Scientists discover the nutrient that can supercharge cellular energy
Mitochondria are often called the power plants of the cell because they generate the energy the body needs to function. These tiny structures constantly adjust their activity depending on how much energy cells require. Scientists have long known that nutrients influence this process, but exactly how cells sense and respond to those nutrients has remained unclear.
Now, researchers at the University of Cologne have uncovered a new mechanism showing how the amino acid leucine can enhance mitochondrial performance. Their findings reveal that leucine helps preserve critical proteins involved in energy production, allowing cells to generate energy more efficiently. The study, led by Professor Dr. Thorsten Hoppe from the Institute for Genetics and the CECAD Cluster of Excellence on Aging Research, was published in Nature Cell Biology under the title "Leucine inhibits degradation of outer mitochondrial membrane proteins to adapt mitochondrial respiration."
How Leucine Supports the Cell's Power Plants
Leucine is an essential amino acid, meaning the body cannot produce it on its own and it must come from food. It is commonly found in protein rich foods including meat, dairy products, beans, and lentils. While leucine is already known for its role in building proteins, the new research uncovered another important function.
The team found that leucine prevents the breakdown of certain proteins located on the outer surface of mitochondria. These proteins help transport important metabolic molecules into the mitochondria so energy production can continue efficiently. By protecting those proteins from being degraded, leucine allows mitochondria to work at a higher level and helps cells meet increased energy demands.
"We were thrilled to discover that a cell's nutrient status, especially its leucine levels, directly impacts energy production," said Dr. Qiaochu Li, first author of the study. "This mechanism enables cells to swiftly adapt to increased energy demands during periods of nutrient abundance."
The Role of SEL1L in Energy Production
The researchers also identified a key protein called SEL1L that helps regulate this process. Under normal conditions, SEL1L acts as part of the cell's quality control system by identifying damaged or misfolded proteins and marking them for destruction.
According to the study, leucine appears to suppress SEL1L activity. As a result, fewer mitochondrial proteins are broken down, which improves mitochondrial efficiency and boosts cellular energy production.
"Modulating leucine and SEL1L levels could be a strategy to boost energy production," Li added. "However, it is important to proceed with caution. SEL1L also plays a crucial role in preventing the accumulation of damaged proteins, which is essential for long-term cellular health."
Potential Links to Cancer and Metabolic Disease
To better understand the broader impact of the discovery, the researchers studied the effects of leucine metabolism in the tiny roundworm Caenorhabditis elegans. They found that problems with leucine breakdown could damage mitochondrial function and even cause fertility issues.
The team also examined human lung cancer cells and discovered that some cancer related mutations affecting leucine metabolism appeared to improve cancer cell survival. The finding suggests that the pathway may play an important role in future cancer research and therapy development.
Overall, the study provides new evidence that nutrients do far more than simply fuel the body. They also actively influence how cells generate and manage energy at the molecular level. By uncovering how leucine regulates mitochondrial activity, the researchers believe their work could eventually help guide new treatments for metabolic disorders, cancer, and other diseases linked to impaired energy production.
The research was supported by Germany's Excellence Strategy through CECAD, several Collaborative Research Centres funded by the German Research Foundation (DFG), the European Research Council Advanced Grant "Cellular Strategies of Protein Quality Control-Degradation" (CellularPQCD), and the Alexander von Humboldt Foundation.
Story Source:
Materials provided by University of Cologne. Note: Content may be edited for style and length.
Journal Reference:
- Qiaochu Li, Konstantin Weiss, Fuateima Niwa, Jan Riemer, Thorsten Hoppe. Leucine inhibits degradation of outer mitochondrial membrane proteins to adapt mitochondrial respiration. Nature Cell Biology, 2025; 27 (11): 1889 DOI: 10.1038/s41556-025-01799-3
Cite This Page:
University of Cologne. "Scientists discover the nutrient that can supercharge cellular energy." ScienceDaily. ScienceDaily, 21 May 2026. <www.sciencedaily.com/releases/2026/05/260520233221.htm>. University of Cologne. (2026, May 21). Scientists discover the nutrient that can supercharge cellular energy. ScienceDaily. Retrieved May 21, 2026 from www.sciencedaily.com/releases/2026/05/260520233221.htm University of Cologne. "Scientists discover the nutrient that can supercharge cellular energy." ScienceDaily. www.sciencedaily.com/releases/2026/05/260520233221.htm (accessed May 21, 2026).Explore More
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