8VJW
Structure of Human Neurolysin in complex with angiotensin I peptide
Summary for 8VJW
Entry DOI | 10.2210/pdb8vjw/pdb |
Descriptor | Neurolysin, mitochondrial, Angiotensin-1 peptide N-terminal end, Angiotensin-1 peptide C-terminal end, ... (5 entities in total) |
Functional Keywords | metallopeptidase, bioactive peptides, hydrolase |
Biological source | Homo sapiens (human) More |
Total number of polymer chains | 6 |
Total formula weight | 155990.92 |
Authors | Shi, K.,Aihara, H. (deposition date: 2024-01-08, release date: 2024-08-21, Last modification date: 2024-09-25) |
Primary citation | Shi, K.,Bagchi, S.,Bickel, J.,Esfahani, S.H.,Yin, L.,Cheng, T.,Karamyan, V.T.,Aihara, H. Structural basis of divergent substrate recognition and inhibition of human neurolysin. Sci Rep, 14:18420-18420, 2024 Cited by PubMed Abstract: A zinc metallopeptidase neurolysin (Nln) processes diverse bioactive peptides to regulate signaling in the mammalian nervous system. To understand how Nln interacts with various peptides with dissimilar sequences, we determined crystal structures of Nln in complex with diverse peptides including dynorphins, angiotensin, neurotensin, and bradykinin. The structures show that Nln binds these peptides in a large dumbbell-shaped interior cavity constricted at the active site, making minimal structural changes to accommodate different peptide sequences. The structures also show that Nln readily binds similar peptides with distinct registers, which can determine whether the peptide serves as a substrate or a competitive inhibitor. We analyzed the activities and binding of Nln toward various forms of dynorphin A peptides, which highlights the promiscuous nature of peptide binding and shows how dynorphin A (1-13) potently inhibits the Nln activity while dynorphin A (1-8) is efficiently cleaved. Our work provides insights into the broad substrate specificity of Nln and may aid in the future design of small molecule modulators for Nln. PubMed: 39117724DOI: 10.1038/s41598-024-67639-w PDB entries with the same primary citation |
Experimental method | X-RAY DIFFRACTION (2.491 Å) |
Structure validation
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