Biochemistry
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Dual-specificity AKAPs bind to type I (RI) and type II (RII) regulatory subunits of cAMP-dependent protein kinase A (PKA), potentially recruiting distinct cAMP responsive holoenzymes to a given intracellular location. To understand the molecular basis for this "dual" functionality, we have examined the pH-dependence, the salt-dependence, and the kinetics of binding of the A-kinase binding (AKB) domain of D-AKAP2 to the regulatory subunit isoforms of PKA. Using fluorescence anisotropy, we have found that a 27-residue peptide corresponding to the AKB domain of D-AKAP2 bound 25-fold more tightly to RIIalpha than to RIalpha. ⋯ This suggests that the relative energetic contribution of the charge stabilization is different for the two isoforms. This prediction was confirmed by mutagenesis in which acidic mutations, primarily of E10 and D23, in the AKB domain affected binding to RIalpha but not to RIIalpha. These isoform-specific differences provide a foundation for developing isoform-specific peptide inhibitors of PKA anchoring by dual-specificity AKAPs, which can be used to evaluate the physiological significance of dual-specificity modes of PKA anchoring.
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Fibrinogen is a ligand for leukocyte integrin alpha(M)beta2 (CD11b/CD18, Mac-1) and mediates adhesion and migration of leukocytes during the immune-inflammatory responses. The binding site for alpha(M)beta2 resides in gammaC, a constituent subdomain in the D-domain of fibrinogen. The sequence gamma383-395 (P2-C) in gammaC was implicated as the major binding site for alpha(M)beta2. ⋯ P2-C is also unmasked by immobilization of fibrinogen onto a plastic and by deposition of fibrinogen in the extracellular matrix. Thus, exposure of P2-C by immobilization and by proteolysis correlates with unmasking of the alpha(M)beta2-binding site in the D-domain. These results demonstrate that conformational alterations regulate the alpha(M)beta2-binding site in gammaC and suggest that processes relevant to tissue injury and inflammation are likely to be involved in the activation of the alpha(M)beta2-binding site in fibrinogen.
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Comparative Study
Comparison of the amino acid residues in the sixth transmembrane domains accessible in the binding-site crevices of mu, delta, and kappa opioid receptors.
We have mapped the residues in the sixth transmembrane domains (TMs 6) of the mu, delta, and kappa opioid receptors that are accessible in the binding-site crevices by the substituted cysteine accessibility method (SCAM). We previously showed that ligand binding to the C7.38S mutants of the mu and kappa receptors and the wild-type delta receptor was relatively insensitive to methanethiosulfonate ethylammonium (MTSEA), a positively charged sulfhydryl-specific reagent. These MTSEA-insensitive constructs were used as the templates, and 22 consecutive residues in TM6 (excluding C6.47) of each receptor were mutated to cysteine, 1 at a time. ⋯ The conservation of the accessibility pattern on the cytoplasmic side of 6.54 suggests that this region may be important for receptor activation. This accessibility pattern is similar to that of the D2 dopamine receptor, the only other GPCR in which TM6 has been mapped by SCAM. That opioid receptors and the remotely related D2 dopamine receptor have similar accessibility patterns in TM6 suggest that these segments of GPCRs in the rhodopsin-like subfamily not only share secondary structure but also are packed similarly into the transmembrane bundle and thus have similar tertiary structure.
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Cryptophycin-52 (LY355703) is currently undergoing clinical evaluation for cancer chemotherapy. It is a potent suppressor of microtubule dynamics in vitro, and low picomolar concentrations appear to inhibit cancer cell proliferation at mitosis by stabilizing spindle microtubules. In the present study, using [(3)H]cryptophycin-52, we found that the compound bound to tubulin at a single high-affinity site [apparent K(a) (3.6 +/- 1) x 10(6) L/mol, 34 degrees C]. ⋯ A van't Hoff plot of the binding data indicated that the binding of cryptophycin-52 to tubulin is primarily entropy-driven with a minimum enthalpy contribution. In addition, cryptophycin-52 perturbed the far-ultraviolet circular dichroic spectrum of tubulin and it inhibited the colchicine-induced guanosine triphosphatase activity of tubulin, indicating that its binding to tubulin induces a conformational change in the tubulin. Competition experiments with vinblastine suggest that the binding site for crytophycin-52 may overlap with the vinblastine binding site.
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Tryptase, a serine protease with trypsin-like substrate cleavage properties, is one of the key effector molecules during allergic inflammation. It is stored in large quantities in the mast cell secretory granules in complex with heparin proteoglycan, and these complexes are released during mast cell degranulation. In the present paper, we have studied the mechanism for tryptase activation. ⋯ No formation of active tetramers was observed at neutral pH. When injected intraperitoneally, mMCP-6 together with heparin caused neutrophil influx, but no signs of inflammation were seen in the absence of heparin. The present paper thus indicates a crucial role for heparin in the formation of active mast cell tryptase.