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Monocyte uptake of polymeric peptidoglycan is bimodal and governed by complement C3 and C4 opsonins
Narcis I. Popescu, Jędrzej Kluza, Megan A. Reidy, Elizabeth Duggan, John D. Lambris, Linda F. Thompson, K. Mark Coggeshall
Narcis I. Popescu, Jędrzej Kluza, Megan A. Reidy, Elizabeth Duggan, John D. Lambris, Linda F. Thompson, K. Mark Coggeshall
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Research Article Immunology Infectious disease

Monocyte uptake of polymeric peptidoglycan is bimodal and governed by complement C3 and C4 opsonins

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Abstract

Peptidoglycans (PGNs) are structural polymers of the bacterial cell wall and a common microbial molecular pattern encountered by the immune system daily. Low levels of PGNs are constitutively present in the systemic circulation in humans and rise during inflammatory pathologies. Since all known PGN sensors are intracellular, PGN internalization is a prerequisite for the initiation of cellular immune responses. Here, we report the mechanisms controlling the recognition and uptake of polymeric PGNs by circulating human mononuclear phagocytes. We found that complement C3 and C4 opsonins govern PGN recognition and internalization, but no single opsonin is indispensable because of multiple uptake redundancies. We observed a bimodal internalization of polymeric PGNs with distinct requirements for complement C4. At low PGN concentrations, C3 mediated PGN recognition by surface receptors while the efficient internalization of PGN polymers critically required C4. Supraphysiologic PGN concentrations triggered a secondary uptake modality that was insensitive to C4 and mediated instead by C3 engagement of complement receptors 1 and 3. To our knowledge, this is the first description of nonoverlapping C3 and C4 opsonophagocytoses working in parallel. Controlling these uptake mechanisms has the potential to modulate PGN clearance or the dysregulated immune responses during bacterial infections.

Authors

Narcis I. Popescu, Jędrzej Kluza, Megan A. Reidy, Elizabeth Duggan, John D. Lambris, Linda F. Thompson, K. Mark Coggeshall

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Figure 2

Optimal PGN uptake requires opsonization by complement C3.

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Optimal PGN uptake requires opsonization by complement C3.
PGN-FITC part...
PGN-FITC particles were preopsonized with either pooled NHS or sera depleted of specific complement factors before incubation with PBMCs. Changes in the frequencies of PGN+ monocytes or monocyte PGN-FITC intensities are depicted before (A and B) or after pairwise normalization to uptake of NHS-opsonized PGN (C and D). (A and B) Individual (circles, n = 15) and predicted distribution of biological responses (half-violin plots) are depicted, and significant deviations from uptake of NHS-opsonized PGN, assessed by RM 1-way ANOVA with Holm-Šídák correction, are color-embedded according to the legend. (C and D) Normalized individual and mean ± SD (bars and whiskers) changes due to depletions of complement factors are shown, with potential outliers highlighted in red. Deviations from 0, denoting statistically significant effects associated with complement depletions, were assessed by Wilcoxon’s signed-rank test and color-coded according to the legend. Additional pairwise comparisons between groups were assessed by paired 2-tailed t tests and highlighted graphically. (E and F) PGN-FITC was preopsonized with NHS or sera depleted of specific complement factors in the absence (– CP40) or presence (+ CP40) of 20 μM CP40, an inhibitor of C3 convertases, before incubation with PBMCs. Data depict individual (n = 6) and group averages ± SD (bars and whiskers) for the frequencies of PGN+ monocytes (E) and the intensities of monocyte PGN-FITC (F, log-transformed FITC gMFI). Differences between groups were analyzed by RM 2-way ANOVA with Holm-Šídák correction for multiple comparisons and depicted graphically (**P < 0.01; ¶P < 0.001; and ¶¶P < 0.0001). -dpl, depleted.

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