Mutations in specific MT5-MMP domains prevent the accumulation of toxic APP metabolites and serve as templates for peptide-based therapeutics in cell models of Alzheimer’s disease

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Abstract

In previous works we identified a key role for membrane-type 5-matrix metalloproteinase (MT5-MMP) in Alzheimer’s disease (AD) pathogenesis. We demonstrated the involvement of the C-terminal transmembrane (TM) and intracellular (IC) domains of the proteinase in the fate of major toxic metabolites of the amyloid precursor protein (APP) ( e.g., C99, Aβ). These findings led us to hypothesize that modifying MT5-MMP C-terminal domains could serve as an effective strategy to modulate C99 and Aβ. To test this, here we generated MT5-MMP variants carrying amino acid deletions or substitutions in entire proteinase domains or in selected amino acid clusters in the IC domain. MT5-MMP variants were co-transfected into human cell lines accumulating C99, reminiscent of an AD setting. We identified mutations in the IC domain that induce C99 degradation and a decrease in Aβ levels, while other mutations have divergent effects on these APP metabolites. Furthermore, high content imaging revealed the importance of MT5-MMP IC modifications in regulating subcellular trafficking of C99 through the endomembrane system and its consequences for C99 processing. Proximity ligation assays also highlighted the importance of the IC domain in MT5-MMP colocalization and potential interaction with C99. In a translational effort, we synthetized and functionalized peptides that mimic the MT5-MMP IC domain and carry mutations that reduce C99 and/or Aβ levels. One of these peptides reduced C99 levels in an in vitro AD model. Overall, our study highlights the role of selected amino acids in the C-terminal domains of MT5-MMP as the basis for a better understanding of the proteinase’s contribution to C99 and Aβ metabolism. Furthermore, this study provides new insights for designing MT5-MMP-based strategies against AD, exploiting the unique properties of specific mutations in MT5-MMP domains to prevent the accumulation of C99 and Aβ.

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