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Item Endurance training slows breast tumor growth in mice by suppressing Treg cells recruitment to tumors(Biomed Central, 2019-06-04) Hagar, Amit; Wang, Zemin; Koyama, Sachiko; Serrano, Josua Aponte; Melo, Luma; Vargas, Stephanie; Carpenter, Richard; Foley, John; Dermatology, School of MedicineBACKGROUND: Aerobic exercise has been shown to slow tumor progression in rodents and humans, but the mechanisms behind this effect are still unclear. Here we show that aerobic exercise in the form of chronic endurance training suppresses tumor recruitment of FoxP3+ Treg cells thus enhancing antitumor immune efficiency. METHODS: Adult wild-type and athymic BALB/c female mice were endurance-trained for 8 weeks. Circulating leukocytes as well as muscle and liver mtDNA copy number were compared to aged-matched concurrent sedentary controls to establish systemic effects. 4 T1 murine mammary tumor cells were injected subcutaneously to the 4th mammary pad at the end of the training period. Tumor growth and survival rates were compared, together with antitumor immune response. RESULTS: Exercised wild-type had 17% slower growth rate, 24% longer survival, and 2-fold tumor-CD+ 8/FoxP3+ ratio than sedentary controls. Exercised athymic BALB/c females showed no difference in tumor growth or survival rates when compared to sedentary controls. CONCLUSIONS: Cytotoxic T cells are a significant factor in endurance exercise-induced suppression of tumor growth. Endurance exercise enhances antitumor immune efficacy by increasing intratumoral CD8+/FoxP3+ ratio.Item Study in Parkinson's disease of exercise phase 3 (SPARX3): study protocol for a randomized controlled trial(BMC, 2022-10-06) Patterson, Charity G.; Joslin, Elizabeth; Gil, Alexandra B.; Spigle, Wendy; Nemet, Todd; Chahine, Lana; Christiansen, Cory L.; Melanson, Ed; Kohrt, Wendy M.; Mancini, Martina; Josbeno, Deborah; Balfany, Katherine; Griffith, Garett; Dunlap, Mac Kenzie; Lamotte, Guillaume; Suttman, Erin; Larson, Danielle; Branson, Chantale; McKee, Kathleen E.; Goelz, Li; Poon, Cynthia; Tilley, Barbara; Kang, Un Jung; Tansey, Malú Gámez; Luthra, Nijee; Tanner, Caroline M.; Haus, Jacob M.; Fantuzzi, Giamila; McFarland, Nikolaus R.; Gonzalez-Latapi, Paulina; Foroud, Tatiana; Motl, Robert; Schwarzschild, Michael A.; Simuni, Tanya; Marek, Kenneth; Naito, Anna; Lungu, Codrin; Corcos, Daniel M.; SPARX3-PSG Investigators; Medical and Molecular Genetics, School of MedicineBackground: To date, no medication has slowed the progression of Parkinson's disease (PD). Preclinical, epidemiological, and experimental data on humans all support many benefits of endurance exercise among persons with PD. The key question is whether there is a definitive additional benefit of exercising at high intensity, in terms of slowing disease progression, beyond the well-documented benefit of endurance training on a treadmill for fitness, gait, and functional mobility. This study will determine the efficacy of high-intensity endurance exercise as first-line therapy for persons diagnosed with PD within 3 years, and untreated with symptomatic therapy at baseline. Methods: This is a multicenter, randomized, evaluator-blinded study of endurance exercise training. The exercise intervention will be delivered by treadmill at 2 doses over 18 months: moderate intensity (4 days/week for 30 min per session at 60-65% maximum heart rate) and high intensity (4 days/week for 30 min per session at 80-85% maximum heart rate). We will randomize 370 participants and follow them at multiple time points for 24 months. The primary outcome is the Movement Disorders Society-Unified Parkinson's Disease Rating Scale (MDS-UPDRS) motor score (Part III) with the primary analysis assessing the change in MDS-UPDRS motor score (Part III) over 12 months, or until initiation of symptomatic antiparkinsonian treatment if before 12 months. Secondary outcomes are striatal dopamine transporter binding, 6-min walk distance, number of daily steps, cognitive function, physical fitness, quality of life, time to initiate dopaminergic medication, circulating levels of C-reactive protein (CRP), and brain-derived neurotrophic factor (BDNF). Tertiary outcomes are walking stride length and turning velocity. Discussion: SPARX3 is a Phase 3 clinical trial designed to determine the efficacy of high-intensity, endurance treadmill exercise to slow the progression of PD as measured by the MDS-UPDRS motor score. Establishing whether high-intensity endurance treadmill exercise can slow the progression of PD would mark a significant breakthrough in treating PD. It would have a meaningful impact on the quality of life of people with PD, their caregivers and public health.