Cysteine rich intestinal protein 2 links copper homeostasis to translational regulation in primary myoblasts.
Odette Verdejo-Torres, Teresita Padilla-Benavides
Abstract
Open AccessCopper (Cu) is an essential trace element for cellular metabolism, yet its roles in development are not fully defined. We identified murine cysteine-rich intestinal protein 2 (mCrip2) as a novel Cu-binding protein required for myoblast differentiation. RNA-seq of mCrip2 -deficient cells revealed downregulation of ribosome biogenesis and translation genes. Loss of mCrip2 reduced global protein synthesis by 20-30%, partially mimicking cycloheximide treatment. Interestingly, Cu supplementation restored protein synthesis despite persistent differentiation defects. These findings establish mCrip2 as a Cu-responsive regulator linking metal homeostasis to protein synthesis, suggesting a previously unrecognized connection between Cu availability and translational control in mammalian cells.