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Identification of amino acid residues in the MT-loop of MT1-MMP critical for its ability to cleave low-density lipoprotein receptor

Maggie Wang, Adekunle Alabi, Hongmei Gu, Govind Gill, Ziyang Zhang, Suha Jarad, Xiaodan Xia, Yishi Shen, Guiqing Wang, Dawei Zhang

2022Frontiers in Cardiovascular Medicine12 citationsDOIOpen Access PDF

Abstract

Low-density lipoprotein receptor (LDLR) mediates clearance of plasma LDL cholesterol, preventing the development of atherosclerosis. We previously demonstrated that membrane type 1-matrix metalloproteinase (MT1-MMP) cleaves LDLR and exacerbates the development of atherosclerosis. Here, we investigated determinants in LDLR and MT1-MMP that were critical for MT1-MMP-induced LDLR cleavage. We observed that deletion of various functional domains in LDLR or removal of each of the five predicted cleavage sites of MT1-MMP on LDLR did not affect MT1-MMP-induced cleavage of the receptor. Removal of the hemopexin domain or the C-terminal cytoplasmic tail of MT1-MMP also did not impair its ability to cleave LDLR. On the other hand, mutant MT1-MMP, in which the catalytic domain or the MT-loop was deleted, could not cleave LDLR. Further Ala-scanning analysis revealed an important role for Ile at position 167 of the MT-loop in MT1-MMP's action on LDLR. Replacement of Ile167 with Ala, Thr, Glu, or Lys resulted in a marked loss of the ability to cleave LDLR, whereas mutation of Ile167 to a non-polar amino acid residue, including Leu, Val, Met, and Phe, had no effect. Therefore, our studies indicate that MT1-MMP does not require a specific cleavage site on LDLR. In contrast, an amino acid residue with a hydrophobic side chain at position 167 in the MT-loop is critical for MT1-MMP-induced LDLR cleavage.

Topics & Concepts

LDL receptorCleaveCleavage (geology)ReceptorMutantHemopexinChemistryLow-density lipoproteinMatrix metalloproteinaseBiochemistryBiologyLipoproteinCholesterolEnzymeGenePaleontologyFracture (geology)HemeProtease and Inhibitor MechanismsBlood Coagulation and Thrombosis MechanismsPeptidase Inhibition and Analysis