Uptake of Abeta 1-40- and Abeta 1-42-coated yeast by microglial cells: a role for LRP.

Abstract

Artificial diffuse and amyloid core of neuritic plaques [beta-amyloid peptide (Abeta) deposits] could be prepared using heat-killed yeast particles opsonized with Abeta 1-40 or Abeta 1-42 peptides. Interaction and fate of these artificial deposits with microglial cells could be followed using a method of staining that allows discrimination of adherent and internalized, heat-killed yeast particles. Using this system, it was possible to show that nonfibrillar or fibrillar (f)Abeta peptides, formed in solution upon heating (aggregates), could not impair the internalization of heat-killed yeast particles opsonized with fAbeta 1-40 or fAbeta 1-42. This indicated that depending on their physical state, Abeta peptide(s) do not recognize the same receptors and probably do not follow the same internalization pathway. Using competitive ligands of class A scavenger receptors (SR-A) or low-density lipoprotein-related receptor protein (LRP), it has been shown that SR-A were not involved in the recognition of amyloid peptide deposits, whereas LRP specifically recognized deposits of fAbeta 1-42 (but not fAbeta 1-40) and mediated their phagocytosis.