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Publication Abstract from PubMed

Presequence protease (PreP), a 117 kDa mitochondrial M16C metalloprotease vital for mitochondrial proteostasis, degrades presequence peptides cleaved off from nuclear-encoded proteins and other aggregation-prone peptides, such as amyloid beta (Abeta). PreP structures have only been determined in a closed conformation; thus, the mechanisms of substrate binding and selectivity remain elusive. Here, we leverage advanced vitrification techniques to overcome the preferential denaturation of one of two ~55 kDa homologous domains of PreP caused by air-water interface adsorption. Thereby, we elucidate cryoEM structures of three apo-PreP open states along with Abeta- and citrate synthase presequence-bound PreP at 3.3-4.6 A resolution. Together with integrative biophysical and pharmacological approaches, these structures reveal the key stages of the PreP catalytic cycle and how the binding of substrates or PreP inhibitor drives a rigid body motion of the protein for substrate binding and catalysis. Together, our studies provide key mechanistic insights into M16C metalloproteases for future therapeutic innovations.

Structural basis for the mechanisms of human presequence protease conformational switch and substrate recognition.,Liang WG, Wijaya J, Wei H, Noble AJ, Mancl JM, Mo S, Lee D, Lin King JV, Pan M, Liu C, Koehler CM, Zhao M, Potter CS, Carragher B, Li S, Tang WJ Nat Commun. 2022 Apr 5;13(1):1833. doi: 10.1038/s41467-022-29322-4. PMID:35383169^[2]

From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine.