Determinant analysis and interaction studies on monoclonal antibodies to bovine IgG1 and IgG2.

Two mouse monoclonal antibodies SKb1 and SKb6 were prepared by fusion of myeloma cells with spleen cells of female Balb/c mouse immunized with a mixture of bovine IgG1 and IgG2. In radioimmunoassay, SKb1 bound specifically to IgG2 but SKb6 reacted with both IgG1 and IgG2 molecules. In the competition experiments, heavy chain isolated from bovine IgG could inhibit the binding of 125I-IgG1 and 125I-IgG2 to SKb6, while it failed to inhibit the binding of 125I-IgG2 to SKb1. The epitope reacting with SKb1 was found to be present not only on bovine IgG2 but also on goat IgG and was not present on IgG molecules isolated from the serum of rabbit, rat, sheep, horse, human and monkey. Similarly, the epitope reacting to SKb6 was found to be present on bovine IgG1 and IgG2 and also on IgG molecules isolated from goat and sheep serum but was absent in the IgG molecules isolated from the serum of rabbit, rat, horse, human and monkey. The association constants of the interactions of SKb1 with 125I-IgG2 and of SKb6 with 125I-IgG1 and 125I-IgG2, determined by Scatchard analysis, Steward-Petty plot and Sips plot, were found to be in the order of 10(8)-10(10) L/M. The association constants were determined at varying temperatures to obtain the thermodynamic parameters. The enthalpy (delta H0) and entropy (delta S0) values for the above antigen-antibody interactions were in the range of 9.15-15.96 kcal/mole and 36.96-41.15 eu/mole respectively. The heterogeneity indices for similar interactions determined by Sips equation were consistent with the expected values for binding of monoclonal antibodies with homogeneous protein determinants.     

The valence for ligand of the human mononuclear phagocyte 72 kD high-affinity IgG Fc receptor is one

The valence for ligand of the 72 kD high-affinity IgG FcR present on human mononuclear phagocytes was evaluated. Lysates of U937 cells whose high-affinity FcR had been saturated with equivalent quantities of 125I-IgG1 kappa and unlabeled IgG1 lambda or with 125I-IgG1 lambda and unlabeled IgG1 kappa were incubated with Sepharose-anti-kappa. Eighty-nine percent of the applied 125I-IgG1 kappa was bound, whereas 0.35% of the applied 125I-IgG1 lambda bound (mean of two experiments), indicating that if the receptors are occupied with ligand, the receptors bind only one ligand molecule at a time. Two experiments were performed to show that the receptors were ligand-occupied. First, a monoclonal antibody directed against the 72 kD FcR (FcRmab32) was added to lysates of U937 cells saturated with equal quantities of 125I-IgG1 lambda and IgG1 kappa. This anti-FcR antibody caused a dose-dependent sevenfold increase in the amount of 125I-IgG1 lambda bound to the anti-kappa immunoadsorbent (presumably by cross-linking receptors bearing 125I-IgG1 lambda with receptors bearing IgG1 kappa), whereas monoclonal antibodies (MMA and IV3) directed against two other determinants on U937 caused no such increase. In the second experiment, Sepharose-FcRmab32 adsorbed 60% of the 125I-IgG1 kappa and 46% of the 125I-IgG1 lambda applied in a U937 lysate (bearing high-affinity FcR), whereas only 3% of 125I-IgG1 kappa and 6% of 125I-IgG1 lambda applied in a K562 lysate (bearing no high-affinity FcR) were adsorbed. We interpret these data to indicate that in detergent solution the valency of the high-affinity FcR on U937 cells is one.     

Subclass specificity of the Fc receptor for human IgG on K562

The erythroleukemic cell line K562 bears a 40-kDa Fc receptor (Fc gamma RII) serologically related to and with a similar molecular weight as the Fc gamma R present on a broad range of leukocytes. The human IgG subclass specificity of the Fc gamma R on K562 was investigated using IgG aggregates of defined size, obtained from purified human myeloma proteins. The monoclonal antibody IV.3, which reacts with the Fc gamma RII present on various cell types, totally prevented binding of 125I-IgG2 trimers to K562. Experiments with radiolabeled IgG2 trimers showed that K562 cells bound a mean of 156,764 +/- 9895 molecules per cell with an association constant (Ka) of 1.8 +/- 0.7 X 10(8) M-1. Similar results were obtained with IgG3 oligomers. IgG3 and IgG2 trimers were about two- to threefold more effective in inhibiting binding of 125I-IgG2 trimers to K562 than IgG1 and IgG4 trimers. These results were confirmed by inhibition experiments using IgG monomers. The subclass specificity of the Fc gamma RII on K562 (i.e., IgG2 = IgG3 greater than IgG1 = IgG4) is quite distinct from the one reported for the Fc gamma RI and III of human cells (i.e., IgG1 = IgG3 greater than IgG4 and IgG2).     

Identification of new collagen formation with 125I-labeled antibody in bovine pericardial tissue valves implanted in calves

Failure of bovine pericardial tissue valve used in young patients may be due to a slow rejection process. Polyclonal anticollagen (Type I) antibody (IgG) was made in rabbits and purified by protein A affinity column. Two milligrams of IgG was labeled with 2 mCi of ¹²⁵I by the Iodogen method. Free iodide was separated by G-10 column. Affinity of ¹²⁵I-IgG was checked by radioimmunoassay. Two hundred and fifty microcuries of ¹²⁵I-IgG was injected in calves immediately after tissue valve implantation, and the calves were killed 4 h post-injection. After harvesting the valve, each of the three leaflets was separated into four zones, and radioactivity in each section was mapped with a γ counter. The radioactivity in tissue valve section was compared to that of normal aortic valve. The sections of tissue valve retain five to ten times more ¹²⁵I-IgG than control aortic valve. Iodine-IgG thus provides a sensitive technique for determination of residual antigenicity in tissue valve.     

Production of the superoxide adduct of myeloperoxidase (compound III) by stimulated human neutrophils and its reactivity with hydrogen peroxide and chloride.

Examination of the spectra of phagocytosing neutrophils and of myeloperoxidase present in the medium of neutrophils stimulated with phorbol myristate acetate has shown that superoxide generated by the cells converts both intravacuolar and exogenous myeloperoxidase into the superoxo-ferric or oxyferrous form (compound III or MPO2). A similar product was observed with myeloperoxidase in the presence of hypoxanthine, xanthine oxidase and Cl-. Both transformations were inhibited by superoxide dismutase. Thus it appears that myeloperoxidase in the neutrophil must function predominantly as this superoxide derivative. MPO2 autoxidized slowly (t 1/2 = 12 min at 25 degrees C) to the ferric enzyme. It did not react directly with H2O2 or Cl-, but did react with compound II (MP2+ X H2O2). MPO2 catalysed hypochlorite formation from H2O2 and Cl- at approximately the same rate as the ferric enzyme, and both reactions showed the same H2O2-dependence. This suggests that MPO2 can enter the main peroxidation pathway, possibly via its reaction with compound II. Both ferric myeloperoxidase and MPO2 showed catalase activity, in the presence or absence of Cl-, which predominated over chlorination at H2O2 concentrations above 200 microM. Thus, although the reaction of neutrophil myeloperoxidase with superoxide does not appear to impair its chlorinating ability, the H2O2 concentration in its environment will determine whether the enzyme acts primarily as a catalase or peroxidase.     

Inhibition of peroxidase-catalyzed reactions by deferoxamine

Phagocytes generate superoxide (O2-.) and hydrogen peroxide (H2O2) and their interaction in an iron-catalyzed reaction to form hydroxyl radicals (OH.) (Haber-Weiss reaction) has been proposed. Deferoxamine chelates iron in a catalytically inactive form, and thus inhibition by deferoxamine has been employed as evidence for the involvement of OH. generated by the Haber-Weiss reaction. We report here that deferoxamine also inhibits reactions catalyzed by the peroxidases of phagocytes, i.e., myeloperoxidase (MPO) and eosinophil peroxidase (EPO). The reactions inhibited include iodination in the presence and absence of chloride and the oxidation of guaiacol. Iodination by MPO and H2O2 is stimulated by chloride due to the intermediate formation of hypochlorous acid (HOCl). Iodination by reagent HOCl also is inhibited by deferoxamine with the associated consumption of HOCl. Iron saturation of deferoxamine significantly decreased but did not abolish its inhibitory effect on iodination by MPO + H2O2 or HOCl. Deferoxamine did not affect the absorption spectrum of MPO, suggesting that it does not react with or remove the heme iron. The conversion of MPO to Compound II by H2O2 was not seen when H2O2 was added to MPO in the presence of deferoxamine, suggesting either that deferoxamine inhibited the formation of Compound II by acting as an electron donor for MPO Compound I or that deferoxamine immediately reduced the Compound II formed. Iodination by stimulated neutrophils also was inhibited by deferoxamine, suggesting an effect on peroxidase-catalyzed reactions in intact cells. Thus deferoxamine has multiple effects on the formation and activity of phagocyte-derived oxidants and therefore its inhibitory effect on oxidant-dependent damage needs to be interpreted with caution.     

An electron spin resonance study of free radicals from catechol estrogens

Electron spin resonance spectroscopy has been used to demonstrate production of semiquinone free radicals from the oxidation of the catechol estrogens 2- and 4-hydroxyestradiol and 2,6- and 4,6-dihydroxyestradiol. Radicals were generated by horseradish peroxidase/H2O2 or tyrosinase/O2, or by autoxidation, and were detected as their complexes with spin-stabilizing metal ions (Zn2+ and/or Mg2+). Radical production occurs via one- or two-electron oxidation of catechol estrogens, depending on the type of activating system. Autoxidation of catechol estrogens produces superoxide and H2O2 at physiological pH values. The present results also indicate a difference in the reactivity of quinones derived from 2- and 4-hydroxyestradiol. The toxicological significance of these reactions is discussed.     

The interaction of 5,5-dimethyl-1-pyrroline-N-oxide with human myeloperoxidase and its potential impact on spin trapping of neutrophil-derived free radicals

Activation of human neutrophils leads to secretion of myeloperoxidase (MPO) with resulting generation of several oxidant species including OCl-. Spin trapping techniques employing 5,5-dimethyl-1-pyrroline-N-oxide (DMPO) are being applied increasingly to the investigation of free radical production by in vitro and in vivo experimental systems which contain neutrophils. Because such knowledge is critical to the interpretation of these data, we examined the impact of MPO and MPO-derived oxidants on DMPO spin adduct formation and stability. Addition of increasing concentrations of OCl- to DMPO yielded a number of EPR-detectable products including DMPO-OH. However, the concentration of OCl- required was in excess of that expected under physiologic conditions. Addition of purified human MPO and H2O2 to DMPO yielded EPR spectra consisting of small DMPO-OH peaks. The addition of MPO and H2O2 to preformed DMPO-OH and DMPO-CH3 resulted in rapid destruction of these spin adducts. Thus MPO/H2O2 appeared to both generate and destroy DMPO spin adducts. Neutrophils stimulated with phorbol myristate acetate or opsonized zymosan generated large DMPO-OOH and DMPO-OH peaks as well as small DMPO-CH3 peaks. Addition of the MPO inhibitor azide to the reaction mixture had no effecting on resulting DMPO-OH or DMPO-CH3 peak amplitudes but increased that of DMPO-OOH. These data suggest that MPO-derived oxidants likely have little impact on the nature of EPR spectra resulting from DMPO spin trapping of free radical species following neutrophil stimulation. Because MPO oxidants did appear to react with DMPO the ability of DMPO to protect a biologic target from in vitro MPO injury was examined. DMPO (greater than 10 mM) significantly decreased MPO/H2O2/Cl- -mediated erythrocyte hemolysis as assessed by 51Cr release. The experimental and/or pharmacologic implications of this observation require further study.     

Reactions of pholasin with peroxidases and hypochlorous acid

The ability of myeloperoxidase (MPO) and horseradish peroxidase (HRP) to induce chemiluminescence (CL) in Pholasin (Knight Scientific, Plymouth, UK), the photoprotein of the Common Piddock Pholas dactylus, was studied. The oxidation of Pholasin by compound I or II of HRP induced an intense light emission, whereas native HRP showed only a small effect. The luminescence observed upon incubation of Pholasin with native MPO was diminished by preincubation with catalase. Considering the high instability of diluted MPO, it is concluded that traces of hydrogen peroxide in water converted MPO to its active forms, compound I and/or II, which are able to oxidize Pholasin. Indeed, the addition of hydrogen peroxide to a mixture of MPO and Pholasin induced an intense burst of light. This emission was enhanced in degree and duration in the absence of chloride. Hypochlorous acid, the reaction product of Cl(-) and compound I of MPO, was itself able to elicit a luminescent response in Pholasin and this luminescence was strongly inhibited by methionine and taurine. However, both of these HOCl scavengers only slightly reduced the light emission induced by MPO/H(2)O(2) in both the presence or absence of chloride. Thus, hypochlorous acid produced by the MPO/H(2)O(2)/Cl(-) system, under the conditions described in this study, did not contribute to Pholasin luminescence. The Pholasin luminescence elicited by formyl-leucyl-methionyl-phenylalanine (fMLP)-stimulated neutrophils depends both on superoxide anion radicals and higher oxidation states of myeloperoxidase (but not on hypochlorous acid). This is shown by the inhibition of luminescence with superoxide dismutase and potassium cyanide, together with the lack of effect of both methionine and taurine. The luminescence response is about eight times greater in cells stimulated with fMLP/cytochalasin B than with fMLP alone.     

Direct evidence of generation and accumulation of β-sheet-rich prion protein in scrapie-infected neuroblastoma cells with human IgG1 antibody specific for β-form prion protein

We prepared β-sheet-rich recombinant full-length prion protein (β-form PrP) (Jackson, G. S., Hosszu, L. L., Power, A., Hill, A. F., Kenney, J., Saibil, H., Craven, C. J., Waltho, J. P., Clarke, A. R., and Collinge, J. (1999) Science 283, 1935-1937). Using this β-form PrP and a human single chain Fv-displaying phage library, we have established a human IgG1 antibody specific to β-form but not α-form PrP, PRB7 IgG. When prion-infected ScN2a cells were cultured with PRB7 IgG, they generated and accumulated PRB7-binding granules in the cytoplasm with time, consequently becoming apoptotic cells bearing very large PRB7-bound aggregates. The SAF32 antibody recognizing the N-terminal octarepeat region of full-length PrP stained distinct granules in these cells as determined by confocal laser microscopy observation. When the accumulation of proteinase K-resistant PrP was examined in prion-infected ScN2a cells cultured in the presence of PRB7 IgG or SAF32, it was strongly inhibited by SAF32 but not at all by PRB7 IgG. Thus, we demonstrated direct evidence of the generation and accumulation of β-sheet-rich PrP in ScN2a cells de novo. These results suggest first that PRB7-bound PrP is not responsible for the accumulation of β-form PrP aggregates, which are rather an end product resulting in the triggering of apoptotic cell death, and second that SAF32-bound PrP lacking the PRB7-recognizing β-form may represent so-called PrP(Sc) with prion propagation activity. PRB7 is the first human antibody specific to β-form PrP and has become a powerful tool for the characterization of the biochemical nature of prion and its pathology.     

The use of monoclonal anti-Thy1 IgG1 for the targeting of liposomes to AKR-A cells in vitro and in vivo

A number of SH-containing proteins or protein derivatives were coupled to small unilamellar liposomes. These were composed of distearoylphosphatidylcholine (DSPC), dipalmitoylphosphatidylethanolamine (DPPE) and cholesterol (1:1, phospholipid/cholesterol molar ratio) and activated (DPPE moiety) with the heterobifunctional reagents N-hydroxysuccinimide ester of iodoacetic acid (hydroxysuccinimide iodoacetate), N-succinimidyl-4-(2-bromoacetylamino)benzoate (SBAB) or N-succinimidyl-3-(2-pyridyldithio)proprionate (SPDP). DPPE was activated with the reagents before or after its incorporation into liposomes. Protein coupling values varied widely depending on the reagent and the protein used, but were highest in the case of SPDP-activated liposomes and SPDP-modified immunoglobulin G (IgG). Monoclonal anti-Thy1 125I-IgG1-bearing liposomes (SPDP- or SBAB-activated) containing quenched carboxyfluorescein were incubated under a variety of conditions with mouse AKR-A cells expressing the cross-reactive Thy 1.1 antigen. The following observations were made; (a) binding of intact liposomes to the cells at 4 degrees C reached plateau values after about 1 h with at least 70% of the liposomes used being capable of associating with the target cells; (b) binding of liposomes to AKR-A cells was much more pronounced than when using another cell line (EL4-Tc); (c) binding to AKR-A cells could be effected with as little as 1.3 molecules (average) of IgG1 per vesicle; (d) binding was inhibited only modestly by the presence of 50% mouse plasma; (e) stability of IgG1-bearing liposomes in terms of entrapped solute and IgG1 retention in the presence of plasma at 37 degrees C was maintained quantitatively for at least 5.5 h, and by 24 h, 54% of the IgG1 was still associated with the liposomes. AKR mice were injected intravenously with 99mTc-labelled AKR-A cells and 2.5 min later with anti-Thy1 125I-IgG1-bearing liposomes containing quenched carboxyfluorescein and 111In-Ca-DTPA or with similar liposomes devoid of IgG1. In parallel experiments, AKR mice received either of the liposome preparations without previous injection of cells. On the basis of patterns of quenched carboxyfluorescein, 111In and 125I-clearance from the circulation, of 99mTc levels in the blood and of values of 111In in the liver and spleen, it appeared that IgG1-bearing liposomes were capable of binding to their target cells in the vasculature. Such binding accelerated the clearance of interacting moieties (i.e., AKR-A cells and liposomes). The present results suggest that targeting of liposomes to circulating in vivo is feasible.     

Evidence for and partial characterization of three major and three minor chromatographic forms of human neutrophil myeloperoxidase

Myeloperoxidase (MPO) is an enzyme found in the azurophil granules of neutrophils. Cation-exchange chromatography on carboxymethyl-cellulose previously has been used to demonstrate the heterogeneity of the peroxidase enzymes isolated from human neutrophils. In this study, fast protein liquid chromatography (FPLC) was used to separate and purify three major (I, II, and III) and three minor (IIa, IIIa, IIIb) forms of MPO from isolated neutrophil granules. Purity was confirmed by polyacrylamide gel electrophoresis in the presence of cetyltrimethylammonium bromide (CETAB-PAGE), by crossed immunoelectrophoresis, and by spectral characteristics. All three major forms were indistinguishable by immunodiffusion against rabbit antiserum, scanning spectrophotometry, and amino acid composition. They differed in their elution from a cation-exchange resin, inhibition by 3-amino-1,2,4-triazole, migration rate in CETAB-PAGE, and subunit molecular weight. Subunit molecular weight was examined using sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). All three major forms appeared to consist of heavy (H), intermediate (M), and light (L) peptides. The M peptide appeared to be derived from the H subunit. All L subunits exhibited a molecular weight of 14,500. The molecular weights for the H subunits varied, and were 60,000, 59,000, and 57,000 for MPO I, II, and III, respectively. The molecular weights for the M peptides were 44,100, 43,000, and 42,000 for MPO I, II, and III, respectively. The treatment of neutrophils, granules, and extracts with protease inhibitors and sodium azide did not block the appearance of three major forms of MPO. Thus, neither protease activity nor MPO autooxidation during extraction and purification procedures is responsible for the appearance of multiple chromatographic forms of MPO derived from human neutrophils.     

Biochemical analysis of the movement of a major lysosomal membrane glycoprotein in the endocytic membrane system

HRP-anti LGP107Fab' and 125I-anti LGP107IgG were used as probes to study the movement of LGP107 in the endocytic membrane transport system in primary cultured hepatocytes of rats. Following the addition of HRP-anti LGP107Fab' to the culture medium, the transfer of the antibody conjugate from the cell surface of lysosomes was examined by cell fractionation on Percoll density gradients. The HRP tracer showed a bimodal subcellular distribution, in plasma membrane and lysosomal fractions. The amount of HRP found in the lysosomal fractions became larger as the period of cell incubation was increased. The rate of HRP accumulation in lysosomes was 0.13% of the administered load per hour per 10(6) cells. When cells were given 125I-anti LGP107 IgG, the antibody was not stored but was rapidly degraded in the lysosomes. The uptake of 125I-IgG by the cells, which was assessed by measuring the TCA-soluble radiolabeled degradation products released into the medium, increased proportionally to the administered concentration of the antibody and to the incubation time. The rate of uptake of the polyvalent 125I-IgG was comparable to that for the uptake of the monovalent HRP-Fab', and remained unchanged even after long exposure of the cells to a saturating concentration of the polyvalent IgG. This uptake process continued for many hours in the cells exposed to the protein synthesis inhibitor, cycloheximide. These results suggest that there is a continuous circulation of LGP107 between the cell surface and lysosomes in hepatocytes.     

Inhibition of immunoglobulin G-catalyzed hydrogen peroxide generation by dexamethasone and piroxicam

In the present study, we established a simple and physiologically acceptable in vitro assay system to measure H2O2 generated by human immunoglobulin G (IgG) and other proteins. In addition, the effects of various drugs were also tested in this method. We found that UV irradiation (280 nm) of the test solutions for 1 h at 37 degrees C produced suitable conditions to test the effects of these drugs. The test solution contained 100 microg/ml IgG in 50 mM phosphate buffer (pH 7.4), and 1% dimethylformamide (DMF), a solvent used to dissolve each drug. Phosphate anions were preferable for H2O2 generation. H2O2 concentration in the irradiated sample was determined by continuous photometric measurement of absorption (O.D.) at 340 nm for 600 sec. The decrease in O.D. was due to the oxidation of NADPH by H2O2 mediated by the glutathione redox cycle. H2O2 generation was expressed as O.D.(340 nm decrease/400 sec). IgG (100 microg/ml) generated 6-7 microM H2O2/h. With irradiation, most cytokines, proteins and enzymes failed to generate significant amounts of H2O2. The formation of H2O2 from H2O and UV light-induced singlet oxygen (1O2) was demonstrated by the inhibitory effects of 1O2 quenchers. Dexamethasone (IC50: 6 ng/ml = 1.4x10(-8) M) blocked H2O2 generation catalyzed by IgG. This action was not mediated by binding to the glucocorticoid receptor. Piroxicam (IC50: 20 ng/ml = 6.0 x 10(-6) M) and diclofenac.Na (IC50: 500 ng/ml = 1.6 x 10(-5) M), but not indomethacin, also blocked H2O2 generation. The mechanism underlying the inhibition of IgG-catalyzed H2O2 generation is not clear; however, the possibility exists that these drugs intercept, or interfere with, the approach of water molecules at the catalytic interface(s) of the IgG.     

Interaction of myeloperoxidase with vascular NAD(P)H oxidase-derived reactive oxygen species in vasculature: implications for vascular diseases

Vascular NAD(P)H oxidase-derived reactive oxygen species (ROS) such as hydrogen peroxide (H2O2) have emerged as important molecules in the pathogenesis of atherosclerosis, hypertension, and diabetic vascular complications. Additionally, myeloperoxidase (MPO), a transcytosable heme protein that is derived from leukocytes, is also believed to play important roles in the above-mentioned inflammatory vascular diseases. Previous studies have shown that MPO-induced vascular injury responses are H2O2 dependent. It is well known that MPO can use leukocyte-derived H2O2; however, it is unknown whether the vascular-bound MPO can use vascular nonleukocyte oxidase-derived H2O2 to induce vascular injury. In the present study, ANG II was used to stimulate vascular NAD(P)H oxidases and increase their H2O2 production in the vascular wall, and vascular dysfunction was used as the vascular injury parameter. We demonstrated that vascular-bound MPO has sustained activity in the vasculature. MPO could use the vascular NAD(P)H oxidase-derived H2O2 to produce hypochlorus acid (HOCl) and its chlorinating species. More importantly, MPO derived HOCl and chlorinating species amplified the H2O2-induced vascular injury by additional impairment of endothelium-dependent relaxation. HOCl-modified low-density lipoprotein protein (LDL), a specific biomarker for the MPO-HOCl-chlorinating species pathway, was expressed in LDL and MPO-bound vessels with vascular NAD(P)H oxidase-derived H2O2. MPO-vascular NAD(P)H oxidase-HOCl-chlorinating species may represent a common pathogenic pathway in vascular diseases and a new mechanism involved in exacerbation of vascular diseases under inflammatory conditions.     

过氧化氢预处理对抗氧化应激诱导的PC12细胞凋亡

氧化应激可明显地诱导细胞凋亡。本研究旨在探讨H2O2预处理能否对H2O2诱导的PC12细胞凋亡生产保护作用及ATP敏感性K^ （ATP-sensitive potassinm,KATP）通道在其中的作用。采用PI染色流式细胞仪（flow cytometry, FCM）检测PC12细胞凋亡。结果表明,经10μmol/L H2O2预处理90min的PC12细胞,分别在20、30、50和100μmol/L H2O2作用24h后,其细胞凋亡率明显下降,与未经H2O2的预处理的PC12细胞相比,差异极显著（P＜0.01）,表明H2O2预处理对H2O2诱导PC12细胞凋亡具有保护作用。用10μmol/L的KATP通道激动齐pinacidil(Pin)可显著减少30和50μmol/L H2O2诱导的PC12细胞凋亡,10μmol/L的KATP通道拮抗齐glybenclamide（Gly）则可显著地抑制甚至取消KATP通道激动剂Pin对H2O3诱导PC12细胞凋亡的保护作用,但并不影响H2O2预处理对H2O2诱导PC12细胞凋亡的保护作用;然而,当联合应用H2O2预处理与Pin时,对PC12细胞凋亡的保护作用显大于各自的细胞凋亡作用。提示KATP通道开放不仅对H2O2诱导PC12细胞凋亡具有保护作用,而且与H2O2预处理一起产生抗PC12细胞凋亡的协同作用。但KATP通道开放可能不参与H2O2预处理的适应性保护作用。     

Enhanced catabolism of low density lipoproteins in rat by lactosaminated Fab fragment. A new carrier of macromolecules to the liver

Proteins conjugated with lactose residues exhibit enhanced hepatic uptake mediated by the galactose receptor. In this study, we demonstrate that lactosaminated Fab fragments (lac-Fab) of IgG can induce hepatic catabolism of specific antigens, especially low density lipoproteins (LDL). lac-Fab and human LDL-lac-Fab complex exhibited specific uptake in isolated rat hepatocytes. In vivo in the rat, lactosamination enhanced plasma clearance of Fab fragments 2-fold and hepatic localization 20-fold. Fab fragments retained their affinity after lactosamination. Hepatic uptake of rat 125I-IgG complexed in vitro with anti-rat lac-Fab was increased almost 5-fold, compared to rat 125I-IgG alone. Injection of rats with anti-LDL lac-Fab induced plasma clearance and hepatic uptake of tracer amounts of previously injected human 125I-LDL, which decreased 50% 10 min after injection of lac-Fab, with 30% present in the liver. Asialofetuin completely inhibited these processes. After a bolus of 6 mg of human LDL, administration of anti-LDL lac-Fab reduced the serum cholesterol of rats to basal values within 2.5 h. These findings suggest that lactosaminated Fab fragments of specific IgGs are effective reagents for inducing hepatic uptake of macromolecules through the galactose receptor. lac-Fab specific for LDL may be an effective hypocholesterolemic agent in vivo.     

Comparison of the binding affinities of rabbit IgG fractions to the rabbit fetal yolk sac membrane: use of 22Na to facilitate quantitation of 125I-IgG binding.

Rabbit IgG was purified, Fr-1-(G-200)2, and then separated by DEAE-cellulose column chromatography into three major fractions, Fr-I, -II, and -III. Binding affinities of the 125I-labeled IgG and its fractions to the rabbit fetal yolk sac membrane were studied. At a concentration of 2 mg/ml, rabbit IgG is bound to the extent of 9 mug/cm2 membrane, whereas the values for fractions Fr-I, -II, and -III are 13, 7, and 5 mug/cm2, respectively. The maximal amount of IgG bound appears to be approximately the same, i.e., 23 mug of IgG/cm2 membrane, for Fr-1-(G-200)2 and its three fractions. In contrast, bovine IgG does not bind to the membrane over the range of concentration tested. Binding constants for Fr-1-(G-200)2, fraction Fr-I, -II, and -III are estimated to be 5.4, 8.6, 4.0 and 2.0 times 10(4) M-1, respectively. The binding affinities of IgG fractions to the yolk sac membrane correlate with the chemical and physicochemical properties of the fractions. Also detailed in the text is the use of 22Na to facilitate quantitation of specific binding of the 125I-IgG to the membrane under equilibrium conditions.     

An improved method for the sensitive monitoring of low density lipoprotein modification by myeloperoxidase

The aim of this investigation was to compare an improved fluorometric method with an UV absorbance assay for their ability to monitor low density lipoprotein (LDL) modification by myeloperoxidase (MPO) and to evaluate determining factors influencing the modification of LDL. Using absorbance at 234 nm to study the kinetics of LDL aggregation, and a native fluorescence assay for protein oxidation, we found that all components of the MPO/H2O2/Cl- system may have rate determining effects on LDL modification. While the lipoprotein modification rate correlated positively with enzyme concentration, variation of the concentration of H2O2 had a biphasic effect on the maximal rate of LDL modification with both methods. Furthermore, a positive association was found between the maximal rate of LDL modification and the acidity of the medium, with a pathophysiologically relevant optimal rate at a slightly acidic pH of 5-6, but hardly any modification above pH 6.8. In summary, both methods provide simple and useful tools for the continuous monitoring of LDL modification by the MPO/H2O2/Cl- system, but the more sensitive fluorometric method is preferable, since it allows the application of experimental conditions which are much closer to the situation in vivo.