Identification of intracellular glycosaminoglycan-interacting proteins by affinity purification mass spectrometry
Author:
Großkopf Henning1ORCID, Vogel Sarah2, Müller Claudia Damaris2ORCID, Köhling Sebastian3, Dürig Jan-Niklas3, Möller Stephanie4, Schnabelrauch Matthias4, Rademann Jörg3ORCID, Hempel Ute2, von Bergen Martin15, Schubert Kristin1
Affiliation:
1. Department of Molecular Systems Biology , Helmholtz Centre for Environmental Research GmbH - UFZ , Leipzig D-04318 , Germany 2. Institute of Physiological Chemistry, Medical Faculty , Technische Universität Dresden , Dresden D-01307 , Germany 3. Institute of Pharmacy , Freie Universität Berlin , Berlin D-14195 , Germany 4. Biomaterials Department , INNOVENT e.V. Technologieentwicklung Jena , Jena D-07745 , Germany 5. Institute of Biochemistry, Faculty of Life Sciences , Universität Leipzig , Leipzig D-04103 , Germany
Abstract
Abstract
Glycosaminoglycans (GAGs) are essential functional components of the extracellular matrix (ECM). Artificial GAGs like sulfated hyaluronan (sHA) exhibit pro-osteogenic properties and boost healing processes. Hence, they are of high interest for supporting bone regeneration and wound healing. Although sulfated GAGs (sGAGs) appear intracellularly, the knowledge about intracellular effects and putative interaction partners is scarce. Here we used an affinity-purification mass spectrometry-based (AP-MS) approach to identify novel and particularly intracellular sGAG-interacting proteins in human bone marrow stromal cells (hBMSC). Overall, 477 proteins were found interacting with at least one of four distinct sGAGs. Enrichment analysis for protein localization showed that mainly intracellular and cell-associated interacting proteins were identified. The interaction of sGAG with α2-macroglobulin receptor-associated protein (LRPAP1), exportin-1 (XPO1), and serine protease HTRA1 (HTRA1) was confirmed in reverse assays. Consecutive pathway and cluster analysis led to the identification of biological processes, namely processes involving binding and processing of nucleic acids, LRP1-dependent endocytosis, and exosome formation. Respecting the preferentially intracellular localization of sGAG in vesicle-like structures, also the interaction data indicate sGAG-specific modulation of vesicle-based transport processes. By identifying many sGAG-specific interacting proteins, our data provide a resource for upcoming studies aimed at molecular mechanisms and understanding of sGAG cellular effects.
Publisher
Walter de Gruyter GmbH
Subject
Clinical Biochemistry,Molecular Biology,Biochemistry
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