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6HF1

Mutant oxidoreductase fragment of mouse QSOX1 in complex with an antibody Fab

Summary for 6HF1
Entry DOI10.2210/pdb6hf1/pdb
Related5D93
DescriptorSulfhydryl oxidase 1, Fab 316 heavy chain, Fab 316 light chain, ... (5 entities in total)
Functional Keywordsdisulfide bond, cis-proline, thioredoxin, oxidoreductase
Biological sourceMus musculus (House Mouse)
More
Total number of polymer chains6
Total formula weight145175.35
Authors
Grossman-Haham, I.,Fass, D. (deposition date: 2018-08-21, release date: 2019-04-03, Last modification date: 2024-01-17)
Primary citationJavitt, G.,Grossman-Haham, I.,Alon, A.,Resnick, E.,Mutsafi, Y.,Ilani, T.,Fass, D.
cis-Proline mutants of quiescin sulfhydryl oxidase 1 with altered redox properties undermine extracellular matrix integrity and cell adhesion in fibroblast cultures.
Protein Sci., 28:228-238, 2019
Cited by
PubMed Abstract: The thioredoxin superfamily has expanded and diverged extensively throughout evolution such that distant members no longer show appreciable sequence homology. Nevertheless, redox-active thioredoxin-fold proteins functioning in diverse physiological contexts often share canonical amino acids near the active-site (di-)cysteine motif. Quiescin sulfhydryl oxidase 1 (QSOX1), a catalyst of disulfide bond formation secreted by fibroblasts, is a multi-domain thioredoxin superfamily enzyme with certain similarities to the protein disulfide isomerase (PDI) enzymes. Among other potential functions, QSOX1 supports extracellular matrix assembly in fibroblast cultures. We introduced mutations at a cis-proline in QSOX1 that is conserved across the thioredoxin superfamily and was previously observed to modulate redox interactions of the bacterial enzyme DsbA. The resulting QSOX1 variants showed a striking detrimental effect when added exogenously to fibroblasts: they severely disrupted the extracellular matrix and cell adhesion, even in the presence of naturally secreted, wild-type QSOX1. The specificity of this phenomenon for particular QSOX1 mutants inspired an investigation of the effects of mutation on catalytic and redox properties. For a series of QSOX1 mutants, the detrimental effect correlated with the redox potential of the first redox-active site, and an X-ray crystal structure of one of the mutants revealed the reorganization of the cis-proline loop caused by the mutations. Due to the conservation of the mutated residues across the PDI family and beyond, insights obtained in this study may be broadly applicable to a variety of physiologically important redox-active enzymes. IMPACT STATEMENT: We show that mutation of a conserved cis-proline amino acid, analogous to a mutation used to trap substrates of a bacterial disulfide catalyst, has a dramatic effect on the physiological function of the mammalian disulfide catalyst QSOX1. As the active-site region of QSOX1 is shared with the large family of protein disulfide isomerases in humans, the effects of such mutations on redox properties, enzymatic activity, and biological targeting may be relevant across the family.
PubMed: 30367560
DOI: 10.1002/pro.3537
PDB entries with the same primary citation
Experimental method
X-RAY DIFFRACTION (1.94 Å)
Structure validation

226707

数据于2024-10-30公开中

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