Newfound Mechanism Rewires Cellular Energy Processing for Drastic Weight Loss
Beyond Ozempic: Research Outlines Pathways for Future Obesity Solutions
Published online
Led by researchers at NYU Grossman School of Medicine, the study reveals key details about how cells process fuels like carbohydrates and fats (metabolism), and how cysteine depletion affects tissues. Experiments showed that lowering cysteine levels caused a drop in levels of the small molecule called coenzyme A (CoA), which rendered inefficient mechanisms that convert carbohydrates and fats into energy.
Despite CoA being involved in more than 100 intermediate metabolic reactions and serving as a partner (cofactor) for 4% of all enzymes in the body, scientists had previously been unable to study its function directly. This is because mice with defective CoA synthesis typically do not survive beyond three weeks of age. The current findings detail, for the first time, how CoA shapes metabolism in adult mice.
"Our surprising findings reveal that low cysteine levels triggered rapid fat loss in our study mice by activating a network of interconnected biological pathways," said co-senior study author
The current finding does not immediately suggest a new approach to weight loss, the authors caution, as cysteine is found in nearly all foods. Achieving a truly cysteine-free diet would require patients to consume a specially formulated solution that would be challenging for most. Moreover, because cysteine is involved in numerous cellular pathways, eliminating it – such as through a drug that inhibits cysteine production – could make organs more vulnerable to everyday toxins, including medications.
That said, the study authors say it is worth considering that fruits, vegetables, and legumes contain much lower levels of cysteine and its precursor, the sulfur-containing amino acid methionine, than red meat. While earlier studies have linked low sulfur amino acid intake to health benefits, this study clarifies that these benefits are due to cysteine depletion specifically, and not methionine restriction.
"Given that achieving maximum cysteine deprivation weight loss in the mice was dependent on both diet and deletion of the gene, moving forward we can now restore cysteine production genetically in specific cells or tissues and determine the role of each in the dramatic weight loss we observed," said co-senior author Dan L. Littman, MD, PhD, the Helen L. and
Overlapping Mechanisms
The study is the first to examine the effects of removing cysteine, or any of the nine of the essential amino acids, which must be obtained through diet and are required for building proteins that make up most of the body's enzymes, tissues, and signaling molecules. The findings revealed that eliminating cysteine from the mammalian body led to far greater weight loss than the removal of any other essential amino acid.
Specifically, cysteine deprivation disrupted oxidative phosphorylation, the main process for producing adenosine triphosphate (ATP), the molecule that serves as cells' energy currency. Oxidative phosphorylation is known to be tightly dependent on CoA. As a result, sugar-derived intermediate molecules (carbon skeletons) such as pyruvate, orotate, citrate, and α-ketoglutarate were no longer used efficiently, and were instead lost in the urine. In response, the body turned to stored lipids (fats) to make energy.
Further, the team found that cysteine restriction activates both the integrated stress response (ISR), a signaling network that restores cellular balance after stress, and the oxidative stress response (OSR), which is triggered by higher levels of reactive oxygen species (ROS) following depletion of glutathione, the body's primary antioxidant. ROS can oxidize (take away electrons from) and damage sensitive cell parts like DNA.
Remarkably, this simultaneous activation of ISR and OSR—previously observed only in cancer cells—was shown to occur in normal tissues in mice in the cysteine-restriction group, with the two stress responses reinforcing each other. The study also shows that ISR and OSR, acting independently of CoA depletion, increase production of the stress hormone GDF15, which contributes to food aversion and degradation of acetyl-CoA-carboxylase, a key enzyme in lipid synthesis. This increased weight loss further in the study mice by preventing the replenishment of their fat stores.
Along with Drs.
The study was supported by the long-term funding from the Howard Hughes Medical Institute (HHMI) and the Blavatnik Family Foundation. Additional support was provided by the National Institutes of Health grants S10OD010584-01A1, S10OD018338-01, 1OT2CA278609-01, R35GM147119, and R01AI158687. The research was also funded by the American Cancer Society (grant RSG-21-115-01-MM), the Natural Sciences and Engineering Research Council of Canada (grant RGPIN-2023-05099), and Cancer Research UK (grant CGCATF-2021/100022).
About Howard Hughes Medical Institute (HHMI)
HHMI is one of the largest private funders of biomedical research, with an endowment exceeding
About the Blavatnik Family Foundation
The Blavatnik Family Foundation provides many of the world's best researchers, scientists, and future leaders with the support and funding needed to solve humankind's greatest challenges. Led by Sir
About NYU Langone Health
NYU Langone Health is a fully integrated health system that consistently achieves the best patient outcomes through a rigorous focus on quality that has resulted in some of the lowest mortality rates in the nation. Vizient Inc. has ranked NYU Langone the No. 1 comprehensive academic medical center in the country for three years in a row, and U.S. News & World Report recently placed nine of its clinical specialties among the top five in the nation. NYU Langone offers a comprehensive range of medical services with one high standard of care across 7 inpatient locations, its Perlmutter Cancer Center, and more than 320 outpatient locations in the
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SOURCE NYU Langone Health System
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