4G) Whereas no effect on the phagocytosis of E coli was observe

4G). Whereas no effect on the phagocytosis of E. coli was observed with the Aβ(1-x) isoforms, the phagocytosis of E. coli was strongly and exclusively enhanced by N-terminally GDC-0980 cell line truncated Aβ(2–42). A tendency to induce phagocytosis was also observed for Aβ(3p–42). This

finding confirms that N-terminally truncated Aβ(x–42) also induces phagocytosis when bound to E. coli. As previously observed during the phagocytosis of PSPs, the opsonizing effect of Aβ(3p–42) was less pronounced in THP-macrophages than in primary human phagocytes. As differentiation and polarization have a great impact on the phagocytic activity of macrophages, primary human monocyte-derived GM-CSF- and M-CSF-elicited macrophages were compared. The differentiation and polarization of monocytes by GM-CSF and

M-CSF were confirmed by phase contrast microscopy, iNOS immunofluorescence, flow cytometry MK-2206 molecular weight and ELISA (Fig. 4A). GM-CSF-derived macrophages displayed higher expression of iNOS and CD206. The expression of MSRI, HLA-DR and CD14 was higher in M-CSF-elicited macrophages (Fig. 4B). Furthermore, the secretion of TNFα tended to be higher in GM-CSF-derived macrophages, whereas that of IL-10 was higher in M-CSF-derived macrophages (Fig. 4C). Therefore, GM-CSF-elicited macrophages shared several, but not all, of the features of M1 macrophages, whereas M-CSF-derived macrophages rather resembled M2 macrophages. Again, Aβ-peptides terminating at amino acid position 40 did not increase the uptake of AF488-labeled ADAM7 E. coli. Pre-incubation with n-truncated Aβ(x–42) increased the uptake of E. coli most effectively, independent of macrophage polarization. In GM-CSF-derived macrophages, coating with Aβ(1–42), Aβ(2–42) and Aβ(3p–42) resulted in 55–70% increases in the uptake of E. coli (p < 0.01). Most interestingly, Aβx–42 induced phagocytosis even more effectively than a commercial opsonizing (OpsR) reagent intended to facilitate the phagocytosis of E. coli ( Fig. 4D). Aβ5–42 also induced

the phagocytosis of pHrhodo Green-labeled E. coli. However, this effect was weaker than that with Aβ1–42 ( Fig. 4F). Although a coating concentration of 1 mg/mL was chosen for the comparison of the Aβ peptide variants, a dose response analysis with Aβ1–42 revealed 500 μg/mL to be the least effective coating concentration when applied in our paradigm ( Supplementary Fig. 1). In the M-CSF-derived macrophages, similar effects were obvious (Fig. 4E). N-terminally truncated Aβ(3p–42) stimulated the uptake of E. coli most efficiently. The MFI values increased by 67% (p < 0.0001). This effect was only slightly stronger after coating the E. coli with the opsonizing reagent (OpsR). Aβ(1–42) was again more effective than Aβ(1–40), which did not influence phagocytic activity (p < 0.0001). The good correlation of fluorescent signal intensities between cultures with and without cytochalasin D (r = 0.78 for GM-CSF- and r = 0.74 for M-CSF-elicited macrophages, both p < 0.

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