Project description:Voluntary exercise reduces the risk of cancer and lowers the risk of disease recurrence. Yet the mechanisms for this protection remain to be elucidated. Here we demonstrate that exercise halves tumor growth through an exercise-dependent mobilization and intratumoral infiltration of NK cells in malignant melanoma. Using voluntary wheel running, we show that exercise prior to and during B16 tumor challenge reduced tumor growth by 67%, and this reduction was associated with increased inflammation and immune cell infiltrates, especially NK cells, in the tumors from exercising mice. Depletion of NK cells blunted the exercise-dependent reduction in tumor growth. Moreover, during exercise, NK cells were engaged through an epinephrine-dependent mobilization to the circulation and redistributed to peripheral tissues through an IL-6 dependent mechanism. This study highlights the importance of exercise-dependent immune regulation in the control of malignant melanoma

Project description:Physical activity reduces cancer-associated mortality through multiple mechanisms, including tumor immune microenvironment (TIME) reprogramming. However, whether and how physiological interventions promote anti-tumor immunity and immunotherapy remains elusive. Here we report that clinically relevant voluntary exercise promotes muscle-derived exosomal miR-29a-3p for extracellular matrix (ECM) degradation in patients and mouse models with multiple types of cancer, thereby permitting immune cell infiltration and immunotherapy. Mechanistically, an unbiased screening identified exercise-responsive exosomal miR-29a-3p that targets tumor cell and cancer associated fibroblasts to downregulate COL1A1 and reduce ECM. State-of-the-art techniques including cytometry by time-of-flight (CyTOF) demonstrated miR-29a-3p-induced TIME remodeling and immune cell infiltration. Combining immunotherapy with voluntary exercise or miR-29a-3p further increased the anti-tumor efficacy in preclinical models. Clinically, miR-29a-3p was correlated with degraded ECM and T-cell infiltration in various cancer types in patients, and correlated with immunotherapy responders. Our work reveals the novel predictive value of miR-29a-3p for immunotherapy, provides mechanistic insights into exercise-promoted anti-cancer immunity, and highlights the therapeutic potential of voluntary exercise in immunotherapy.

Project description:Physical activity reduces cancer-associated mortality through multiple mechanisms, including tumor immune microenvironment (TIME) reprogramming. However, whether and how physiological interventions promote anti-tumor immunity and immunotherapy remains elusive. Here we report that clinically relevant voluntary exercise promotes muscle-derived exosomal miR-29a-3p for extracellular matrix (ECM) degradation in patients and mouse models with multiple types of cancer, thereby permitting immune cell infiltration and immunotherapy. Mechanistically, an unbiased screening identified exercise-responsive exosomal miR-29a-3p that targets tumor cell and cancer associated fibroblasts to downregulate COL1A1 and reduce ECM. State-of-the-art techniques including cytometry by time-of-flight (CyTOF) demonstrated miR-29a-3p-induced TIME remodeling and immune cell infiltration. Combining immunotherapy with voluntary exercise or miR-29a-3p further increased the anti-tumor efficacy in preclinical models. Clinically, miR-29a-3p was correlated with degraded ECM and T-cell infiltration in various cancer types in patients, and correlated with immunotherapy responders. Our work reveals the novel predictive value of miR-29a-3p for immunotherapy, provides mechanistic insights into exercise-promoted anti-cancer immunity, and highlights the therapeutic potential of voluntary exercise in immunotherapy.

Project description:Voluntary exercise suppresses tumor growth through exercise-directed recruitment and intratumoral infiltration of NK cells

Project description:Effects of voluntary exercise in rat aorta. Spontaneously hypertensive rats (SHR) performed 5 weeks of voluntary exercise (wheel-cage running). Aortic tissue was collected and samples were pooled (3 aortae/chip). Aortae from running rats were compared to aortae from non-running rats. Keywords: parallel sample

Project description:Gene profiling hippocampal mRNA from 1 week sedentary mice vs. 1 week voluntary exercise mice. Keywords: Exercise study.

Project description:Comparative analysis of mouse cardiac left ventricle gene expression: voluntary wheel exercise and pregnancy-induced cardiac hypertrophy We performed microarray analysis on RNA from left ventricles of mice in non-pregnant diestrus cycle, mid-pregnancy (MP), late-pregnancy (LP), and immediate post-partum (0PP). These were compared to 7days (7EX) and 21 days (21EX) of voluntary wheel running exercise.

Project description:Effects of voluntary exercise in rat aorta. Spontaneously hypertensive rats (SHR) performed 5 weeks of voluntary exercise (wheel-cage running). Aortic tissue was collected and samples were pooled (3 aortae/chip). Aortae from running rats were compared to aortae from non-running rats.

Project description:Comparative analysis of mouse cardiac left ventricle gene expression: voluntary wheel exercise and pregnancy-induced cardiac hypertrophy

Project description:To undertake transcriptome-wide microarray analysis to develop a view of molecular adaptations that may underpin any benefit associated with the mild exercise regime of voluntary running Total RNA obtained from isolated whole hearts subjected to 7 days of voluntary exercise compared to sedentary control hearts (n=6/group).