Loop replacement design : a new way to improve potency of plant cystatins

Abstract

Plant cystatins function as competitive inhibitors of cysteine proteases. Similar to other defence proteins, cystatins include hypervariable, positively selected amino acid sites presumably impacting their biological activity. Protein engineering approaches, such as point mutations, at these functionally relevant amino acid sites have already been found to be a powerful tool in improving the inhibitory properties of cystatins. Such engineered cystatins not only better protect against digestive proteases of herbivorous arthropods but also against cysteine proteases of several other plant pests as well as against cysteine proteases produced in plant during stress-induced senescence. Despite previous engineering successes, an urgent need still exists to further improve both plant cystatin potency and specificity. Tremblay and colleagues propose in this issue a new cystatin engineering strategy to substitute the function-related structural elements (SEs) of a cystatin by the corresponding elements of an alternative cystatin. This strategy, possibly combined with direct cystatin gene editing in a target plant, might provide an innovative way to control cysteine protease activity.