Project description:Forty percent of the US population and 1 in 6 individuals worldwide are obese, with the incidence surging globally1,2. Various dietary interventions, including carbohydrate, fat and more recently amino acid restriction, have been explored to combat this epidemic3-6. We investigated the impact of removing individual amino acids on the weight profiles of mice. Here, we show that conditional cysteine restriction resulted in the most dramatic weight loss when compared to essential amino acid restriction, amounting to 30% within one week, which was readily reversed. We found that cysteine deficiency activated the integrated stress response and oxidative stress response, which amplify each other, leading to the induction of GDF15 and FGF21, which partly explained the phenotype7-9. Surprisingly, we observed lower tissue coenzyme A (CoA), which has been considered to be extremely stable10, resulting in reduced mitochondrial functionality and metabolic rewiring. This results in energetically inefficient anaerobic glycolysis and defective TCA cycle, with sustained urinary excretion of pyruvate, orotate, citrate, α-ketoglutarate, nitrogen rich compounds, and amino acids In summary, our investigation reveals that cysteine restriction, by depleting GSH and CoA, exerts a maximal impact on weight loss, metabolism, and stress signaling compared to other amino acid restrictions. These findings suggest novel strategies for addressing a range of metabolic diseases and the growing obesity crisis.

Project description:Forty percent of the US population and 1 in 6 individuals worldwide are obese, with the incidence surging globally1,2. Various dietary interventions, including carbohydrate, fat and more recently amino acid restriction, have been explored to combat this epidemic3-6. We investigated the impact of removing individual amino acids on the weight profiles of mice. Here, we show that conditional cysteine restriction resulted in the most dramatic weight loss when compared to essential amino acid restriction, amounting to 30% within one week, which was readily reversed. We found that cysteine deficiency activated the integrated stress response and oxidative stress response, which amplify each other, leading to the induction of GDF15 and FGF21, which partly explained the phenotype7-9. Surprisingly, we observed lower tissue coenzyme A (CoA), which has been considered to be extremely stable10, resulting in reduced mitochondrial functionality and metabolic rewiring. This results in energetically inefficient anaerobic glycolysis and defective TCA cycle, with sustained urinary excretion of pyruvate, orotate, citrate, α-ketoglutarate, nitrogen rich compounds, and amino acids In summary, our investigation reveals that cysteine restriction, by depleting GSH and CoA, exerts a maximal impact on weight loss, metabolism, and stress signaling compared to other amino acid restrictions. These findings suggest novel strategies for addressing a range of metabolic diseases and the growing obesity crisis.

Project description:Forty percent of the US population and 1 in 6 individuals worldwide are obese, with the incidence surging globally1,2. Various dietary interventions, including carbohydrate, fat and more recently amino acid restriction, have been explored to combat this epidemic3-6. We investigated the impact of removing individual amino acids on the weight profiles of mice. Here, we show that conditional cysteine restriction resulted in the most dramatic weight loss when compared to essential amino acid restriction, amounting to 30% within one week, which was readily reversed. We found that cysteine deficiency activated the integrated stress response and oxidative stress response, which amplify each other, leading to the induction of GDF15 and FGF21, which partly explained the phenotype7-9. Surprisingly, we observed lower tissue coenzyme A (CoA), which has been considered to be extremely stable10, resulting in reduced mitochondrial functionality and metabolic rewiring. This results in energetically inefficient anaerobic glycolysis and defective TCA cycle, with sustained urinary excretion of pyruvate, orotate, citrate, α-ketoglutarate, nitrogen rich compounds, and amino acids In summary, our investigation reveals that cysteine restriction, by depleting GSH and CoA, exerts a maximal impact on weight loss, metabolism, and stress signaling compared to other amino acid restrictions. These findings suggest novel strategies for addressing a range of metabolic diseases and the growing obesity crisis.

Project description:Forty percent of the US population and 1 in 6 individuals worldwide are obese, with the incidence surging globally1,2. Various dietary interventions, including carbohydrate, fat and more recently amino acid restriction, have been explored to combat this epidemic3-6. We investigated the impact of removing individual amino acids on the weight profiles of mice. Here, we show that conditional cysteine restriction resulted in the most dramatic weight loss when compared to essential amino acid restriction, amounting to 30% within one week, which was readily reversed. We found that cysteine deficiency activated the integrated stress response and oxidative stress response, which amplify each other, leading to the induction of GDF15 and FGF21, which partly explained the phenotype7-9. Surprisingly, we observed lower tissue coenzyme A (CoA), which has been considered to be extremely stable10, resulting in reduced mitochondrial functionality and metabolic rewiring. This results in energetically inefficient anaerobic glycolysis and defective TCA cycle, with sustained urinary excretion of pyruvate, orotate, citrate, α-ketoglutarate, nitrogen rich compounds, and amino acids In summary, our investigation reveals that cysteine restriction, by depleting GSH and CoA, exerts a maximal impact on weight loss, metabolism, and stress signaling compared to other amino acid restrictions. These findings suggest novel strategies for addressing a range of metabolic diseases and the growing obesity crisis.

Project description:Unraveling cysteine deficiency-associated rapid weight loss

Project description:Unraveling cysteine deficiency-associated rapid weight loss [liver]

Project description:Unraveling cysteine deficiency-associated rapid weight loss [adipose]

Project description:Unraveling cysteine deficiency-associated rapid weight loss [muscle]

Project description:Unraveling cysteine deficiency-associated rapid weight loss [liver II]

Project description:Caloric restriction (CR) and methionine restriction driven enhanced lifespan and healthspan induces ‘browning’ of white adipose tissue (WAT), a metabolic response that increases heat production to defend core-body temperature. However, how specific dietary amino acids control adipose thermogenesis is unknown. Here, we identified that weight-loss induced by CR in humans reduces thiol-containing sulfur amino acid cysteine in WAT. Systemic cysteine-depletion in mice causes lethal weight-loss with increased fat utilization and browning of adipocytes that is rescued upon restoration of cysteine in diet. Mechanistically, cysteine restriction induced adipose browning and weight-loss requires sympathetic nervous system derived noradrenaline signaling via β3-adrenergic-receptors that is independent of FGF21 and UCP1. In obese mice, cysteine deprivation induced rapid adipose browning, increased energy expenditure leading to 30% weight-loss and reversed metabolic inflammation. These findings establish that cysteine is essential for organismal metabolism as removal of cysteine in the host triggers adipose browning and rapid weight loss.