Surface Calreticulin Mediates Muramyl Dipeptide-induced Apoptosis in RK sub(13) Cells

Calreticulin (CRT) is a binding protein for apoptotic N-acetylmuramyl-L-alanyl-D-isoglutamine (L,D-MDP) or peptidoglycan in RK sub(13) cells. CRT on RK sub(13) cell surface (srCRT) forms complex(es) with tumor necrosis factor receptor 1 (TNFR1) and TNFR-associated death domain (TRADD) protein of the...

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Veröffentlicht in:	The Journal of biological chemistry 2005-06, Vol.280 (23), p.22425-22436
Hauptverfasser:	Chen, Dequan, Texada, Donald E, Duggan, Chris, Liang, Chanping, Reden, Thomas B, Kooragayala, Lakshmana M, Langford, Marlyn P
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creator	Chen, Dequan Texada, Donald E Duggan, Chris Liang, Chanping Reden, Thomas B Kooragayala, Lakshmana M Langford, Marlyn P
description	Calreticulin (CRT) is a binding protein for apoptotic N-acetylmuramyl-L-alanyl-D-isoglutamine (L,D-MDP) or peptidoglycan in RK sub(13) cells. CRT on RK sub(13) cell surface (srCRT) forms complex(es) with tumor necrosis factor receptor 1 (TNFR1) and TNFR-associated death domain (TRADD) protein of the cell membrane. CRT polyclonal or monoclonal antibody binding to RK sub(13) srCRT dose-dependently inhibited L,D-MDP-induced apoptosis. In RK sub(13) cells, L,D-MDP up-regulated the TNFR1.TRADD complex of the plasma membrane and subsequently induced cytosolic TRADD-Fas-associated death domain protein complex. Biotinylated srCRT was capable of calcium-dependent binding of Sepharose-immobilized L,D-MDP or peptidoglycan. However, Toll-like receptors TLR-2 and TLR-4, Nod2, and CD14 of RK sub(13) cells did not specifically bind Sepharose-immobilized L,D-MDP. High concentrations (5-40 mM) of EGTA dose-dependently inhibited free L,D-MDP binding to purified RK sub(13) cell CRT and promoted free L,D-MDP dissociation from RK sub(13) cell CRT.MDP complex. Different concentrations of EGTA (0-40 mM) added to Dulbecco's modified essential medium with 1.8 mM calcium or phosphate-buffered saline with 0.18 mM calcium have different effects on medium free calcium concentrations but have identical inhibiting effects on L,D-MDP-induced apoptosis. More inhibition of the L,D-MDP-induced apoptotic DNA ladders and caspase-3 activity in RK sub(13) cells was obtained with EGTA pretreatment (83%) than just EGTA + L,D-MDP (47%). The knocking down of srCRT by antisense oligonucleotide CRTAS121 (250 nmol/ml) and stealth small interfering RNA CRT_siR479 (150 pM/ml) for 2 days (44 and 66%, respectively), resulted in the inhibition of L,D-MDP-induced caspase-3 activity (47 and 65%, respectively). The results suggest that (a) the binding of L,D-MDP to srCRT is calcium-dependent, i.e. on srCRT-bound calcium, and (b) it is srCRT, not TLR-2, TLR-4, Nod2 or CD14, that mediates L,D-MDP-induced RK sub(13) cell apoptosis through activating the TNFR1. TRADD-Fas-associated death domain protein apoptotic pathway.
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CRT on RK sub(13) cell surface (srCRT) forms complex(es) with tumor necrosis factor receptor 1 (TNFR1) and TNFR-associated death domain (TRADD) protein of the cell membrane. CRT polyclonal or monoclonal antibody binding to RK sub(13) srCRT dose-dependently inhibited L,D-MDP-induced apoptosis. In RK sub(13) cells, L,D-MDP up-regulated the TNFR1.TRADD complex of the plasma membrane and subsequently induced cytosolic TRADD-Fas-associated death domain protein complex. Biotinylated srCRT was capable of calcium-dependent binding of Sepharose-immobilized L,D-MDP or peptidoglycan. However, Toll-like receptors TLR-2 and TLR-4, Nod2, and CD14 of RK sub(13) cells did not specifically bind Sepharose-immobilized L,D-MDP. High concentrations (5-40 mM) of EGTA dose-dependently inhibited free L,D-MDP binding to purified RK sub(13) cell CRT and promoted free L,D-MDP dissociation from RK sub(13) cell CRT.MDP complex. Different concentrations of EGTA (0-40 mM) added to Dulbecco's modified essential medium with 1.8 mM calcium or phosphate-buffered saline with 0.18 mM calcium have different effects on medium free calcium concentrations but have identical inhibiting effects on L,D-MDP-induced apoptosis. More inhibition of the L,D-MDP-induced apoptotic DNA ladders and caspase-3 activity in RK sub(13) cells was obtained with EGTA pretreatment (83%) than just EGTA + L,D-MDP (47%). The knocking down of srCRT by antisense oligonucleotide CRTAS121 (250 nmol/ml) and stealth small interfering RNA CRT_siR479 (150 pM/ml) for 2 days (44 and 66%, respectively), resulted in the inhibition of L,D-MDP-induced caspase-3 activity (47 and 65%, respectively). The results suggest that (a) the binding of L,D-MDP to srCRT is calcium-dependent, i.e. on srCRT-bound calcium, and (b) it is srCRT, not TLR-2, TLR-4, Nod2 or CD14, that mediates L,D-MDP-induced RK sub(13) cell apoptosis through activating the TNFR1. 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CRT on RK sub(13) cell surface (srCRT) forms complex(es) with tumor necrosis factor receptor 1 (TNFR1) and TNFR-associated death domain (TRADD) protein of the cell membrane. CRT polyclonal or monoclonal antibody binding to RK sub(13) srCRT dose-dependently inhibited L,D-MDP-induced apoptosis. In RK sub(13) cells, L,D-MDP up-regulated the TNFR1.TRADD complex of the plasma membrane and subsequently induced cytosolic TRADD-Fas-associated death domain protein complex. Biotinylated srCRT was capable of calcium-dependent binding of Sepharose-immobilized L,D-MDP or peptidoglycan. However, Toll-like receptors TLR-2 and TLR-4, Nod2, and CD14 of RK sub(13) cells did not specifically bind Sepharose-immobilized L,D-MDP. High concentrations (5-40 mM) of EGTA dose-dependently inhibited free L,D-MDP binding to purified RK sub(13) cell CRT and promoted free L,D-MDP dissociation from RK sub(13) cell CRT.MDP complex. Different concentrations of EGTA (0-40 mM) added to Dulbecco's modified essential medium with 1.8 mM calcium or phosphate-buffered saline with 0.18 mM calcium have different effects on medium free calcium concentrations but have identical inhibiting effects on L,D-MDP-induced apoptosis. More inhibition of the L,D-MDP-induced apoptotic DNA ladders and caspase-3 activity in RK sub(13) cells was obtained with EGTA pretreatment (83%) than just EGTA + L,D-MDP (47%). The knocking down of srCRT by antisense oligonucleotide CRTAS121 (250 nmol/ml) and stealth small interfering RNA CRT_siR479 (150 pM/ml) for 2 days (44 and 66%, respectively), resulted in the inhibition of L,D-MDP-induced caspase-3 activity (47 and 65%, respectively). The results suggest that (a) the binding of L,D-MDP to srCRT is calcium-dependent, i.e. on srCRT-bound calcium, and (b) it is srCRT, not TLR-2, TLR-4, Nod2 or CD14, that mediates L,D-MDP-induced RK sub(13) cell apoptosis through activating the TNFR1. 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CRT on RK sub(13) cell surface (srCRT) forms complex(es) with tumor necrosis factor receptor 1 (TNFR1) and TNFR-associated death domain (TRADD) protein of the cell membrane. CRT polyclonal or monoclonal antibody binding to RK sub(13) srCRT dose-dependently inhibited L,D-MDP-induced apoptosis. In RK sub(13) cells, L,D-MDP up-regulated the TNFR1.TRADD complex of the plasma membrane and subsequently induced cytosolic TRADD-Fas-associated death domain protein complex. Biotinylated srCRT was capable of calcium-dependent binding of Sepharose-immobilized L,D-MDP or peptidoglycan. However, Toll-like receptors TLR-2 and TLR-4, Nod2, and CD14 of RK sub(13) cells did not specifically bind Sepharose-immobilized L,D-MDP. High concentrations (5-40 mM) of EGTA dose-dependently inhibited free L,D-MDP binding to purified RK sub(13) cell CRT and promoted free L,D-MDP dissociation from RK sub(13) cell CRT.MDP complex. Different concentrations of EGTA (0-40 mM) added to Dulbecco's modified essential medium with 1.8 mM calcium or phosphate-buffered saline with 0.18 mM calcium have different effects on medium free calcium concentrations but have identical inhibiting effects on L,D-MDP-induced apoptosis. More inhibition of the L,D-MDP-induced apoptotic DNA ladders and caspase-3 activity in RK sub(13) cells was obtained with EGTA pretreatment (83%) than just EGTA + L,D-MDP (47%). The knocking down of srCRT by antisense oligonucleotide CRTAS121 (250 nmol/ml) and stealth small interfering RNA CRT_siR479 (150 pM/ml) for 2 days (44 and 66%, respectively), resulted in the inhibition of L,D-MDP-induced caspase-3 activity (47 and 65%, respectively). The results suggest that (a) the binding of L,D-MDP to srCRT is calcium-dependent, i.e. on srCRT-bound calcium, and (b) it is srCRT, not TLR-2, TLR-4, Nod2 or CD14, that mediates L,D-MDP-induced RK sub(13) cell apoptosis through activating the TNFR1. TRADD-Fas-associated death domain protein apoptotic pathway.</abstract></addata></record>
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title	Surface Calreticulin Mediates Muramyl Dipeptide-induced Apoptosis in RK sub(13) Cells
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