  Jorming Goh,et al.  Pre-tumor exercise decreases breast cancer in old mice in a distance-dependent manner. , 2014, American journal of cancer research.

[17]  D. Siemann,et al.  Modulation of blood flow, hypoxia, and vascular function in orthotopic prostate tumors during exercise. , 2014, Journal of the National Cancer Institute.

[18]  H. Agha-alinejad,et al.  The effect of exercise training on the level of tissue IL-6 and vascular endothelial growth factor in breast cancer bearing mice , 2014, Iranian journal of basic medical sciences.

[19]  M. Dewhirst,et al.  Therapeutic properties of aerobic training after a cancer diagnosis: more than a one-trick pony? , 2014, Journal of the National Cancer Institute.

[20]  S. H. Richter,et al.  Resting Is Rusting , 2014, The Neuroscientist : a review journal bringing neurobiology, neurology and psychiatry.

[21]  L. Zon,et al.  Zebrafish cancer: the state of the art and the path forward , 2013, Nature Reviews Cancer.

[22]  D. Abdalla,et al.  The influence of physical activity on the profile of immune response cells and cytokine synthesis in mice with experimental breast tumors induced by 7,12-dimethylbenzanthracene , 2013, European journal of cancer prevention : the official journal of the European Cancer Prevention Organisation.

[23]  M. Dewhirst,et al.  Effects and potential mechanisms of exercise training on cancer progression: A translational perspective , 2013, Brain, Behavior, and Immunity.

[24]  Cayetano Gonzalez,et al.  Drosophila melanogaster: a model and a tool to investigate malignancy and identify new therapeutics , 2013, Nature Reviews Cancer.

[25]  L. Jones,et al.  Exercise-oncology research: Past, present, and future , 2013, Acta oncologica.

[26]  S. Rogers,et al.  Exercise interventions on health‐related quality of life for cancer survivors , 2012, Clinical otolaryngology : official journal of ENT-UK ; official journal of Netherlands Society for Oto-Rhino-Laryngology & Cervico-Facial Surgery.

[27]  S. Blair,et al.  Effect of physical inactivity on major non-communicable diseases worldwide: an analysis of burden of disease and life expectancy , 2012, BDJ.

[28]  Rajesh C. Dash,et al.  Exercise modulation of the host-tumor interaction in an orthotopic model of murine prostate cancer. , 2012, Journal of applied physiology.

[29]  P. Cury,et al.  The influence of physical activity in the progression of experimental lung cancer in mice. , 2012, Pathology, research and practice.

[30]  T. Golub,et al.  Tumour micro-environment elicits innate resistance to RAF inhibitors through HGF secretion , 2012, Nature.

[31]  Sameer M. Siddiqi,et al.  Physical activity, biomarkers, and disease outcomes in cancer survivors: a systematic review. , 2012, Journal of the National Cancer Institute.

[32]  C. Hillard,et al.  Swim stress differentially affects limbic contents of 2-arachidonoylglycerol and 2-oleoylglycerol , 2012, Neuroscience.

[33]  Weiqin Jiang,et al.  Effects of Energy Restriction and Wheel Running on Mammary Carcinogenesis and Host Systemic Factors in a Rat Model , 2012, Cancer Prevention Research.

[34]  P. Goodwin,et al.  Insulin- and obesity-related variables in early-stage breast cancer: correlations and time course of prognostic associations. , 2012, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[35]  Lin Yan,et al.  Effects of non-motorized voluntary running on experimental and spontaneous metastasis in mice. , 2011, Anticancer research.

[36]  J. Davis,et al.  Benefits of exercise training on breast cancer progression and inflammation in C3(1)SV40Tag mice. , 2011, Cytokine.

[37]  H. Yoshida,et al.  Effect of habitual exercise on renal carcinogenesis by ferric nitrilotriacetate , 2011, Environmental health and preventive medicine.

[38]  G. Sledge,et al.  Rethinking the metastatic cascade as a therapeutic target , 2011, Nature Reviews Clinical Oncology.

[39]  C. Friedenreich,et al.  Associations of objectively assessed physical activity and sedentary time with biomarkers of breast cancer risk in postmenopausal women: findings from NHANES (2003–2006) , 2011, Breast Cancer Research and Treatment.

[40]  Andrea Doria,et al.  The kaleidoscope of glucorticoid effects on immune system. , 2011, Autoimmunity reviews.

[41]  Z. Radák,et al.  The effect of regular exercise on development of sarcoma tumor and oxidative damage in mice liver. , 2011, Journal of sports science & medicine.

[42]  N. Berger,et al.  Energy balance, host-related factors, and cancer progression. , 2010, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[43]  R. Weinberg,et al.  Tumor-host interactions: a far-reaching relationship. , 2010, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[44]  A. McTiernan,et al.  Wheel running, skeletal muscle aerobic capacity and 1-methyl-1-nitrosourea induced mammary carcinogenesis in the rat. , 2010, Carcinogenesis.

[45]  N. Boyd,et al.  Alberta physical activity and breast cancer prevention trial: sex hormone changes in a year-long exercise intervention among postmenopausal women. , 2010, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[46]  M. Dewhirst,et al.  Effect of aerobic exercise on tumor physiology in an animal model of human breast cancer. , 2010, Journal of applied physiology.

[47]  M. Joyner,et al.  Exercise protects the cardiovascular system: effects beyond traditional risk factors , 2009, The Journal of physiology.

[48]  L. Donehower,et al.  Exercise effects on tumorigenesis in a p53-deficient mouse model of breast cancer. , 2009, Medicine and science in sports and exercise.

[49]  U. Wisløff,et al.  Swim training suppresses tumor growth in mice. , 2009, Journal of applied physiology.

[50]  Yasuo Ohashi,et al.  Cardiorespiratory fitness as a quantitative predictor of all-cause mortality and cardiovascular events in healthy men and women: a meta-analysis. , 2009, JAMA.

[51]  R. Hellweg,et al.  Voluntary exercise induces anxiety‐like behavior in adult C57BL/6J mice correlating with hippocampal neurogenesis , 2009, Hippocampus.

[52]  H. Alessio,et al.  Revisiting influences on tumor development focusing on laboratory housing. , 2009, Journal of the American Association for Laboratory Animal Science : JAALAS.

[53]  K. Esser,et al.  Physical activity reduces prostate carcinogenesis in a transgenic model , 2009, The Prostate.

[54]  Weiqin Jiang,et al.  Energetics and mammary carcinogenesis: effects of moderate-intensity running and energy intake on cellular processes and molecular mechanisms in rats. , 2009, Journal of applied physiology.

[55]  A. Natali,et al.  Long-term aerobic swimming training by rats reduces the number of aberrant crypt foci in 1,2-dimethylhydrazine-induced colon cancer. , 2008, Brazilian journal of medical and biological research = Revista brasileira de pesquisas medicas e biologicas.

[56]  R. Baumgartner,et al.  Influence of pre- and postdiagnosis physical activity on mortality in breast cancer survivors: the health, eating, activity, and lifestyle study. , 2008, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[57]  É. Caperuto,et al.  Effect of endurance training upon lipid metabolism in the liver of cachectic tumour‐bearing rats , 2008, Cell biochemistry and function.

[58]  Weiqin Jiang,et al.  Effect of Nonmotorized Wheel Running on Mammary Carcinogenesis: Circulating Biomarkers, Cellular Processes, and Molecular Mechanisms in Rats , 2008, Cancer Epidemiology Biomarkers & Prevention.

[59]  R. Weinberg,et al.  Systemic Endocrine Instigation of Indolent Tumor Growth Requires Osteopontin , 2008, Cell.

[60]  M. Moraes,et al.  Effect of a High-Intensity Exercise Training on the Metabolism and Function of Macrophages and Lymphocytes of Walker 256 Tumor–Bearing Rats , 2007, Experimental biology and medicine.

[61]  C. Ulrich,et al.  Effect of a 12-Month Exercise Intervention on the Apoptotic Regulating Proteins Bax and Bcl-2 in Colon Crypts: A Randomized Controlled Trial , 2007, Cancer Epidemiology Biomarkers & Prevention.

[62]  Liz Y. Han,et al.  Chronic stress promotes tumor growth and angiogenesis in a mouse model of ovarian carcinoma , 2006, Nature Medicine.

[63]  D. Warburton,et al.  Health benefits of physical activity: the evidence , 2006, Canadian Medical Association Journal.

[64]  K. Courneya,et al.  Effects of Exercise Training on Antitumor Efficacy of Doxorubicin in MDA-MB-231 Breast Cancer Xenografts , 2005, Clinical Cancer Research.

[65]  L. Mâsse,et al.  Controlled Physical Activity Trials in Cancer Survivors: A Systematic Review and Meta-analysis , 2005, Cancer Epidemiology Biomarkers & Prevention.

[66]  S. Sheen-Chen,et al.  Serum Levels of Hepatocyte Growth Factor in Patients with Breast Cancer , 2005, Cancer Epidemiology Biomarkers & Prevention.

[67]  J. Woods,et al.  Exercise delays allogeneic tumor growth and reduces intratumoral inflammation and vascularization. , 2004, Journal of applied physiology.

[68]  A. Cohen-Solal,et al.  Physical activity for primary and secondary prevention. Position paper of the Working Group on Cardiac Rehabilitation and Exercise Physiology of the European Society of Cardiology , 2003, European journal of cardiovascular prevention and rehabilitation : official journal of the European Society of Cardiology, Working Groups on Epidemiology & Prevention and Cardiac Rehabilitation and Exercise Physiology.

[69]  R. Strange,et al.  Moderate exercise training slows mammary tumour growth in adolescent rats , 2003, European journal of cancer prevention : the official journal of the European Cancer Prevention Organisation.

[70]  John D Potter,et al.  Effect of exercise on total and intra-abdominal body fat in postmenopausal women: a randomized controlled trial. , 2003, JAMA.

[71]  P. J. Hoopes,et al.  Basic principles of thermal dosimetry and thermal thresholds for tissue damage from hyperthermia , 2003, International journal of hyperthermia : the official journal of European Society for Hyperthermic Oncology, North American Hyperthermia Group.

[72]  I. Macdonald,et al.  Metastasis: Dissemination and growth of cancer cells in metastatic sites , 2002, Nature Reviews Cancer.

[73]  M. Thun,et al.  American Cancer Society Guidelines on Nutrition and Physical Activity for Cancer Prevention: Reducing the Risk of Cancer With Healthy Food Choices and Physical Activity , 2002, CA: a cancer journal for clinicians.

[74]  R. Bacurau,et al.  Effect of a moderate intensity exercise training protocol on the metabolism of macrophages and lymphocytes of tumour‐bearing rats , 2000, Cell biochemistry and function.

[75]  S. Gordon,et al.  Waging war on modern chronic diseases: primary prevention through exercise biology , 2000, Journal of applied physiology.

[76]  S. Gordon,et al.  Recombinant erythropoietin in urine , 2000, Nature.

[77]  C. Ulrich,et al.  The Physical Activity for Total Health (PATH) Study: rationale and design. , 1999, Medicine and science in sports and exercise.

[78]  A. Hackney,et al.  Twenty-four-hour cortisol response to multiple daily exercise sessions of moderate and high intensity. , 1999, Clinical physiology.

[79]  J. Kelsey,et al.  Recreational physical activity and breast cancer risk among women under age 45 years. , 1998, American journal of epidemiology.

[80]  S. Sheen-Chen,et al.  Serum concentration of tumor necrosis factor in patients with breast cancer , 1997, Breast Cancer Research and Treatment.

[81]  L. Hoffman‐Goetz,et al.  Exercise and in vivo natural cytotoxicity against tumour cells of varying metastatic capacity , 1996, Clinical & Experimental Metastasis.

[82]  S. Edström,et al.  Tumour purine nucleotides and cell proliferation in response to exercise in rats. , 1995, European journal of cancer.

[83]  Y. Arumugam,et al.  Exercise training and mouse mammary tumour metastasis. , 1994, Anticancer research.

[84]  B. Henderson,et al.  Physical exercise and reduced risk of breast cancer in young women. , 1994, Journal of the National Cancer Institute.

[85]  B. Macneil,et al.  Tissue distribution of radiolabelled tumor cells in wheel exercised and sedentary mice. , 1994, International journal of sports medicine.

[86]  T. Watanabe,et al.  Effect of Voluntary Exercise on 3′-Methyl-4-Dimethylaminoazobenzene-lnduced Hepatomas in Male Jc1: Wistar Rats , 1993, Proceedings of the Society for Experimental Biology and Medicine. Society for Experimental Biology and Medicine.

[87]  B. Macneil,et al.  Exercise training and tumour metastasis in mice: influence of time of exercise onset. , 1993, Anticancer research.

[88]  B. Macneil,et al.  Effect of exercise on natural cytotoxicity and pulmonary tumor metastases in mice. , 1993, Medicine and science in sports and exercise.

[89]  R. Pate,et al.  Effects of exercise on the immune response to cancer. , 1992, Medicine and science in sports and exercise.

[90]  A. Lowenfels,et al.  Effect of voluntary exercise on azoxymethane-induced hepatocarcinogenesis in male F344 rats. , 1992, Cancer letters.

[91]  N. York,et al.  Can Endurance Sports Stimulate Immune Mechanisms against Cancer and Metastasis? , 1991, International journal of sports medicine.

[92]  V. Baracos Exercise inhibits progressive growth of the Morris hepatoma 7777 in male and female rats. , 1989, Canadian journal of physiology and pharmacology.

[93]  A. Lowenfels,et al.  Effect of voluntary exercise on azoxymethane-induced colon carcinogenesis in male F344 rats. , 1988, Cancer research.

[94]  R. Nelson,et al.  The influence of physical activity in 1,2 dimethylhydrazine induced colon carcinogenesis in the rat. , 1987, Anticancer research.

[95]  G. Newton Tumor Susceptibility in Rats: Role of Infantile Manipulation and Later Exercise , 1965, Psychological reports.

[96]  A. Cantarow,et al.  The influence of exercise on the growth of transplanted rat tumors. , 1962, Cancer research.

[97]  A. Davie,et al.  Effects of moderate and high intensity exercise on T1/T2 balance. , 2012, Exercise immunology review.

[98]  M. Thun,et al.  American Cancer Society guidelines on nutrition and physical activity for cancer prevention , 2002, CA: a cancer journal for clinicians.

[99]  W. Parkhouse,et al.  Exercise during adolescence and its effects on mammary gland development, proliferation, and nitrosomethylurea (NMU) induced tumorigenesis in rats , 2005, Breast Cancer Research and Treatment.

[100]  C. Barriga,et al.  Exercise-induced stress enhances mammary tumor growth in rats: Beneficial effect of the hormone melatonin , 2005, Molecular and Cellular Biochemistry.

[101]  W. Parkhouse,et al.  Exercise during puberty and NMU induced mammary tumorigenesis in rats , 2004, Breast Cancer Research and Treatment.

[102]  T. Kaneko,et al.  Attenuation of the development of murine solid leukemia tumor by physical exercise. , 2002, Antioxidants & redox signaling.

[103]  I. Karlberg,et al.  Insulin sensitivity, hormonal levels and skeletal muscle protein metabolism in tumour-bearing exercising rats. , 1995, European journal of cancer.

[104]  K. Overvad,et al.  Effect of exercise on intestinal tumour development in the male Fischer rat after exposure to azoxymethane. , 1993, European journal of cancer prevention : the official journal of the European Cancer Prevention Organisation.

[105]  L. Gershbein,et al.  Influence of stress of lesion growth and on survival of animals bearing parenteral and intracerebral leukemia L1210 and Walker tumors. , 1974, Oncology.

[106]  Eddie Barendsen,et al.  21 years of Biologically Effective Dose , 2022 .