Gelsolin-actin interaction and actin polymerization in human neutrophils

The fraction of polymerized actin in human blood neutrophils increases after exposure to formyl-methionyl-leucyl-phenylalanine (fmlp), is maximal 10 s after peptide addition, and decreases after 300 s. Most of the gelsolin (85 +/- 11%) in resting ficoll-hypaque (FH)-purified neutrophils is in an EGTA resistant, 1:1 gelsolin-actin complex, and, within 5 s after 10(-7) M fmlp activation, the amount of gelsolin complexed with actin decreases to 42 +/- 12%. Reversal of gelsolin binding to actin occurs concurrently with an increase in F-actin content, and the appearance of barbed-end nucleating activity. The rate of dissociation of EGTA resistant, 1:1 gelsolin-actin complexes is more rapid in cells exposed to 10(-7) M fmlp than in cells exposed to 10(-9) M fmlp, and the extent of dissociation 10 s after activation depends upon the fmlp concentration. Furthermore, 300 s after fmlp activation when F-actin content is decreasing, gelsolin reassociates with actin as evidenced by an increase in the amount of EGTA resistant, 1:1 gelsolin-actin complex. Since fmlp induces barbed end actin polymerization in neutrophils and since in vitro the gelsolin-actin complex caps the barbed ends of actin filaments and blocks their growth, the data suggests that in FH neutrophils fmlp-induced actin polymerization could be initiated by the reversal of gelsolin binding to actin and the uncapping of actin filaments or nuclei. The data shows that formation and dissociation of gelsolin-actin complexes, together with the effects of other actin regulatory proteins, are important steps in the regulation of actin polymerization in neutrophils. Finally, finding increased amounts of gelsolin-actin complex in basal FH cells and dissociation of the complex in fmlp-activated cells suggests a mechanism by which fmlp can cause actin polymerization without an acute increase in cytosolic Ca++.     

Spectroscopic studies of the interaction between hypocrellin B and human serum albumin

Previous work has proved that hypocrellin B (HB) binds to human serum albumin (HSA) at a specific site instead of distributed randomly on the surface of a protein. In the current work, further investigation by using bilirubin as a site I marker indicates that HB can compete for the same site with bilirubin, suggesting that the HB binding site is located at sub-domain IIA (site I) of HSA. Moreover, bound to HSA, the HB fluorescence was found to be pH sensitive in physiological range (pH 6.0-8.0). The increasing of binding constant of HB to HSA in the pH range 6-8 also indicates that the N<-->B transition modulates the microenvironment changes of the binding site and influences considerably the binding between HB and HSA. Furthermore, picosecond time-resolved fluorescence spectra of HB-HSA complex in PBS indicate an additional short-lived component compared to that for HB in benzene, which may be assigned to the process of electron transfer from Trp-214 to HB.     

NMR studies of the interaction between human programmed cell death 5 and human p53

Human programmed cell death 5 (PDCD5) is a protein playing a significant role in regulating both the apoptotic and paraptotic cell deaths. Resent findings show that PDCD5 is a positive regulator of Tip60 and also has a potential ability to interact with p53. Here we aim to experimentally characterize the nature of the interactions between PDCD5 and the p53 N-terminal domain (NTD) and to depict the binding mode between two proteins. The interprotein binding interfaces were determined by NMR experiments performed with PDCD5 and various fragments of p53 NTD. The binding affinity was investigated using the NMR titration experiments. Analysis revealed that the PDCD5 binding site on p53 is localized within residues 41-56 of p53 TAD2 subdomain while p53 binds preferentially to the positively charged surface region around the C-terminals of helices α3 and α5 and the N-terminal of helix α4 of PDCD5. The binding is mainly mediated through electrostatic interactions. The present data suggested a model for the interaction between PDCD5 and the p53 NTD.     

Characterization of the interaction of human eosinophils and neutrophils with opsonized particles

The interaction of human eosinophils with opsonized particles was compared with that of human neutrophils. When eosinophils are stimulated with serum-opsonized zymosan particles, the lag time in H2O2 production is twice as long as found with neutrophils. Moreover, the concentration of these IgG + C3-coated particles required for optimal stimulation is about four times as high for eosinophils as for neutrophils. Under these conditions, the two cell types generate similar amounts of H2O2. However, eosinophils produce twice as much H2O2 as do neutrophils when stimulated with the soluble agent phorbol myristate acetate. Thus, although the oxidase capacity of eosinophils is larger than that of neutrophils, opsonized zymosan is a weak trigger for this activity in eosinophils. This phenomenon may be due to differences between the two cell types in the plasma membrane receptors or in the receptor oxidase transducing signal. The following are indications for the first possibility. i) IgG interacts poorly with the Fc gamma receptors on the eosinophil surface compared with those on neutrophils. This was shown by the inability of IgG-coated zymosan or IgG-coated latex to trigger any substantial H2O2 production by eosinophils unless brought into close contact with these cells by centrifugation. In contrast, neutrophils are stimulated by these particles both in suspension and in a pellet. The dissimilarity of the Fc gamma receptors on eosinophils and neutrophils was also shown with respect to antigenicity, determined by the monoclonal antibodies 3G8 and CLB-FcR-1. ii) Eosinophils contain about half as many receptors for C3b and C3bi on their surface as do neutrophils, also detected with monoclonal antibodies. The interaction of IgG subclasses with functional Fc gamma receptors on eosinophils and neutrophils showed that eosinophils release twice as much H2O2 as do neutrophils upon interaction with IgG1-, IgG2-, or IgG3-coated Sepharose beads, but this difference becomes fivefold with IgG4-coated Sepharose. This might be of relevance to the situation of chronic antigenic stimulation, e.g., in chronic schistosomiasis, in which eosinophil numbers and IgG4 antibody levels are elevated.     

Use of manganese to discriminate between calcium influx and mobilization from internal stores in stimulated human neutrophils

Stimulation of human neutrophils with f-met-leu-phe, platelet-activating factor, or leukotriene B4 resulted in an increase in [Ca2+]i. The [Ca2+]i rise was greater in the presence than absence of external Ca2+; the component that was dependent on external Ca2+ was blocked by Ni2+, or could be reconstituted by addition of external Ca2+ following discharge of the internal Ca2+ store. These measurements of [Ca2+]i responses provide only indirect evidence for agonist-stimulated Ca2+ entry, and here we have used an alternative approach to demonstrate directly agonist-stimulated divalent cation entry. In the presence of extracellular Mn2+, f-met-leu-phe, leukotriene B4, and platelet-activating factor stimulate a quench in fluorescence of fura-2-loaded human neutrophils. This quench was due to stimulated Mn2+ influx and was blocked by Ni2+. When Mn2+ was added in the continued presence of agonist, after discharge of the internal store of Ca2+, a stimulated quench was seen; this result shows that an elevated [Ca2+]i is not needed for the stimulation of Mn2+ entry. Depolarization by high [K+] or addition of the L-type Ca2+ channel agonist, BAY-R-5417, had little or no effect on either [Ca2+]i or Mn2+ entry. These results show that agonists stimulate divalent cation entry (Ca2+ or Mn2+) by a mechanism independent of changes in [Ca2+]i and unrelated to voltage-dependent Ca2+ channels.     

Equine CRISP3 modulates interaction between spermatozoa and polymorphonuclear neutrophils

Equine spermatozoa induce a uterine inflammatory response characterized by a rapid, transient influx of polymorphonuclear neutrophils (PMNs). Seminal plasma proteins have been shown to modulate the interaction between spermatozoa and PMNs, but a specific protein responsible for this function has not been identified. The objective of this study was to isolate and identify a protein in equine seminal plasma that suppresses binding between spermatozoa and PMNs. Seminal plasma was pooled from five stallions, and proteins were precipitated in 60% (w/v) ammonium sulfate and dialyzed (3500 MW cutoff). Proteins were submitted to a Sephacryl S200 column, and fractions were pooled based on the fraction pattern. Each pool was analyzed for protein concentration and tested for its suppressive effect on PMN/sperm binding. Protein pools with biological activity were submitted to ion-exchange chromatography (diethylaminoethyl [DEAE] Sephadex column) with equilibration buffers containing 0.1-0.5M NaCl. Eluants were pooled, analyzed for protein concentration, and tested for suppressive effects on PMN/sperm binding. Protein distribution and purity were determined by one- and two-dimensional SDS-PAGE, and the purified protein was submitted for sequence analysis and identification. This protein was identified as equine CRISP3 and was confirmed by Western blotting. Suppression of PMN/sperm binding by CRISP3 and seminal plasma was confirmed by flow cytometry (22.08% ± 3.05% vs. 2.06% ± 2.02% vs. 63.09% ± 8.67 for equine seminal plasma, CRISP3, and media, respectively; P < 0.0001). It was concluded that CRISP3 in seminal plasma suppresses PMNs/sperm binding, suggesting that CRISP3 regulates sperm elimination from the female reproductive tract.     

Silver staining studies on the short arm variant of human chromosome 17

Summary The absence of silver grain precipitation on human chromosome 17, consistently observed in four patients displaying the 17p variant, supports the hypothesis that the 17p variant is a structural heteromorphism rather than translocated satellite material.     

Raman spectroscopic studies on the interaction between counterion and polyion

The interaction between alkali metal ions and the polyacrylate ion was investigated by means of Raman spectroscopy. in comparison with the Raman spectra of propionate salts. The Raman bands due to the metal-oxygen bond were not apparent and no significant difference was observed among the Raman spectra of several univalent salts of polyacrylate. except in the case of the lithium salt. The apparent degree of dissociation of lithium polyacrylate, as determined from the relative intensity of a specific band characteristic of the carboxylate ion, was lower than those of the other alkali metal salts. It is concluded from the Raman data that the electrostatic interaction between counterions and a polyion is not specifically modified by forces of a nonionic nature. Moreover, it is pointed out that the local conformation of polyacrylate changes gradually with the degree of neutralization, but that the change is not like a conformational transition between globular and random coil forms.     

Use of spin probe in the determination of oxygen consumption in human neutrophils

A quantitative method of the oxygen consumption rate measurement by human blood neutrophils upon their activation is described. This method is based on the spin exchange determination between 3-carbamoyl-2,2,5,5-tetramethyl-3-pyrroline-1-yloxyl spin probe and oxygen molecules from the ESR spectra. Method allows the determination of about 1 micromolar concentrations of oxygen.     

Theoretical studies of the interaction between enflurane and water

Increase of the atmospheric concentration of halogenated organic compounds is partially responsible for a change of the global climate. In this work we have investigated the interaction between halogenated ether and water, which is one of the most important constituent of the atmosphere. The structures of the complexes formed by the two most stable conformers of enflurane (a volatile anaesthetic) with one and two water molecules were calculated by means of the counterpoise CP-corrected gradient optimization at the MP2/6–311++G(d,p) level. In these complexes the CH…O_w hydrogen bonds are formed, with the H…O_w distances varying between 2.23 and 2.32 Å. A small contraction of the CH bonds and the blue shifts of the ν(CH) stretching vibrations are predicted. There is also a weak interaction between one of the F atoms and the H atom of water, with the H_w…F distances between 2.41 and 2.87 Å. The CCSD(T)/CBS calculated stabilization energies in these complexes are between ?5.89 and ?4.66 kcal?mol^?1, while the enthalpies of formation are between ?4.35 and ?3.22 kcal?mol^?1. The Cl halogen bonding between enflurane and water has been found in two complexes. The intermolecular (Cl···O) distance is smaller than the sum of the corresponding van der Waals radii. The CCSD(T)/CBS stabilization energies for these complexes are about ?2 kcal?mol^?1.

Calorimetric studies of the interaction between dna and poly-l-lysine

The transition enthalpy ΔH of the helix—random coil transition of the DNA-polylysine complex was measured as a function of the peptide:nucleotide ratio by the help of an adiabatic scanning differential calorimeter. Furthermore the transition enthalpy of a complex with a specific peptide:nucleotide ratio was determined as a function of the cation concentration of the solution. Finally the reaction enthalpy of the interaction of polylysine with native and denatured DNA was measured with the help of a LKB batch calorimeter. From the results of the calorimetric measurements one can conclude that the transition enthalpy of the DNA—polylysine complexes is linearly dependent on the nucleotide: peptide ratio. The extrapolated value for the 1:1 complex is 14.4 Kcal per mole base pairs.     

Discrimination between receptor- and store-operated Ca influx in human neutrophils

Ca²⁺ and Sr²⁺ entry pathways activated by pro-inflammatory agonists FMLP, LTB₄ and PAF have been compared to thapsigargin in human neutrophils. 2-APB (10 μM) increased Ca²⁺ influx and to a greater extent in agonist than in thapsigargin stimulated neutrophils. This action of 2-APB was specific to Ca²⁺ because 2-APB did not augment Sr²⁺ entry in agonist and thapsigargin stimulated neutrophils. This suggests that Ca²⁺ and Sr²⁺ entry can be used to discriminate between receptor and non-receptor (store)-operated Ca²⁺ influx. Our data show for the first time that Pyr3 whilst partially inhibiting agonist induced Ca²⁺ influx almost completely abolished Ca²⁺ influx after thapsigargin stimulation.     

Studies on the interaction between mitogens and human lymphocytes in vitro

The initial events in interaction between mitogens and lymphocytes were studied with kidney bean phytohemagglutinin (PHA-W), concanavalin A (Con A), kidney bean leucoagglutinin (LA) and antilymphocyte globulin (ALG). The lectins were characterized by disc electrophoresis and immunoelectrophoresis. LA was found to be homogeneous while PHA-W was separated in three bands and showed two antigenic components. When lymphocytes were incubated with mitogen for a short time (1 h) and in experiments according to the described technique for transfer of mitotic stimulation between lymphocytes it was found that the binding of PHA-W to the cell differed from that of LA and ConA. In binding experiments with labelled mitogens PHA-W was found to have twice as many binding sites per cell as LA and ConA, although similar affinity constants were found. The relationship between mitogens and lymphocyte receptors was studied in lymphocytes incubated with two mitogens simultaneously for a short period. Both inhibitory and synergistic effects were found. The results indicate that (a) mitogens with different receptor specificities give a synergistic response; (b) mitogens reacting with the same or closely related receptors are inhibitory to each other. The interpretation of the binding of PHA-W to lymphocytes and of the inhibitory and synergistic effects of mitogens are discussed.     

Structural and circular-dichroism studies on the interaction between human C1-esterase inhibitor and C1s.

The reaction between complement factor C1s and C1-esterase inhibitor has been investigated by sodium dodecyl sulphate/polyacrylamide-gel electrophoresis, N-terminal amino acid analysis and c.d. studies. It is confirmed that a very stable stoichiometric 1:1 complex with a molecular weight of about 180000 is formed, involving the light chain of C1s. On the sodium dodecyl sulphate/polyacrylamide gels a small peptide with a molecular weight of about 5000 can be seen, which may be released from the C-terminal portion of the inhibitor moiety in a manner analogous to that occurring in other similar proteinase-inhibitor reactions. By N-terminal amino acid analysis, a newly formed threonine residue is found in the complex, suggesting that the inhibitor peptide chain is cleaved in the complex between C1s and C1-esterase inhibitor. The stabilizing bond may therefore be an ester bond. C.d. studies of the native C1-esterase inhibitor indicated the presence of about 38% alpha-helix, about 24% beta-structure and about 38% unordered structure. By gradual cleavage of the disulphide bridges under non-denaturating conditions, gradual changes in the c.d. spectra occurred, suggesting loss of ordered secondary structures. The c.d. spectra of the complex between C1s and C1-esterase inhibitor indicate that tryptophan residues are affected by the complex-formation.     

Raman spectroscopic studies on the interaction between divalent counterion and polyion

The nature of the interaction between polyacrylalc ion and several divalent cations, such as Cu²⁺, Mn²⁺, Zn²⁺, Ba²⁺ and Mg²⁺, was investigated using Raman spectroscopy. A specific Raman band characteristic of a carboxyl group is shifted upon addition of Cu²⁺. Zn²⁺ and Mn²⁺ to partially neutralized poly(acrylic acid). On the other hand. no frequency shift of the specific Raman band is observed on addition of Mg²⁺ and Ba²⁺*, though the intensity of the specific Raman band decreases with concentration of MgCl₂. It is concluded from these Raman data that the interaction between polyacrylatc ion and Cu²⁺. Zn²⁺ or Mn²⁺ includes a specific interaction with bond formation, whereas in the case of Mg²⁺ and Ba²⁺, the electrostatic interaction is dominant.     

Thermochemical studies on the interaction between sodium n-dodecyl sulphate and catalases

The enthalpies of interaction between bovine catalase and sodium n-dodecyl sulphate (SDS) in aqueous solutions of pH 3.2,6.4 and 10.0 have been measured over a range of SDS concentrations by microcalorimetry at 25°C. The enthalpies increase with decreasing pH and with increasing SDS concentration and largely arise from the interations between the anionic head group of SDS and the cactionic amino acid residues on the protein. Chemically modified catalase in which a proportion of carboxylic acid groups have been coupled with either glycine methyl ester or ethylenediamine have been prepared and characterized in terms of their enzymic activities, spectral properties and sedimentation behaviour. The enthalpies of interaction of these catalases with SDS have been studied at pH 6.4. The results of the experiments suggest that the enthalpies of interaction with SDS can be correlated with the ratio of cationic to anionic amino acid residues on the surface of the catalase molecules and hence the nominal net surface charge. The variation in the enthalpy of interaction of catalases with surface charge, as a consequence of variation in pH, differs from the variation with charge at constant pH possibly due to the thermal effect of proton binding to the catalase—complexes.     

Immunological studies on the interaction of polyadenylic acid and human liver ribonuclease

The effect of polyadenylic acid, a potent inhibitor of mammalian and bacterial RNAses, on the binding of human liver RNAse to its antibody was studied. To do this, a human liver RNAse antibody was immobilized on Sepharose 4B. Examination of the ability of the enzyme to bind to the immobilized anti-RNAse in the presence or absence of polyadenylic acid indicated that enzyme-antibody binding was more sensitive to the presence of polyadenylic acid than was enzyme activity. Furthermore, the effect of polyadenylic acid on enzyme-antibody binding was specific since neither polycytidylic acid nor polyuridylic acid had much effect on the antigenicity of the enzyme. The metal cation, Mg2+, and the polyamine, spermidine, but not putrescine, readily reversed the effects of polyadenylic acid on enzyme-antibody binding.     

NMR and MD studies on the interaction between ligand peptides and alpha-bungarotoxin

The interaction between alpha-bungarotoxin and linear synthetic peptides, mimotope of the nicotinic acetylcholine receptor binding site, has been characterised extensively by several methods and a wealth of functional, kinetic and structural data are available. Hence, this system represents a suitable model to explore in detail the dynamics of a peptide-protein interaction. Here, the solution structure of a new complex of the protein toxin with a tridecapeptide ligand exhibiting high affinity has been determined by NMR. As observed for three other previously reported mimotope-alpha-bungarotoxin complexes, also in this case correlations between biological activity and kinetic data are not fully consistent with a static discussion of structural data. Molecular dynamics simulations of the four mimotope-toxin complexes indicate that a relevant contribution to the complex stability is given by the extent of the residual flexibility that the protein maintains upon peptide binding. This feature, limiting the entropy loss caused by protein folding and binding, ought to be generally considered in a rational design of specific protein ligands.