Blood Advances (Jan 2017)

The class I scavenger receptor CD163 promotes internalization of ADAMTS13 by macrophages

  • Fabian C. Verbij,
  • Nicoletta Sorvillo,
  • Paul H.P. Kaijen,
  • Johana Hrdinova,
  • Ivan Peyron,
  • Rob Fijnheer,
  • Anja ten Brinke,
  • Alexander B. Meijer,
  • Floris P.J. van Alphen,
  • Timo K. van den Berg,
  • Jonas J.H. Graversen,
  • Soren K. Moestrup,
  • Jan Voorberg

Journal volume & issue
Vol. 1, no. 5
pp. 293 – 305

Abstract

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Abstract: Internalization of ADAMTS13 by macrophages may contribute to its clearance from the circulation. Here we investigated endocytic mechanisms that contribute to the uptake of ADAMTS13 by macrophages. Human monocyte-derived macrophages were used to monitor the uptake of fluorescently labeled recombinant ADAMTS13 by flow cytometry. Internalization of ADAMTS13 was blocked upon addition of the cell-permeable dynamin inhibitor dynasore. Partial blocking of ADAMTS13 uptake was observed by using mannan; however, uptake was not affected by an antibody that blocked binding to the macrophage mannose receptor CD206, which suggests that other endocytic receptors contribute to the internalization of ADAMTS13 by macrophages. A pull-down with ADAMTS13 and subsequent mass spectrometric analysis identified the class I scavenger receptor CD163 as a candidate receptor for ADAMTS13. Blocking experiments with monoclonal anti-CD163 antibody EDHu-1 resulted in decreased ADAMTS13 internalization by macrophages. Pronounced inhibition of ADAMTS13 uptake by EDHu-1 was observed in CD163 high-expressing macrophages. In agreement with these findings, CD163-expressing Chinese hamster ovary cells were capable of rapidly internalizing ADAMTS13. Surface plasmon resonance revealed binding of ADAMTS13 to scavenger receptor cysteine-rich domains 1-9 and 1-5 of CD163. Taken together, our data identify CD163 as a major endocytic receptor for ADAMTS13 on macrophages.