Abstract
Chromium(III) is extensively used as a supplement for muscle development and the treatment of diabetes mellitus. However, its mode of action, essentiality, and physiological/pharmacological effects have been a subject of scientific debate for over half a century owing to the failure in identifying the molecular targets of Cr(III). Herein, by integrating fluorescence imaging with a proteomic approach, we visualized the Cr(III) proteome being mainly localized in the mitochondria, and subsequently identified and validated eight Cr(III)-binding proteins, which are predominately associated with ATP synthesis. We show that Cr(III) binds to ATP synthase at its beta subunit via the catalytic residues of Thr213/Glu242 and the nucleotide in the active site. Such a binding suppresses ATP synthase activity, leading to the activation of AMPK, improving glucose metabolism, and rescuing mitochondria from hyperglycaemia-induced fragmentation. The mode of action of Cr(III) in cells also holds true in type II diabetic male mice. Through this study, we resolve the long-standing question of how Cr(III) ameliorates hyperglycaemia stress at the molecular level, opening a new horizon for further exploration of the pharmacological effects of Cr(III). © The Author(s) 2023.
| Original language | English |
|---|---|
| Article number | 1738 |
| Journal | Nature Communications |
| Volume | 14 |
| Online published | 28 Mar 2023 |
| DOIs | |
| Publication status | Published - 2023 |
Funding
We acknowledge the assistance of Li Ka Shing Faculty of Medicine Faculty Core Facility (HKU), the Norman & Cecilia Yip Foundation of the University of Hong Kong, and financial supported by the Research Grants Council of Hong Kong (17307017 and 2122-7S04) to H.S., and National Science Foundation of China (22193052) to L.H.
Publisher's Copyright Statement
- This full text is made available under CC-BY 4.0. https://creativecommons.org/licenses/by/4.0/
RGC Funding Information
- RGC-funded
