6533b858fe1ef96bd12b6d0e
RESEARCH PRODUCT
Aerobic Exercise and Pharmacological Treatments Counteract Cachexia by Modulating Autophagy in Colon Cancer
Mathias MericskayMario GruppoUgo CarraroZhenlin LiSandra ZampieriViviana MoresiFilippo MacalusoValentina Di FeliceSergio AdamoStefano MeriglianoMarco B. L. RocchiEmanuele BerardiEmanuele BerardiPaola AulinoEmanuele RizzutoRosario BaroneEva PignaHelmut KernDario ColettiDario Colettisubject
0301 basic medicineCachexiaColorectal cancerMuscle Fibers SkeletalMicevoluntary physical activityChloroquineMice Inbred BALB CMultidisciplinaryMuscle WeaknessMyogenesis3. Good healthmedicine.anatomical_structureColonic NeoplasmsFemalecancer cachexiamedicine.drugmedicine.medical_specialty[SDV.CAN]Life Sciences [q-bio]/Cancerautophagic fluxBiologyArticleCachexia03 medical and health sciencesAtrophyInternal medicineCell Line TumorPhysical Conditioning AnimalmedicineAutophagyAerobic exerciseAnimalsHumansMuscle SkeletalSirolimusrapamycinAutophagyAutophagosomesSkeletal musclemuscle wasting[SDV.MHEP.HEG]Life Sciences [q-bio]/Human health and pathology/Hépatology and GastroenterologyRibonucleotidesmedicine.diseaseAminoimidazole CarboxamideSurvival Analysisexercise mimetics030104 developmental biologyEndocrinology5-amino-1-beta-D-ribofuranosyl-imidazole-4-carboxamide (AICAR)LysosomesNeoplasm Transplantationmuscle wasting; cancer cachexia; voluntary physical activity; exercise mimetics; 5-amino-1-beta-D-ribofuranosyl-imidazole-4-carboxamide (AICAR); rapamycin; autophagic fluxdescription
Recent studies have correlated physical activity with a better prognosis in cachectic patients, although the underlying mechanisms are not yet understood. In order to identify the pathways involved in the physical activity-mediated rescue of skeletal muscle mass and function, we investigated the effects of voluntary exercise on cachexia in colon carcinoma (C26)-bearing mice. Voluntary exercise prevented loss of muscle mass and function, ultimately increasing survival of C26-bearing mice. We found that the autophagic flux is overloaded in skeletal muscle of both colon carcinoma murine models and patients, but not in running C26-bearing mice, thus suggesting that exercise may release the autophagic flux and ultimately rescue muscle homeostasis. Treatment of C26-bearing mice with either AICAR or rapamycin, two drugs that trigger the autophagic flux, also rescued muscle mass and prevented atrogene induction. Similar effects were reproduced on myotubes in vitro, which displayed atrophy following exposure to C26-conditioned medium, a phenomenon that was rescued by AICAR or rapamycin treatment and relies on autophagosome-lysosome fusion (inhibited by chloroquine). Since AICAR, rapamycin and exercise equally affect the autophagic system and counteract cachexia, we believe autophagy-triggering drugs may be exploited to treat cachexia in conditions in which exercise cannot be prescribed. Recent studies have correlated physical activity with a better prognosis in cachectic patients, although the underlying mechanisms are not yet understood. In order to identify the pathways involved in the physical activity-mediated rescue of skeletal muscle mass and function, we investigated the effects of voluntary exercise on cachexia in colon carcinoma (C26)-bearing mice. Voluntary exercise prevented loss of muscle mass and function, ultimately increasing survival of C26-bearing mice. We found that the autophagic flux is overloaded in skeletal muscle of both colon carcinoma murine models and patients, but not in running C26-bearing mice, thus suggesting that exercise may release the autophagic flux and ultimately rescue muscle homeostasis. Treatment of C26-bearing mice with either AICAR or rapamycin, two drugs that trigger the autophagic flux, also rescued muscle mass and prevented atrogene induction. Similar effects were reproduced on myotubes in vitro, which displayed atrophy following exposure to C26-conditioned medium, a phenomenon that was rescued by AICAR or rapamycin treatment and relies on autophagosome-lysosome fusion (inhibited by chloroquine). Since AICAR, rapamycin and exercise equally affect the autophagic system and counteract cachexia, we believe autophagy-triggering drugs may be exploited to treat cachexia in conditions in which exercise cannot be prescribed.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2016-05-31 |