Cory B. Gunner scite author profile

LDL Receptor-related Protein-1 (LRP1/CD91) binds diverse ligands, many of which activate cell-signaling. Herein, we compared three LRP1 ligands that inhibit inflammatory responses triggered by lipopolysaccharide (LPS), including: enzymatically-inactive tissue-type plasminogen activator (EI-tPA); activated α2-macroglobulin (α2M); and S-PrP, a soluble derivative of nonpathogenic cellular prion protein (PrPC). In bone marrow-derived macrophages, the N-methyl-D-aspartate receptor was essential for all three LRP1 ligands to activate cell-signaling and inhibit LPS-induced cytokine expression. Intact lipid rafts also were essential. Only α2M absolutely required LRP1. LRP1 decreased the EI-tPA concentration required to activate cell-signaling and antagonize LPS but was not essential, mimicking its role as a S-PrP co-receptor. Membrane-anchored PrPC also functioned as a co-receptor for EI-tPA and α2M, decreasing the ligand concentration required for cell-signaling and LPS antagonism; however, when the concentration of EI-tPA or α2M was sufficiently increased, cell-signaling and LPS antagonism occurred independently of PrPC. S-PrP is the only LRP1 ligand in this group that activated cell-signaling independently of membrane-anchored PrPC. EI-tPA, α2M, and S-PrP inhibited LPS-induced LRP1 shedding from macrophages, a process that converts LRP1 into a pro-inflammatory product. Differences in the co-receptors required for anti-inflammatory activity may explain why LRP1 ligands vary in ability to target macrophages in different differentiation states.

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An antibody that targets cell‐surface glucose‐regulated protein‐78 inhibits expression of inflammatory cytokines and plasminogen activator inhibitors by macrophages

Gunner

Azmoon

Mantuano

et al. 2023

J of Cellular Biochemistry

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Glucose-regulated protein-78 (Grp78) is an endoplasmic reticulum chaperone, which is secreted by cells and associates with cell surfaces, where it functions as a receptor for activated α 2 -macroglobulin (α 2 M) and tissue-type plasminogen activator (tPA). In macrophages, α 2 M and tPA also bind to the transmembrane receptor, LDL receptor-related protein-1 (LRP1), activating a cell-signaling receptor assembly that includes the NMDA receptor (NMDA-R) to suppress innate immunity. Herein, we demonstrate that an antibody targeting Grp78 (N88) inhibits NFκB activation and expression of proinflammatory cytokines in bone marrow-derived macrophages (BMDMs) treated with the toll-like receptor-4 (TLR4) ligand, lipopolysaccharide, or with agonists that activate TLR2, TLR7, or TLR9. Pharmacologic inhibition of the NMDA-R or deletion of the gene encoding LRP1 (Lrp1) in BMDMs neutralizes the activity of N88. The fibrinolysis protease inhibitor, plasminogen activator inhibitor-1 (PAI1), has been implicated in diverse diseases including metabolic syndrome, cardiovascular disease, and type 2 diabetes. Deletion of Lrp1 independently increased expression of PAI1 and PAI2 in BMDMs, as did treatment of wild-type BMDMs with TLR agonists. tPA, α 2 M, and N88 inhibited expression of PAI1 and PAI2 in BMDMs treated with TLR-activating agents. Inhibiting Src family kinases blocked the ability of both N88 and tPA to function as anti-inflammatory agents, suggesting that the cell-signaling pathway activated by tPA and N88, downstream of LRP1 and the NMDA-R, may be equivalent. We conclude that targeting cell-surface Grp78 may be effective in suppressing innate immunity by a mechanism that requires LRP1 and the NMDA-R.

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An LRP1-binding motif in cellular prion protein replicates cell-signaling activities of the full-length protein

Mantuano¹,

Zampieri²,

Azmoon³

et al. 2023

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Low-density lipoprotein receptor-related protein-1 (LRP1) functions as a receptor for nonpathogenic cellular prion protein (PrP C ), which is released from cells by ADAM ( a d isintegrin a nd m etalloproteinase domain) proteases or in extracellular vesicles. This interaction activates cell signaling and attenuates inflammatory responses. We screened 14-mer PrP C -derived peptides and identified a putative LRP1 recognition motif in the PrP C sequence spanning residues 98–111. A synthetic peptide (P3) corresponding to this region replicated the cell-signaling and biological activities of full-length shed PrP C . P3 blocked LPS-elicited cytokine expression in macrophages and microglia and rescued the heightened sensitivity to LPS in mice in which the PrP C gene ( Prnp ) had been deleted. P3 activated ERK1/2 and induced neurite outgrowth in PC12 cells. The response to P3 required LRP1 and the NMDA receptor and was blocked by the PrP C -specific antibody, POM2. P3 has Lys residues, which are typically necessary for LRP1 binding. Converting Lys 100 and Lys 103 into Ala eliminated the activity of P3, suggesting that these residues are essential in the LRP1-binding motif. A P3 derivative in which Lys 105 and Lys 109 were converted into Ala retained activity. We conclude that the biological activities of shed PrP C , attributed to interaction with LRP1, are retained in synthetic peptides, which may be templates for therapeutics development.

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Cory B. Gunner

The LRP1/CD91 ligands, tissue-type plasminogen activator, α2-macroglobulin, and soluble cellular prion protein have distinct co-receptor requirements for activation of cell-signaling

An antibody that targets cell‐surface glucose‐regulated protein‐78 inhibits expression of inflammatory cytokines and plasminogen activator inhibitors by macrophages

An LRP1-binding motif in cellular prion protein replicates cell-signaling activities of the full-length protein

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