0000000001037011

AUTHOR

Sandra Zampieri

showing 2 related works from this author

Aerobic Exercise and Pharmacological Treatments Counteract Cachexia by Modulating Autophagy in Colon Cancer

2016

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 auto…

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 flux
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NAD+ repletion with niacin counteracts cancer cachexia

2023

AbstractCachexia is a debilitating wasting syndrome and highly prevalent comorbidity in cancer patients. It manifests especially with energy and mitochondrial metabolism aberrations that promote tissue wasting. We recently identified nicotinamide adenine dinucleotide (NAD+) loss to associate with muscle mitochondrial dysfunction in cancer hosts. In this study we confirm that depletion of NAD+ and downregulation of Nrk2, an NAD+ biosynthetic enzyme, are common features of severe cachexia in different mouse models. Testing NAD+ repletion therapy in cachectic mice reveals that NAD+ precursor, vitamin B3 niacin, efficiently corrects tissue NAD+ levels, improves mitochondrial metabolism and amel…

aineenvaihduntahäiriötMultidisciplinaryenergy metabolismcancerGeneral Physics and AstronomysyöpätauditGeneral Chemistrymetabolic diseasesaineenvaihduntaGeneral Biochemistry Genetics and Molecular Biology
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