The mucin-selective protease StcE enables molecular and functional analysis of human cancer-associated mucins

Stacy A. Malaker; Kayvon Pedram; Michael J. Ferracane; Barbara A. Bensing; Venkatesh Krishnan; Christian Pett; Jin Yu; Elliot C. Woods; Jessica R. Kramer; Ulrika Westerlind; Oliver Dorigo; Carolyn R. Bertozzi

doi:10.1073/pnas.1813020116

The mucin-selective protease StcE enables molecular and functional analysis of human cancer-associated mucins

Stacy A. Malaker(Stanford University), Kayvon Pedram(Stanford University), Michael J. Ferracane(University of Redlands), Barbara A. Bensing(San Francisco VA Medical Center), Venkatesh Krishnan(Stanford University), Christian Pett(Leibniz Institute for Analytical Sciences - ISAS), Jin Yu(Leibniz Institute for Analytical Sciences - ISAS), Elliot C. Woods(Stanford University), Jessica R. Kramer(University of Utah), Ulrika Westerlind(Leibniz Institute for Analytical Sciences - ISAS), Oliver Dorigo(Stanford University), Carolyn R. Bertozzi(Howard Hughes Medical Institute)

Proceedings of the National Academy of Sciences

March 25, 2019

10.1073/pnas.1813020116

Cited by 289Open Access

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Abstract

, cleaves mucin domains by recognizing a discrete peptide- and glycan-based motif. We exploited StcE's unique properties to improve sequence coverage, glycosite mapping, and glycoform analysis of recombinant human mucins by mass spectrometry. We also found that StcE digests cancer-associated mucins from cultured cells and from ascites fluid derived from patients with ovarian cancer. Finally, using StcE, we discovered that sialic acid-binding Ig-type lectin-7 (Siglec-7), a glycoimmune checkpoint receptor, selectively binds sialomucins as biological ligands, whereas the related receptor Siglec-9 does not. Mucin-selective proteolysis, as exemplified by StcE, is therefore a powerful tool for the study of mucin domain structure and function.

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