Functional roles of the conserved aromatic amino acid residues at position 108 (motif IV) and position 196 (motif VIII) in base flipping and catalysis by the N6-adenine DNA methyltransferase from Thermus aquaticus

The DNA methyltransferase (Mtase) from Thermus aquaticus (M.TaqI) catalyzes the transfer of the activated methyl group of S-adenosyl-L-methionine to the N6 position of adenine within the double-stranded DNA sequence 5'-TCGA-3'. To achieve catalysis M.TaqI flips the target adenine out of the DNA helix. On the basis of the three-dimensional structure of M.TaqI in complex with the cofactor and its structural homology to the C5-cytosine DNA Mtase from Haemophilus haemolyticus, Tyr 108 and Phe 196 were suggested to interact with the extrahelical adenine. The functional roles of these two aromatic amino acid residues in M.TaqI were investigated by mutational analysis. The obtained mutant Mtases were analyzed in an improved kinetic assay, and their ability to flip the target base was studied in a fluorescence-based assay using a duplex oligodeoxynucleotide containing the fluorescent base analogue 2-aminopurine at the target position. While the mutant Mtases containing the aromatic amino acid Trp at position 108 or 196 (Y108W and F196W) showed almost wild-type catalytic activity, the mutant Mtases with the nonaromatic amino acid Ala (Y108A and F196A) had a strongly reduced catalytic constant. Y108A was still able to flip the target base, whereas F196A was strongly impaired in base flipping. These results indicate that Phe 196 is important for stabilizing the extrahelical target adenine and suggest that Tyr 108 is involved in placing the extrahelical target base in an optimal position for methyl group transfer. Since both aromatic amino acids belong to the conserved motifs IV and XIII found in N6-adenine and N4-cytosine DNA Mtases as well as in N6-adenine RNA Mtases, a similar function of aromatic amino acid residues within these motifs is expected for the different Mtases.     

Optimization of a time-resolved immunofluorometric assay for tumor-associated trypsin inhibitor (TATI) using the streptavidin-biotin system

We have developed two 'sandwich'-type time-resolved immunofluorometric assays (IFMA) for tumor-associated trypsin inhibitor (TATI) using monoclonal and polyclonal antibodies. In the standard assay the monoclonal antibody was immobilized onto the walls of polystyrene microstrip wells and the polyclonal reagent was labeled with a europium chelate. We tested various assay conditions in order to optimize the assay for sensitivity and measuring range. Purification of the labeled antibody by hydrophobic interaction chromatography was found to be the most important single factor affecting sensitivity. Assay sensitivity and range were also improved by acid treatment of the solid phase antibody. To improve the sensitivity further the streptavidin/biotin (SAB) system was incorporated into the IFMA technique. In this simple and fast streptavidin/biotin IFMA (SAB-IFMA) we used streptavidin-coated wells to which we added biotinylated monoclonal antibody and a serum or urine sample. After incubation for 1.5 h and washing, the polyclonal europium-labeled tracer antibody was added. After incubation for 1 h the wells were washed and the Eu fluorescence measured. The assay performance of the SAB-IFMA was compared to the standard IFMA and radioimmunoassay (RIA). The detection limit was 0.05 microgram/l and the analytical range 3000-fold. The mean analytical recovery was 101%. Other advantages of the SAB-IFMA were high sensitivity and the low amounts of monoclonal antibody required, only 1/50 of that used in the standard IFMA.     

Generation of polyclonal antibodies against nisin: immunization strategies and immunoassay development

Murine polyclonal antibodies reactive to the lantibiotic bacteriocin nisin A (nisA) have been produced by immunization with nisA-cholera toxin and nisA-keyhole limpet hemocyanin (nisA-KLH) conjugates. Mice immunized with nisA-cholera toxin developed nisA-specific antibodies with low relative affinities and poor sensitivities, while the immunization of mice with nisA-KLH conjugates resulted in the production of nisA-specific antibodies with high relative affinities and much-increased sensitivities. nisA antibodies could also be readily mass produced in less than 8 weeks in ascites fluid by using the nisA-KLH conjugate. A competitive direct enzyme-linked immunosorbent assay (ELISA) whereby nisA-horseradish peroxidase and free nisA competed for antibody binding was devised. The detection limit for nisA in the competitive direct ELISA with the nisA-KLH-generated antibodies was from 5 to 100 ng/ml, while the amount of free nisA required for 50% antibody binding inhibition ranged from 0.3 to 5 micrograms /ml. Both antisera and ascites polyclonal antibodies cross-reacted with nisZ either in the supernatant of a producer strain or with the pure lantibiotic but did not cross-react at all with non-lantibiotic-type bacteriocins. These polyclonal antibodies should find a wide usage from nisA ELISA analysis in foods and other matrices.     

Detection of neutralizing antibodies against human T-cell leukemia virus type 1 using a cell-free infection system and polymerase chain reaction

We have developed a cell-free infection system to titrate neutralizing antibodies against human T-cell leukemia virus type 1 (HTLV-1) using the polymerase chain reaction (PCR). S+L-CCC (8C) feline kidney or U-251 MG human glioma cells were infected with a cell-free culture supernatant derived from HTLV-1-infected c77 feline cells. DNA was extracted from 8C or U-251 MG cells after incubation for 24 hr and amplified by PCR. The c77 cell supernatant gave discrete bands, whereas those of HTLV-1-positive T cells did not. When the inocula were treated with HTLV-1 antibody-positive human sera or the monoclonal or polyclonal antibody against the peptide 190-199 of HTLV-1 envelope protein gp46, the subsequent formation of HTLV-1 proviral DNA was inhibited. We determined the titers of neutralizing antibodies by densitometrically scanning the intensity of the PCR bands. These titers correlated well with those determined by the plaque assay using a pseudotype of vesicular stomatitis virus bearing the envelope antigens of HTLV-1. At high serum concentrations, many seronegative samples markedly inhibited the plating of the HTLV-1 pseudotype whereas they barely affected results obtained by PCR. Thus, the c77-PCR system can detect neutralizing antibodies against HTLV-1 even at low titers.     

Genotoxicity of neurotoxic triaryl phosphates: identification of DNA adducts of the ultimate metabolites, saligenin phosphates

2-Phenoxy-4H-1,3,2-benzodioxaphosphorin 2-oxide is an electrophilic and neurotoxic metabolite of o-tolyl phosphates. We have investigated the genotoxicity of this saligenin phosphate and the structure of adducts formed by incubation of 2-phenoxy-4H-1,3,2-benzodioxaphosphorin 2-oxide with nucleosides and DNA. o-Tolyl phosphate was mutagenic in the Ames test (695 revertants/mumol, Salmonella typhimurium TA 100) only with metabolic activation. 2-Phenoxy-4H-1,3,2-benzodioxaphosphorin 2-oxide, which is a cyclization product similar to those expected from o-tolyl phosphate, was a potent mutagen in bacteria (1452 revertants/mumol, S. typhimurium TA 100) which did not require metabolic activation. Incubation of 2-phenoxy-4H-1,3,2-benzodioxaphosphorin 2-oxide with guanosine, deoxycytidine, and deoxyadenosine resulted in formation of guanosine, deoxyuridine, and adenine adducts. These were identified as N-2-(o-hydroxybenzyl)guanosine, N-3-(o-hydroxybenzyl)deoxyuridine, N-1-(o-hydroxybenzyl)adenine, and N-3-(o-hydroxybenzyl)adenine by 1H-NMR spectroscopy, thermospray mass spectrometry, and pH-dependent electronic spectrometry. The deoxyuridine adduct is formed by an alkylation at N-3 of deoxycytidine followed by conversion of the adjacent exocyclic imino group to carbonyl (hydrolytic deamination). The formation of N-2-(o-hydroxybenzyl)-deoxyguanosine, N-3-(o-hydroxybenzyl)deoxyuridine, and N-1-(o-hydroxybenzyl)deoxyadenosine was also demonstrated when 2-phenoxy-4H-1,3,2-benzodioxaphosphorin 2-oxide was incubated with calf thymus DNA. Adducts formed with nucleosides in calf thymus DNA reacted with 2-phenoxy-4H-1,3,2-benzodioxaphosphorin 2-oxide in vitro were detected by the 32P-postlabeling technique and identified by comparison with synthetic references. DNA adducts are formed by an o-hydroxybenzylation from cyclic phosphoranes derived from o-alkyl-substituted triaryl phosphates.(ABSTRACT TRUNCATED AT 250 WORDS)     

DNA adducts of 2,3-epoxy-4-hydroxynonanal: detection of 7-(1', 2'-dihydroxyheptyl)-3H-imidazo[2,1-i]purine and 1,N6-ethenoadenine by gas chromatography/negative ion chemical ionization/mass spectrometry

2,3-Epoxy-4-hydroxynonanal (EH) is a bifunctional aldehyde formed by epoxidation of trans-4-hydroxy-2-nonenal, a peroxidation product of omega-6 polyunsaturated fatty acids. EH is mutagenic and tumorigenic and capable of modifying DNA bases forming etheno adducts in vitro. Recent studies showed that etheno adducts are present in tissue DNA of humans and untreated rodents, suggesting a potential endogenous role of EH in their formation. A sensitive assay is needed so we can determine whether EH is involved in etheno adduct formation in vivo and study the biological significance of the etheno adducts in DNA. In this study, we developed a gas chromatography/negative ion chemical ionization/mass spectrometry assay for the analysis of 1, N6-ethenoadenine (epsilonAde) and 7-(1', 2'-dihydroxyheptyl)-3H-imidazo[2,1-i]purine (DHH-epsilonAde) in DNA; both are products from the reaction of adenine with EH. The assay entails the following sequence of steps: (1) addition of [15N5]epsilonAde and [15N5]DHH-epsilonAde to DNA as internal standards, (2) acid hydrolysis of DNA, (3) adduct enrichment by C18 solid phase extraction (SPE), (4) derivatization by pentafluorobenzylation (PFB), (5) separation of PFB-epsilonAde and PFB-DHH-epsilonAde on a Si SPE column, (6) acetonide (ACT) formation of PFB-DHH-epsilonAde, and (7) GC/MS analysis with selective ion monitoring (SIM). The limit of detection by on-column injection for PFB-epsilonAde monitoring of the (M - PFB)- ion at m/z 158 was 30 amol and for ACT-PFB-DHH-epsilonAde monitoring of the (M - PFB)- ion at m/z 328 was 0.4 fmol; the detection limits for the entire assay were 6.3 fmol for epsilonAde and 36 fmol for DHH-epsilonAde. In calf thymus DNA modified with EH at 37 degreesC for 50 h, both epsilonAde and DHH-epsilonAde were detected at high levels by this method, 4.5 +/- 0.7 and 90.8 +/- 8.7 adducts/10(3) adenine, respectively. These levels were also verified by HPLC fluorescence analysis, indicating that EH extensively reacts with adenine in DNA, forming etheno adducts. The high sensitivity of the assay suggests that it may be used in the analysis of ethenoadenine adducts in vivo.     

Hydrogen peroxide causes RAD9-dependent cell cycle arrest in G2 in Saccharomyces cerevisiae whereas menadione causes G1 arrest independent of RAD9 function

This study shows differences at the level of cell cycle arrest between the response of yeast cells to hydrogen peroxide and superoxide stress. These include both cell cycle phases at which arrest occurs and the involvement of the RAD9 checkpoint gene. Wild-type and rad9 cells were treated with hydrogen peroxide or the superoxide-generating agent menadione. rad9 mutants were up to 100-fold more sensitive to hydrogen peroxide but not affected in their resistance to menadione. Hydrogen peroxide caused G2-phase arrest, whereas menadione-treated cells arrested in G1. G2 arrest, induced by methyl 2-benzimidazil carbamate, increased cellular resistance to hydrogen peroxide but not to menadione. G1 arrest mediated by alpha-factor caused an increase in survival of wild-type cells treated with menadione but not with hydrogen peroxide. A cdc28 mutant arrested in G1 was significantly more sensitive to hydrogen peroxide than other cdc mutants arrested in later phases, including G2. rad9 cells have normal stationary phase resistance to hydrogen peroxide, the ability to adapt to it, glutathione content and induction of genes via the stress responsive element. Although rad9-dependent G2 arrest is important, other rad9-dependent factors may be involved in the resistance of cells to hydrogen peroxide since arrest in G2 did not make rad9 cells fully resistant.     

Involvement of hydrogen peroxide production in erbstatin-induced apoptosis in human small cell lung carcinoma cells

Tyrosine kinase inhibitor, erbstatin, induced morphological apoptosis and DNA fragmentation in human small cell lung carcinoma (SCLC) cells. Erbstatin-induced apoptosis was inhibited by antioxidants, whereas erbstatin-inhibited tyrosine phosphorylation was not affected by them. Erbstatin was shown by means of flow cytometry to induce hydrogen peroxide generation. Furthermore, hydrogen peroxide induced morphological apoptosis and DNA fragmentation in the SCLC cells. We also demonstrated that erbstatin-induced hydrogen peroxide production and DNA fragmentation were partially suppressed by inhibition of protein synthesis. Thus, erbstatin-induced apoptosis would be due to hydrogen peroxide generation via newly synthesized protein.     

Selective inhibition of primary acute myeloid leukaemia cell growth by lovastatin

The insulin receptors from erythrocytes of 50 patients with non-insulin-dependent diabetes mellitus were tested for their ability to autophosphorylate. The assay was performed by a new enzyme-linked immunosorbent assay system that used monoclonal anti-insulin receptor antibodies absorbed to microtiter plates as a first antibody and polyclonal antiphosphotyrosine antibody as a labeled second antibody. By this assay, 3 patients were identified with defects in their insulin receptor kinase, although their defects appeared heterogeneous. Patient 1 had 85% less maximal autophosphorylation with a normal ED50 (1.6 x 10(-9) M insulin). Patient 2, who had polycystic ovary disease, had a 49.2% decrease in maximal autophosphorylation of insulin receptors, and the ED50 was shifted to the right (5.6 x 10(-8) M). Patient 3 with acanthosis nigricans had a normal maximal autophosphorylation, but the ED50 shifted to the right (2.9 x 10(-8) M). The mechanisms for the diversity detected in this assay is not known, but this technique has sufficient specificity and sensitivity to be used to screen for insulin-resistant patients who have a lack of kinase activity.     

Probing the basis of antibody reactivity with a panel of constrained peptide libraries displayed by filamentous phage

The structural requirements for peptide binding to an antibody may be elucidated by probing it with a variety of peptides having different constraints. To this end, we have constructed and screened a panel of peptide libraries displayed by filamentous bacteriophage. The peptides in most of the libraries have the potential for constraint by fixed Cys residues, which have been placed at different sites within a randomized amino acid sequence of varying length. When taken together, the binding data obtained from screening the panel with a given antibody allow one to determine the types of constraints that promote binding, as well as the residues that are critical for binding. We describe the construction of 11, pVIII-displayed, peptide libraries, whose sizes range from 150 million to 10 billion clones. The libraries were screened with a number of polyclonal and monoclonal antibodies against peptides, proteins and carbohydrates. Cross-reactivity with peptides was always found for antibodies produced against peptides, linear epitopes on folded proteins and, surprisingly, carbohydrates, whereas antibodies against discontinuous epitopes on proteins were found less frequently. The implications of these results are discussed in terms of the structural basis for cross-reactivity with peptides.     

Development and comparison of assays for measuring immunospecific antibody response in serum of chickens and rabbits immunized with human immunoglobulin G

The antibody response development during polyclonal antibody production is a relevant parameter to monitor during the immunization period to be able to optimize the immunization protocol and to determine the optimal antibody harvest time. Although rabbits and other mammals are most often used for polyclonal antibody production, the chicken is a relevant alternative. There are both scientific reasons, economic reasons, and animal welfare reasons to consider when choosing the chicken instead of a mammal for this purpose, because antibodies in generous quantities can be harvested from the egg yolk. This study compared different assays for measuring antibody response in rabbit and chicken serum. An inhibition liquid phase absorption assay (ILPAA), a rocket immunoelectrophoresis (RIE) assay, and a line immunoelectrophoresis (LIE) assay were compared to ELISAs. The ELISA proved to be the most useful assay for routine use, as it was less time-consuming and because the assay could easily be adapted to both serum antibody types. However, electrophoretic assays were the most useful as combined analytical and quantitative tools and must be considered essential when analyzing specificities of polyclonal antibody preparations.     

Autoantibody to DNA topoisomerase II in primary liver cancer

A patient with chronic hepatitis associated with hepatitis C virus infection was observed to convert from antinuclear antibody-negative to antinuclear antibody-positive status at the time when liver cancer was detected. The newly recognized antibodies reacted with a nuclear protein doublet of 170 and 180 kDa in immunoblotting, and in fluorescence-activated flow cytometry the antigens were shown to vary in expression level in a cell cycle-related manner: minimum in G1, increasing in S, and maximum in G2 and M. In synchronized HeLa and HEp-2 cells, immunofluorescence microscopy showed uniformly distributed staining of the nucleoplasm in S-phase, with increased intensity of nucleoplasmic staining in G2, at which time nucleolar staining was also present. In M, condensed chromosomes were uniformly stained. Using previously characterized polyclonal antibodies to DNA topoisomerase II (topo II) as reference markers, the antigens recognized by the patient's serum were shown in Western blotting to have the same mobilities as DNA topo IIalpha (170 kDa) and beta (180 kDa) isoforms. The patient's serum was also highly efficient in inhibiting DNA topo II in an in vitro functional assay. Antibody to DNA topo II appeared de novo in close association with transformation to cancer, and since dysregulation of DNA topo II is considered to be involved in some forms of tumorigenesis, the observed antibody response in this patient could conceivably be an immune reaction to the abnormally regulated protein.     

An investigation of the high-avidity antibody response to glycoprotein 120 of human immunodeficiency virus type 1

The avidity of antibodies for antigens can be measured by determining what remains bound after exposing the antibody-antigen complex to a chaotropic agent such as urea. This method has been gaining popularity for assessing the immune response to the human immunodeficiency virus type 1 (HIV-1) surface glycoprotein gp120 (or its counterpart from simian immunodeficiency virus), during natural infection or after subunit vaccination. High-avidity antibodies have been considered to be a possible correlate of protection. We have examined the avidity assay to determine what it, in fact, measures. First, we studied the development of the anti-gp120 response in seroconverting individuals. Urea elution reduced the polyclonal anti-gp120 titers by 3- to 10-fold. After allowing for the consequent reduction in assay sensitivity, there was no obvious change in the rate of development of the high-avidity and unfractionated antibody responses. Furthermore, in the one individual who developed a strong autologous, virus-neutralizing response, the appearance of neutralizing antibodies and high-avidity antibodies did not coincide. Antibodies to the V3 loop, when present, comprised a major fraction of the polyclonal response that survives urea elution. We next examined the effect of urea elution on the binding to gp120 of a panel of monoclonal antibodies (MAbs). Urea treatment preferentially eluted MAbs to discontinuous rather than continuous epitopes, independent of their affinities. Furthermore, these patterns of epitope stability were unaltered by the presence of polyclonal anti-gp120 antibodies. As most broadly neutralizing anti-gp120 antibodies recognize discontinuous epitopes, this skewing effect must be taken into account when interpreting studies using polyclonal sera.     

Immunochemical analysis of UMP kinase from Escherichia coli

Mono- and polyclonal antibodies directed against UMP kinase from Escherichia coli were tested with the intact protein or with fragments obtained by deletion mutagenesis. As detected in enzyme-linked immunosorbent assay tests, the carboxy-terminal quarter of UMP kinase is immunodominant. Polyclonal antibodies inhibited the enzyme activity with partial or total loss of allosteric effects exerted by UTP and GTP, respectively. These data indicate that the UTP and GTP binding sites in UMP kinase are only partially overlapping. One monoclonal antibody (44-2) recognized a linear epitope in UMP kinase between residues 171 and 180. A single substitution (D174N) in this segment of the enzyme abolished its interaction with the monoclonal antibody (44-2). Polyclonal antisera were used to identify UMP kinase in the bacterial proteome. The enzyme appears as a single spot on two-dimensional electrophoresis at a pI of 7.24 and an apparent molecular mass of 26 kDa. Immunogold labeling of UMP kinase in whole E. coli cells shows a localization of the protein near the bacterial membranes. Because the protein does not contain sequences usually required for compartmentalization, the aggregation properties of UMP kinase observed in vitro might play a role in this phenomenon. The specific localization of UMP kinase might also be related to its putative role in cell division.     

Characterization of monoclonal antibodies generated against bovine and porcine prostacyclin synthase and quantitation of bovine prostacyclin synthase

Monoclonal antibodies were raised against prostacyclin synthases purified from bovine and porcine aortae, respectively. Two monoclonal antibodies, RS1 and RS2, were purified and characterized. As shown by enzyme activity precipitation and Western blot analysis, in solubilized bovine and porcine aortae microsomes the monoclonal antibodies reacted only with prostacyclin synthase. The monoclonal antibody RS1 cross-reacts with partially purified prostacyclin synthase from human umbilical veins in an ELISA-based assay. None of the antibodies inhibited the enzyme activity. By combination of the monoclonal antibody RS2 with a polyclonal antibody we established an enzyme-linked immunosorbent assay (ELISA) for quantitation of bovine prostacyclin synthase. ELISA data were confirmed by Western blot analysis. Among different bovine tissues, aortae with 1665 +/- 200 ng/mg microsomal protein showed the highest content of PGIS. Significant lower concentrations were observed in tongue, lung, kidney and thymus ranging from 49 +/- 13.4 to 2.7 +/- 0.9 ng/mg protein. The monoclonal antibody RS1 binds to endothelial cells and vascular smooth muscle cells in human liver tissue.     

Characterization of monoclonal antibodies to ovine tumor necrosis factor-alpha and development of a sensitive immunoassay

Monoclonal antibodies (mAbs) and a polyclonal rabbit antiserum were raised against recombinant ovine tumor necrosis factor-alpha (rovTNF alpha). Ten mAbs specific for rovTNF alpha were isolated and designated TNF1-10. All mAbs were of the IgG1 isotype and reacted with rovTNF alpha in Western blot analysis. Eight of the ten mAbs, TNF1, TNF3-7 and TNF9 and 10, completely blocked the activity of rovTNF alpha and macrophage derived native ovTNF alpha, as measured by their ability to inhibit TNF alpha-mediated lysis of WEHI-164 or L929 cells. In addition, TNF3, -7, -9 and -10 blocked the cytolytic activity of recombinant human TNF alpha (rhuTNF alpha). However, when tested for the ability to inhibit TNF alpha induced thymocyte proliferation, only mAbs TNF1, -3, -5, -7, -9 and -10 could completely block activity. Competitive binding analysis using unlabelled and horseradish peroxidase (HRPO) labelled mAbs indicated that the mAbs could be divided into five groups based on their reactivity with rovTNF alpha. The mAbs were used to develop a sensitive sandwich immunoassay for the detection of ovTNF alpha. All combinations of mAbs and the polyclonal antiserum were tested to determine which pair of antibodies gave the most sensitive assay. The combination of TNF5 as the capture antibody and the polyclonal antiserum gave the most sensitive result, detecting less than 0.24 ng rovTNF alpha ml-1. A similar sensitivity was obtained when TNF4 was used as the capture antibody and TNF10 HRPO labelled mAb as the second antibody. The immunoassay was more sensitive than the WEHI-164 bioassay which had a detection limit of 1 ng ml-1 for rovTNF alpha. This immunoassay also detected glycosylated ovTNF alpha in the supernatant of COS-7 cells which had been transfected with an ovTNF alpha cDNA.     

Paracrine regulation of talin mRNA expression by androgen in human prostate

The amino acid residue Asn141 of the restriction endonuclease EcoRI was proposed to make three hydrogen bonds to both adenine residues within the recognition sequence -GAATTC-. We have mutated Asn141 to alanine, aspartate, serine, and tyrosine. Only the serine mutant is active under normal buffer conditions although 1000-fold less than wild-type EcoRI. The alanine and aspartate mutants can be activated by Mn2+. At acidic pH the latter mutant becomes even more active than the wild-type enzyme in the presence of Mn2+. We conclude that Asn141 is essential for DNA recognition and that serine can partly substitute it.     

Reservations and preferences among procurement professionals concerning the donation of specific organs and tissues

The aim of this study was to analyze the ability of an alloantibody from a patient with severe von Willebrand disease (vWD) to interfere with the vWF domain for FVIII, to inhibit factor VIII (FVIII), and to compare it with a rabbit polyclonal antibody. The vWF domain for binding to FVIII was assayed by a method previously described but using recombinant FVIII (r-FVIII, Kogenate), which contains no vWF, instead of Hemofil M (HM). Rabbit or human antibodies towards FVIII (FVIII-Ab) were analyzed using microtiter wells with immobilized r-FVIII through a monoclonal anti-FVIII antibody and an ELISA method. IgG from plasma of a patient with hemophilia A and FVIII inhibitor was used as a positive control. Normal human and rabbit IgGs were included as negative controls. Human vWD alloantibody IgG and the rabbit anti-vWF antibody IgG reacted with immobilized normal vWF, inhibiting its binding to r-FVIII in a dose-dependent manner, which suggests that it is specific. Normal human IgG fraction, as well as nonspecific rabbit IgG, did not interfere with this binding at all. The monoclonal antibody used in this assay to immobilize vWF did not alter this interaction at all. Human vWD alloantibody IgG and the rabbit antibody against vWF showed a partial inhibitory activity to plasma FVIII as well as r-FVIII. The inhibition reached a plateau with residual FVIII activity. FVIII-Ab were not detected in human alloantibody or in rabbit antibody preparations. In contrast, hemophiliac FVIII inhibitor showed FVIII-AB. This human vWD alloantibody behaves like polyclonal heterologous antibodies, and their inhibition of FVIII seems to be nonspecific due to a steric hindrance mechanism provided that both have no FVIII antibodies.     

Co-localization of human growth hormone and human prolactin in hormonally pure human growth hormone-producing pituitary adenomas

Co-localization of human growth hormone (hGH) and human prolactin (hPRL) in hGH-producing pituitary adenomas was examined by electron microscopy with immunoblot analysis. At the electron microscopic level using anti-hGH or anti-hPRL polyclonal antibody, hGH and hPRL were found to be co-localized within each of the secretory granules in one of five cases. Double-labeling electron immunocytochemistry using colloidal gold particles of different sizes was effective in demonstrating this co-localization. As an additional step, we performed immunoblot analysis of hGH-producing pituitary adenomas using monoclonal antibodies. Four hGH-producing adenomatous tissue samples contained several hPRL-immunoreactive bands. In Case 2, the main 23K hPRL band was stained especially strongly The immunoblotting analysis of purified hGH using both anti-hPRL polyclonal antibody and monoclonal antibody to asses cross-reaction of the polyclonal anti-hPRL antisera with hGH revealed that both monoclonal and polyclonal antibodies were suitable for determining the co-localization. Double-labeling techniques using anti-hGH and anti-hPRL monoclonal antibodies demonstrated that only a few secretory granules were positive for co-localization of both hGH and hPRL (Case 2). The present study, which used not only polyclonal but also monoclonal antibodies, suggests that some hGH-producing pituitary adenomas contained both hPRL and hGH in the same secretory granules of tumor cells.     

Positive end-expiratory pressure facilitates washout of nitrous oxide in patients with obstructive pulmonary disease

The binding of native and reactive oxygen species-modified DNA (ROS-DNA) to circulating antibodies in the serum of patients with various types of cancer has been investigated by competition enzyme-linked immunosorbent assay. Fifteen sera of 35 showed reactivity with native and/or ROS-DNA. Eleven of these showed higher binding to ROS-DNA (36-64% inhibition), whereas 1 showed higher reactivity with native DNA (nDNA) (42% inhibition). Three sera reacted with both native and ROS-DNA almost equally. Oxidative lesions in human genomic DNA were immunochemically detected using an anti-ROS-DNA monoclonal antibody (MAb) probe. Two of 3 DNA isolates from blood of breast cancer patients, 1 of 3 from lung cancer and 1 of 2 each from hepatocellular cancer and cancer of the gallbladder were reactive with the MAb. Higher recognition of ROS-DNA by circulating antibodies and DNA isolated from cancer patients by the MAb indicates increased oxidative stress leading to DNA damage. Our results suggest that ROS modification of DNA probably alters its immunogenicity leading to the generation of antibodies to ROS-DNA, probably by the activation of autoreactive cells. The induced antibodies against modified DNA are cross-reactive to native DNA.