The Journal of biological chemistry
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The interaction of leukocyte integrin alphaMbeta2 (CD11b/CD18, Mac-1) with fibrinogen has been implicated in the inflammatory response by contributing to leukocyte adhesion to the endothelium and subsequent transmigration. Previously, it has been demonstrated that a peptide, P1, corresponding to residues 190-202 in the gamma-chain of fibrinogen, binds to alphaM beta2 and blocks the interaction of fibrinogen with the receptor and that Asp199 within P1 is important to activity. We have demonstrated, however, that a double mutation of Asp199-Gly200 to Gly-Ala in the recombinant gamma-module of fibrinogen, spanning region 148-411, did not abrogate alphaM beta2 recognition and considered that other binding sites in the gamma-module may participate in the receptor recognition. ⋯ Analysis of overlapping peptides spanning P2 demonstrated that it may contain two functional sequences: gamma377-386 (P2-N) and gamma383-395 (P2-C), with the latter sequence being more active. In the three-dimensional structure of the gamma-module, gamma190-202 and gamma377-395 reside in close proximity, forming two antiparallel beta strands. The juxtapositioning of these two sequences may form an unique and complex binding site for alphaM beta2.
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Activation and Thr286 autophosphorylation of calcium/calmodulindependent kinase II (CaMKII) following Ca2+ influx via N-methyl-D-aspartate (NMDA)-type glutamate receptors is essential for hippocampal long term potentiation (LTP), a widely investigated cellular model of learning and memory. Here, we show that NR2B, but not NR2A or NR1, subunits of NMDA receptors are responsible for autophosphorylation-dependent targeting of CaMKII. CaMKII and NMDA receptors colocalize in neuronal dendritic spines, and a CaMKII. ⋯ Autophosphorylation induces direct high-affinity binding of CaMKII to a 50 amino acid domain in the NR2B cytoplasmic tail; little or no binding is observed to NR2A and NR1 cytoplasmic tails. Specific colocalization of CaMKII with NR2B-containing NMDA receptors in transfected cells depends on receptor activation, Ca2+ influx, and Thr286 autophosphorylation. Translocation of CaMKII because of interaction with the NMDA receptor Ca2+ channel may potentiate kinase activity and provide exquisite spatial and temporal control of postsynaptic substrate phosphorylation.