Myokine Expression and Tumor-Suppressive Effect of Serum after 12 wk of Exercise in Prostate Cancer Patients on ADT.
Study Goal
The researchers aimed to determine whether resistance training, combined with aerobic exercise and protein supplementation, could enhance myokine expression and exert tumor-suppressive effects in prostate cancer patients on androgen deprivation therapy.
Results Summary
The intervention reduced body weight, fat mass, and percent body fat while increasing lean mass and strength. Postintervention serum showed increased oncostatin M (OSM) levels and reduced prostate cancer cell growth compared to baseline.
Population
Prostate cancer patients (age 73.3 ± 5.6 yr) undergoing androgen deprivation therapy.
Effective Dosage
Not specified (supervised resistance training, self-directed aerobic exercise, and protein supplementation).
Duration
12 weeks
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
12-wk exercise-based intervention including supervised resistance training, self-directed aerobic exercise, and protein supplementation | decrease | Body weight | prostate cancer patients undertaking androgen deprivation therapy | - | were reduced | #1 |
12-wk exercise-based intervention including supervised resistance training, self-directed aerobic exercise, and protein supplementation | decrease | fat mass | prostate cancer patients undertaking androgen deprivation therapy | - | were reduced | #2 |
12-wk exercise-based intervention including supervised resistance training, self-directed aerobic exercise, and protein supplementation | decrease | percent body fat | prostate cancer patients undertaking androgen deprivation therapy | - | were reduced | #3 |
12-wk exercise-based intervention including supervised resistance training, self-directed aerobic exercise, and protein supplementation | increase | percent lean mass | prostate cancer patients undertaking androgen deprivation therapy | - | increased | #4 |
12-wk exercise-based intervention including supervised resistance training, self-directed aerobic exercise, and protein supplementation | increase | strength (leg press) | prostate cancer patients undertaking androgen deprivation therapy | - | increased | #5 |
12-wk exercise-based intervention including supervised resistance training, self-directed aerobic exercise, and protein supplementation | increase | strength (chest press) | prostate cancer patients undertaking androgen deprivation therapy | - | increased | #6 |
12-wk exercise-based intervention including supervised resistance training, self-directed aerobic exercise, and protein supplementation | increase | Serum OSM levels | prostate cancer patients undertaking androgen deprivation therapy | - | increased | #7 |
12-wk exercise-based intervention including supervised resistance training, self-directed aerobic exercise, and protein supplementation | increase | relative serum OSM levels | prostate cancer patients undertaking androgen deprivation therapy | - | increased | #8 |
postintervention serum | decrease | DU145 Cell Index | prostate cancer cell line DU145 | - | significant reduction | #9 |
postintervention serum | decrease | growth rate | prostate cancer cell line DU145 | - | significant reduction | #10 |
PURPOSE: Although several mechanisms have been proposed for the tumor-suppressive effect of exercise, little attention has been given to myokines, even though skeletal muscle is heavily recruited during exercise resulting in myokine surges. We measured resting serum myokine levels before and after an exercise-based intervention and the effect of this serum on prostate cancer cell growth. METHODS: Ten prostate cancer patients undertaking androgen deprivation therapy (age, 73.3 ± 5.6 yr) undertook a 12-wk exercise-based intervention including supervised resistance training, self-directed aerobic exercise, and protein supplementation. Body composition was assessed by dual-energy x-ray absorptiometry and muscle strength by the one-repetition maximum method. Fasting blood was collected at baseline and postintervention, and serum levels of myokines-secreted protein acidic and rich in cysteine, oncostatin M (OSM), decorin, insulin-like growth factor-1, and insulin-like growth factor binding protein-3 (IGFBP-3)-were measured. The growth of the prostate cancer cell line DU145 with baseline and postintervention serum was measured. RESULTS: Body weight (P = 0.011), fat mass (P = 0.012), and percent body fat (P = 0.033) were reduced, whereas percent lean mass (P = 0.001) increased, as did strength (leg press, P = 0.006; chest press, P = 0.020) across the intervention. Serum OSM levels (P = 0.020) and relative serum OSM levels (P = 0.020) increased compared with baseline. A significant reduction in DU145 Cell Index (P = 0.012) and growth rate (P = 0.012) was observed after applying postintervention serum compared with baseline serum. CONCLUSIONS: This study provides evidence for enhanced myokine expression and tumor-suppressive effects of serum from chronically exercise-trained prostate cancer patients on androgen deprivation therapy.