What question did this study set out to answer?

The study aims to elucidate the structural and functional roles of enteropeptidase in trypsinogen activation.

March 18, 2026

Structural insight into the CUB2 domain’s role in enteropeptidase-mediated trypsinogen activation

Key Points

The study aims to elucidate the structural and functional roles of enteropeptidase in trypsinogen activation.
Utilized cryo-electron microscopy (cryo-EM) to analyze the structure of enteropeptidase.
Conducted enzymatic assays to measure the proteolytic activity of enteropeptidase.
Identified key structural components, including binding loops and significant residues.
The mutation E574A increased the proteolytic activity of enteropeptidase.
The mutation N619A decreased the cleavage efficiency.
Findings highlight the importance of surface-charged interactions in regulating enteropeptidase activity.

Abstract

Elucidating the structure and function of enteropeptidase (EP) is essential for advancing our understanding of its biological significance, particularly in regulating trypsinogen activation. Using cryo-EM and enzymatic activity, we uncovered the significance of the CUB2 domain in mediating the cleavage of macromolecular substrates. We identified crucial binding loops and key residues for EP’s proteolytic function. The mutation E574A enhanced the proteolytic activity of EP, whereas the mutation N619A diminished its cleavage efficiency, highlighting the importance of surface-charged interactions in modulating EP’s activity. A proteolytic cycle was proposed to deepen our understanding of the trypsinogen activation by EP. This work offers valuable insights into the molecular mechanisms underlying EP’s interaction with its substrate, and opens up avenues for therapeutically modulating EP-mediated proteolysis.

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Structural insight into the CUB2 domain’s role in enteropeptidase-mediated trypsinogen activation

Key Points

Abstract

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