A novel subtilase inhibitor in plants shows structural and functional similarities to protease propeptides

The propeptides of subtilisin-like serine proteinases (subtilases, SBTs) serve dual functions as intramolecular chaperones that are required for enzyme folding and as inhibitors of the mature proteases. SBT propeptides are homologous to the I9 family of protease inhibitors that have only been descri...

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Bibliographic Details
Published in:The Journal of biological chemistry 2017-04, Vol.292 (15), p.6389-6401
Main Authors: Hohl, Mathias, Stintzi, Annick, Schaller, Andreas
Format: Article
Language:English
Subjects:
Animals
Arabidopsis - chemistry
Arabidopsis - metabolism
Arabidopsis Proteins - antagonists & inhibitors
Arabidopsis Proteins - chemistry
Arabidopsis Proteins - metabolism
Cattle
intramolecular chaperone
molecular chaperone
plant biochemistry
Plant Biology
prodomain
protease inhibitor
protein processing
Protein Structure, Secondary
proteolysis
serine protease
Serine Proteinase Inhibitors - chemistry
Serine Proteinase Inhibitors - metabolism
subtilase
subtilisin
Subtilisins - antagonists & inhibitors
Subtilisins - chemistry
Subtilisins - metabolism
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Summary:The propeptides of subtilisin-like serine proteinases (subtilases, SBTs) serve dual functions as intramolecular chaperones that are required for enzyme folding and as inhibitors of the mature proteases. SBT propeptides are homologous to the I9 family of protease inhibitors that have only been described in fungi. Here we report the identification and characterization of subtilisin propeptide-like inhibitor 1 (SPI-1) from Arabidopsis thaliana. Sequence similarity and the shared β-α-β-β-α-β core structure identified SPI-1 as a member of the I9 inhibitor family and as the first independent I9 inhibitor in higher eukaryotes. SPI-1 was characterized as a high-affinity, tight-binding inhibitor of Arabidopsis subtilase SBT4.13 with Kd and Ki values in the picomolar range. SPI-1 acted as a stable inhibitor of SBT4.13 over the physiologically relevant range of pH, and its inhibitory profile included many other SBTs from plants but not bovine chymotrypsin or bacterial subtilisin A. Upon binding to SBT4.13, the C-terminal extension of SPI-1 was proteolytically cleaved. The last four amino acids at the newly formed C terminus of SPI-1 matched both the cleavage specificity of SBT4.13 and the consensus sequence of Arabidopsis SBTs at the junction of the propeptide with the catalytic domain. The data suggest that the C terminus of SPI-1 acts as a competitive inhibitor of target proteases as it remains bound to the active site in a product-like manner. SPI-1 thus resembles SBT propeptides with respect to its mode of protease inhibition. However, in contrast to SBT propeptides, SPI-1 could not substitute as a folding assistant for SBT4.13.
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.M117.775445