Chemical activation of SAT1 corrects diet-induced metabolic syndrome.
Francesca CastoldiMervi T HyvönenSylvère DurandFanny AprahamianAllan SauvatShoaib Ahmad MalikElisa Elena BaraccoErika VacchelliPaule OpolonNicolas SignolleDéborah LefevreNoelie BossutTobias EisenbergChristopher DammbrueckTobias PendlMargerie KremerSylvie LachkarClaudia EinerBernhard MichalkeHans ZischkaFrank MadeoTuomo A KeinänenMaria Chiara MaiuriFederico PietrocolaGuido KroemerPublished in: Cell death and differentiation (2020)
The pharmacological targeting of polyamine metabolism is currently under the spotlight for its potential in the prevention and treatment of several age-associated disorders. Here, we report the finding that triethylenetetramine dihydrochloride (TETA), a copper-chelator agent that can be safely administered to patients for the long-term treatment of Wilson disease, exerts therapeutic benefits in animals challenged with hypercaloric dietary regimens. TETA reduced obesity induced by high-fat diet, excessive sucrose intake, or leptin deficiency, as it reduced glucose intolerance and hepatosteatosis, but induced autophagy. Mechanistically, these effects did not involve the depletion of copper from plasma or internal organs. Rather, the TETA effects relied on the activation of an energy-consuming polyamine catabolism, secondary to the stabilization of spermidine/spermine N1-acetyltransferase-1 (SAT1) by TETA, resulting in enhanced enzymatic activity of SAT. All the positive effects of TETA on high-fat diet-induced metabolic syndrome were lost in SAT1-deficient mice. Altogether, these results suggest novel health-promoting effects of TETA that might be taken advantage of for the prevention or treatment of obesity.
Keyphrases
- metabolic syndrome
- insulin resistance
- high fat diet
- high fat diet induced
- type diabetes
- adipose tissue
- weight gain
- healthcare
- skeletal muscle
- weight loss
- cell death
- mental health
- blood pressure
- uric acid
- replacement therapy
- physical activity
- endothelial cells
- social media
- signaling pathway
- cardiovascular disease
- oxidative stress
- combination therapy
- cardiovascular risk factors
- peritoneal dialysis
- diabetic rats
- blood glucose