Molecular basis for the immunostimulatory activity of guanine nucleoside analogs: activation of Toll-like receptor 7

Certain C8-substituted and N7, C8-disubstituted guanine ribonucleosides comprise a class of small molecules with immunostimulatory activity. In a variety of animal models, these agents stimulate both humoral and cellular immune responses. The antiviral actions of these guanosine analogs have been attributed to their ability to induce type I IFNs. However, the molecular mechanisms by which the guanosine analogs potentiate immune responses are not known. Here, we report that several guanosine analogs activate Toll-like receptor 7 (TLR7). 7-Thia-8-oxoguanosine, 7-deazaguanosine, and related guanosine analogs activated mouse immune cells in a manner analogous to known TLR ligands, inducing cytokine production in mouse splenocytes (IL-6 and IL-12, type I and II IFNs), bone marrow-derived macrophages (IL-6 and IL-12), and in human peripheral blood leukocytes (type I IFNs, tumor necrosis factor alpha and IL-12). The guanosine congeners also up-regulated costimulatory molecules and MHC I/II in dendritic cells. Genetic complementation studies in human embryonic kidney 293 cells confirmed that the guanosine analogs activate cells exclusively via TLR7. The stimulation of TLR7 by the guanosine analogs in human cells appears to require endosomal maturation because inhibition of this process with chloroquine significantly reduced the downstream activation of NF-kappaB. However, TLR8 activation by R-848 and TLR2 activation by [S-[2,3-bis(palmitoyloxy)-(2-RS)-propyl]-N-palmitoyl-R-Cys-S-Ser-Lys4-OH, trihydrochloride)] were not inhibited by chloroquine, whereas TLR9 activation by CpG oligodeoxynucleotides was abolished. In summary, we present evidence that guanosine analogs activate immune cells via TLR7 by a pathway that requires endosomal maturation. Thus, the B cell-stimulating and antiviral activities of the guanosine analogs may be explained by their TLR7-activating capacity.

Determination of 8-oxoguanine in DNA by gas chromatography--mass spectrometry and HPLC--electrochemical detection: overestimation of the background level of the oxidized base by the gas chromatography--mass spectrometry assay

Two analytical methods, one involving the combined use of reverse-phase HPLC and electrochemical detection (HPLC-EC) and one involving a mass spectrometric detection after gas chromatography separation (GC/MS), were developed for the detection of 8-oxoguanine in DNA. In order to obtain quantitative results, 2,6-diamino-8-oxopurine, whose chemical structure and electrochemical response are very similar to 8-oxoguanine, has been employed as an internal standard in the HPLC-EC assay. In the case of the GC/MS method, an isotopically stable (M + 4) 8-oxoguanine has been employed as an internal standard. Both methods are able to detect approximately 1 modification per 10(6) DNA bases. The background level of 8-oxoguanine in DNA as determined by GC/MS is approximately 50-fold higher than that determined by the HPLC-EC assay. The discrepancy between the two methods is due to an artifactual oxidation of guanine during the derivatization reaction as demonstrated by using pure guanine. The amount of 8-oxoguanine in guanine, determined by GC/MS, increases linearly with the time of derivatization, indicating that an oxidation occurs during the silylation reaction. Derivatization under nitrogen atmosphere reduces but does not suppress the artifactual oxidation. The amount of 8-oxoguanine in DNA, quantified by GC/MS, is comparable to that obtained by HPLC-EC when 8-oxoguanine is prepurified by HPLC or by immunoaffinity chromatography, prior to the silylation reaction. The artifactual formation of 8-oxoguanine during the derivatization reaction may explain, at least in part, why the values reported for 8-oxoguanine determination by GC/MS are generally about 1 order of magnitude higher than that determined by HPLC-EC. Prepurification of 8-oxoguanine from guanine is recommended in order to obtain reliable results by GC/MS which may be compared to HPLC-EC.

Oxidative and nitrative DNA damage as biomarker for carcinogenesis with special reference to inflammation

Reactive oxygen and nitrogen species are known to participate in a wide variety of human diseases. Oxidative DNAdamage is involved in chemical carcinogenesis and aging. Monocyclic chemicals induce mainly oxidative DNAdamage, whereas polycyclic chemicals can induce oxidative DNA damage in addition to DNA adduct formation. Recently, chronic infection and inflammation have been recognized as important factors for carcinogenesis. Nitrative DNA damage as well as oxidative DNA damage is induced in relation to inflammationrelated carcinogenesis. The authors examined the formation of 8-nitroguanine, a nitrative DNA lesion, in humans and animals under inflammatory conditions. An immunofluorescence labeling study demonstrated that 8-nitroguanine was strongly formed in gastric gland epithelial cells in gastritis patients with H. pylori infection, in hepatocytes in patients with hepatitis C, and in oral epithelium of patients with oral lichen planus. 8-Nitroguanine was also formed in colonic epithelial cells of model mice of inflammatory bowel diseases and patients with ulcerative colitis. Interestingly, 8-nitroguanine was formed at the sites of carcinogenesis regardless of etiology. Therefore, 8-nitroguanine could be used as a potential biomarker to evaluate the risk of inflammation- related carcinogenesis.

Differential CD52 expression by distinct myeloid dendritic cell subsets: implications for alemtuzumab activity at the level of antigen presentation in allogeneic graft-host interactions in transplantation

Alemtuzumab (anti-CD52; Campath 1-H) depletes both host and donor T cells when used in preparative regimens for allogeneic transplantation. This promotes engraftment even after nonmyeloablative conditioning and limits graft-versus-host disease (GVHD) even after unrelated or major histocompatibility complex (MHC) disparate allografts. We asked whether anti-CD52 differentially targets antigen-presenting cells (APCs), in addition to depleting T cells. Monocyte-derived dendritic cells (moDCs) expressed abundant CD52 as expected. Langerhans cells (LCs) and dermal-interstitial DCs (DDC-IDCs), however, never expressed CD52. Immunostaining of skin and gut confirmed the absence of CD52 on these resident DC populations under both steady-state and inflammatory conditions. Although anti-CD52 functions primarily by antibody-dependent cellular cytotoxicity (ADCC) in vivo, assessment of its activity in vitro included complement-dependent lysis of CD52(+) cells. Anti-CD52 did not impair DC-T-cell adhesion, diminish DC-stimulated T-cell proliferation, or alter moDC development in vitro. We propose that anti-CD52 abrogates GVHD not only by T-cell depletion, but also by removing moDCs and their precursors. This would mitigate moDC phagocytosis and presentation of host-derived antigens to donor T cells in the inflammatory peritransplantation environment, thereby limiting GVHD. The sparing of LCs and DDC-IDCs by anti-CD52, as well as the recovery of donor-derived moDCs in a less inflammatory environment later after transplantation, may allow all these DCs to exert formative roles in graft-versus-tumor (GVT) reactions and immune reconstitution. Whether these results support a separation of deleterious from beneficial graft-host interactions at the level of antigen presentation, rather than solely at the level of T cells, will require further evaluation.

Adduct-specific monoclonal antibodies for the measurement of cisplatin-induced DNA lesions in individual cell nuclei

The anticancer drug cisplatin executes its cytotoxic activity via formation of intra- and interstrand crosslinks in DNA. The relative contribution of structurally defined cisplatin adducts to induce apoptosis and the cellular processing of these lesions is still poorly understood mostly due to the lack of sensitive analytical tools for in vivo studies. Here we describe a new method to establish and characterize monoclonal antibodies (Mab) for structurally defined DNA adducts. The two major reaction products of cisplatin, the guanine–guanine (Pt-[GG]) and adenine–guanine (Pt-[AG]) intrastrand crosslinks are recognized by Mab R-C18 and R-B3, respectively. Both antibodies were employed in an immuno-cytological assay allowing the quantification of drug-induced lesions in individual cell nuclei at clinically relevant doses. Analyzing various tissues of cisplatin-treated C57Bl/6 mice the accumulation of Pt-(GG) was highest in kidney tubular cells compared with 30, 50 and 90% lower levels in kidney stroma, liver and peripheral blood cells, respectively. Adduct kinetics revealed that wild type mouse cells remove up to 80% of the crosslinks in contrast to their complete persistence in nucleotide excision repair-deficient (XPC^−/−) mice. The aptitude of the immunoassay for human molecular dosimetry studies was demonstrated by measuring adduct levels in tumor biopsies from patients treated with cisplatin.

Immunoaffinity isolation of urinary 8-hydroxy-2'-deoxyguanosine and 8-hydroxyguanine and quantitation of 8-hydroxy-2'-deoxyguanosine in DNA by polyclonal antibodies

An immunoaffinity column is described that facilitates the analysis of oxidative DNA damage. DNA adducts excised from DNA are excreted in urine and can be assayed as a measure of DNA damage in individuals. Polyclonal antibodies that recognize 8-hydroxy-2'-deoxyguanosine (oh8dG), a biomarker of oxidative damage to DNA, have been produced and their binding properties characterized. The antibodies, raised in rabbits following immunization with protein carrier-hapten conjugates prepared by covalently linking periodate-treated 8-hydroxyguanosine (oh8G) to bovine serum albumin (BSA) or casein, bind oh8dG with high affinity and selectivity, as measured by a competitive radioimmunoassay (RIA). Antibodies obtained from the rabbits immunized with the casein conjugate exhibited a binding affinity for oh8dG of 6.9 x 10(8) M-1. Studies on the relative binding affinities of these polyclonal antibodies for oh8dG, unmodified nucleosides, or derivatives of guanine indicate that the antibodies are suitable for the preparation of immunoaffinity columns that permit us to rapidly isolate oh8dG and 8-hydroxyguanine (oh8Gua) from urine. The high selectivity of the antibodies for oh8dG and oh8G reduces the amount of urinary contaminants previously observed in samples prepared by solid phase extraction, thus greatly facilitating the isolation of these damage products from urine. The relative binding affinity of these antibodies for oh8Gua and 2'-deoxyguanosine were approximately 7.6 x 10(3) and 7.4 x 10(4) fold lower respectively, than the binding affinity for oh8dG. The antibody can be used to quantitate oh8dG in enzymatic hydrolyzates of DNA with values comparable to those obtained by HPLC with electrochemical detection (HPLC-EC).

8-nitroguanine formation in the liver of hamsters infected with Opisthorchis viverrini

Nucleic acid damage by reactive nitrogen and oxygen species may contribute to the carcinogenesis associated with chronic infection and inflammation. We examined 8-nitroguanine and 8-oxo-7,8-dihydro-2'-deoxyguanosine (8-oxodG) formation and nitric oxide (NO) production in hamsters infected with Opisthorchis viverrini (OV). Formation of 8-nitroguanine was assessed immunohistochemically with an antibody specific for 8-nitroguanine. 8-nitroguanine formation was found mainly in the cytoplasm and slightly in the nucleus of inflammatory cells and epithelial lining of bile duct at inflammatory areas in the liver. 8-nitroguanine immunoreactivity reached the highest intensity on day 30. A time profile of 8-nitroguanine formation was closely associated with that of plasma nitrate/nitrite. HPLC with an electrochemical detector revealed that the amount of 8-oxodG in the liver reached the maximal level on day 21. The mechanisms of 8-oxodG and 8-nitroguanine formation via O2*- and NO production triggered by OV infection were discussed in relation to cholangiocarcinoma development.

Blocking neutrophil influx reduces DNA damage in hyperoxia-exposed newborn rat lung

Hyperoxia-induced neutrophil infux in neonatal rats may contribute to impaired lung development through oxidative DNA damage. To determine whether blocking neutrophil influx prevents DNA damage, we treated newborn rats with 95% O2 beginning at birth, and at 3 and 4 d with nonimmune immunoglobulin G (IgG) (control) or anti-cytokine-induced neutrophil chemoattractant (CINC). At 8 d, lungs were inflation-fixed. Random sections were labeled using terminal transferase nick end-labeling (TUNEL), and DNA oxidation was measured using anti-8-OH-2'-deoxyguanosine (OHdG). To determine whether hyperoxia-induced TUNEL represented apoptosis, we labeled sections with anti-Bax (proapoptotic) and anti-Bcl-2 (antiapoptotic). We labled additional sections with anti-M30, directed against an epitope formed by caspase 6 digestion of cytokeratin 18 during apoptosis. Hyperoxia induced marked increases in TUNEL and OHdG signal in lung parenchymal cells, which was substantially prevented by treatment with anti-CINC. The large effects of hyperoxia on TUNEL were not accompanied by substantial effects on Bax, Bcl-2, or M30. We conclude that neutrophil influx during hyperoxia damages DNA by nicking and oxidation, and that blocking neutrophil influx can prevent this. Effects of 95% O2 on TUNEL are not primarily due to apoptosis in this model. Neutrophil-mediated oxidative DNA damage may contribute to abnormal lung development in newborns subjected to significant oxidative stress.

Fluorescence detection of 8-oxoguanine in nuclear and mitochondrial DNA of cultured cells using a recombinant Fab and confocal scanning laser microscopy

The presence of 8-oxoguanine (8-oxoG) in DNA is considered a marker of oxidative stress and DNA damage. We describe a multifluorescence technique to detect the localization of 8-oxoG in both nuclear and mitochondrial DNA using a mouse recombinant Fab 166. The Fab was generated by repertoire cloning and combinatorial phage display, and specifically recognized 8-oxoG in DNA, as determined by competitive enzyme-linked immunosorbent assays (ELISAs). In situ detection of 8-oxoG was accomplished using rat lung epithelial (RLE) cells and human B lymphoblastoid (TK6) cells treated with hydrogen peroxide (H(2)O(2)) or ionizing radiation, respectively. Using confocal scanning laser microscopy, we observed nuclear and perinuclear immunoreactivity of 8-oxoG in control cultures. The simultaneous use of a nuclear DNA stain, propidium iodide, or the mitochondrial dye, MitoTracker (Molecular Probes, Eugene, OR, USA), confirmed that 8-oxoG immunofluorescence occurred in nuclear and mitochondrial DNA. Marked increases in the presence of 8-oxoG in nuclear DNA were apparent after treatment with H(2)O(2) or ionizing radiation. In control experiments, Fab 166 was incubated with 200 microM purified 8-oxodG or with formamidopyrimidine DNA-glycosylase (Fpg) to remove 8-oxoG lesions in DNA. These protocols attenuated both nuclear and mitochondrial staining. We conclude that both nuclear and mitochondrial oxidative DNA damages can be simultaneously detected in situ using immunofluorescence labeling with Fab 166 and confocal microscopy.

Contrasting genome-wide distribution of 8-hydroxyguanine and acrolein-modified adenine during oxidative stress-induced renal carcinogenesis

Oxidative stress is a persistent threat to the genome and is associated with major causes of human mortality, including cancer, atherosclerosis, and aging. Here we established a method to generate libraries of genomic DNA fragments containing oxidatively modified bases by using specific monoclonal antibodies to immunoprecipitate enzyme-digested genome DNA. We applied this technique to two different base modifications, 8-hydroxyguanine and 1,N6-propanoadenine (acrotein-Ade), in a ferric nitrilotriacetate-induced murine renal carcinogenesis model. Renal cortical genomic DNA derived from 10- to 12-week-old male C57BL/6 mice, of untreated control or 6 hours after intraperitoneal injection of 3 mg iron/kg ferric nitrilotriacetate, was enzyme digested, immunoprecipitated, cloned, and mapped to each chromosome. The results revealed that distribution of the two modified bases was not random but differed in terms of chromosomes, gene size, and expression, which could be partially explained by chromosomal territory. In the wild-type mice, low GC content areas were more likely to harbor the two modified bases. Knockout of OGG1, a repair enzyme for genomic 8-hydroxyguanine, increased the amounts of acrolein-Ade as determined by quantitative polymerase chain reaction analyses. This versatile technique would introduce a novel research area as a high-throughput screening method for critical genomic loci under oxidative stress.

Analysis of urinary 8-nitroguanine, a marker of nitrative nucleic acid damage, by high-performance liquid chromatography-electrochemical detection coupled with immunoaffinity purification: association with cigarette smoking

We have developed an analytical method to quantitate urinary 8-nitroguanine, a product of nitrative nucleic acid damage caused by reactive nitrogen species such as peroxynitrite and nitrogen dioxide. 8-Nitroguanine was purified from human urine using immunoaffinity columns with an anti-8-nitroguanine antibody, followed by quantitation by high-performance liquid chromatography-electrochemical detection. Four sequential electrodes were used to (a) oxidize interfering compounds (+250 mV), (b) reduce nitrated bases (two online electrodes at -1000 mV), and (c) quantitate reduced derivatives (+150 mV). Using this system 8-nitroxanthine can also be detected, with the detection limits being 25 and 50 fmol/injection for 8-nitroguanine and 8-nitroxanthine, respectively. The method was used to analyze both adducts in the urine of smokers (n=12) and nonsmokers (n=17). We found that smokers excrete more 8-nitroguanine [median, 6.1 fmol/mg creatinine; interquartile range (IQR), 23.8] than nonsmokers (0; IQR, 0.90) (p=0.018), and although 8-nitroxanthine was detected in human urine, its level was not related to smoking status. This is the first report to show that 8-nitroguanine is present in human urine and the methodology developed can be used to study the pathogenic roles of this adduct in the etiology of cancers associated with cigarette smoking and inflammation.

Immunochemical detection of adducts of sulfur mustard to DNA of calf thymus and human white blood cells

As part of a program to develop methods for dosimetry of exposure to sulfur mustard, we developed immunochemical methods for the detection of the major adduct, N7-[2-[(hydroxyethyl)thio]ethyl]guanine (N7-HETE-Gua), formed after alkylation of DNA with sulfur mustard. After immunization of rabbits with calf thymus DNA treated with sulfur mustard, we obtained the antiserum W7/10 with a high specificity for DNA adducts of sulfur mustard. With this serum, a competitive enzyme-linked immunosorbent assay was developed in which sulfur mustard adducts to DNA could be detected with a minimum detectable amount of 1-5 fmol per well and a selectivity that allows detection of one N7-HETE-Gua among 5 x 10(6) unmodified nucleotides in single-stranded DNA. The complications that arise to isolate double-stranded DNA from biological samples and to make the DNA single-stranded without destruction of the sulfur mustard adducts result in about a 20-fold higher limit for adduct detection in DNA from human blood than in single-stranded DNA. Presently, adducts in white blood cells can be detected after exposure of human blood to sulfur mustard concentrations > or = 2 microM. We synthesized N7-HETE-GMP for use as a hapten to generate monoclonal antibodies against this adduct. After immunization of mice with this adduct coupled to the carrier protein keyhole limpet hemocyanin we obtained several hybridomas producing monoclonal antibodies that recognize N7-HETE-Gua, containing an intact imidazolium ring. The sensitivity of the competitive ELISA with the monoclonal antibodies was comparable to that of the assays performed with the rabbit antiserum.(ABSTRACT TRUNCATED AT 250 WORDS)

Guanine and mite allergenicity in house dust

Guanine is the major nitrogenous waste product in arachnids. It may serve as an indicator for allergenic mite faecal pellets. The present study assesses the correlation between the mit allergenicity of different house dust (HD) samples and their guanine content. Guanine content in HD samples was evaluated either by the Acarex-Test or determined quantitatively, especially for in-vitro methods. Using intradermal tests in selectively sensitized Dermatophagoides pteronyssinus (Dpt) patients, we evaluated the mite allergenicity of eight extracts obtained from HD samples with varying guanine contents. The weal area appeared to be proportional to the HD samples' guanine content. A three-fold increase in skin reactivity was observed when the guanine content varied from 0.06% to more than 1%. Patients allergic to HD but not to Dpt had no significant reactions with HD extract prepared from a guanine-rich HD sample. For eighteen different HD samples coupled to paper discs, the percentage Dpt RAST binding values obtained with a Dpt-selectively sensitized patient serum pool was correlated with the guanine concentrations of HD samples (P less than 0.01). The potencies of different HD extracts obtained from HD samples that varied in guanine content were also clearly distinguished on histamine-release titration curves. House dust obtained from homes at high altitude or from hospitals was generally guanine free. The HD sample guanine contents in homes where twelve Dpt-sensitized patients experienced symptoms were significantly higher than in homes where these patients were symptom free. The guanine colour test, a quick and easy technique, represents an important new development in indoor environmental investigations. It makes it possible to demonstrate mite faecal exposure and can be used to monitor the effectiveness of mite allergen avoidance measures.

The influence of DNA sequence on the immunostimulatory properties of plasmid DNA vectors

To determine the influence of DNA sequence on immunostimulatory properties of vaccine vectors, we tested the induction of in vitro and in vivo immune responses by plasmids modified to contain extended runs of dG sequences. Studies with oligonucleotides indicate that dG sequences can directly stimulate B cells as well as enhance the activity of immunostimulatory CpG motifs because of interaction with the macrophage scavenger receptor (MSR); this receptor can bind a variety of polyanions including dG sequences. To modify vectors, we introduced stretches of 20-60 dG residues into the pCMV-beta and pSG5rab.gp vectors and measured the ability of these plasmids to induce IL-12 and IFN-gamma production by murine splenocytes. The induction of in vivo antibody responses to rabies glycoprotein was also assessed with the pSG5rab.gp vectors. In in vitro cultures, cytokine production induced by plasmids with and without dG sequences was similar. Furthermore, the addition of dG sequences to pSG5rab.gp vectors failed to enhance the anti-rabies glycoprotein response to immunization. To assess further mechanisms by which plasmids stimulate macrophages, we measured the effects of MSR ligands on in vitro cytokine induction. In in vitro cultures, poly(G), dG30, and fucoidan inhibited IL-12 induction by plasmids. IL-12 induction was also inhibited by mammalian DNA but was unaffected by polyanions that are not MSR ligands. Together, these results suggest that the addition of 20 to 60-base dG sequences to plasmids does not significantly affect their properties as immunostimulators or vaccines. Furthermore, these results suggest that MSR ligands can block cytokine induction by plasmid DNA whether or not the plasmid contains extended runs of dG.

Inside-Out Signaling Pathways from Nuclear Reactive Oxygen Species Control Pulmonary Innate Immunity

The airway mucosa is responsible for mounting a robust innate immune response (IIR) upon encountering pathogen-associated molecular patterns. The IIR produces protective gene networks that stimulate neighboring epithelia and components of the immune system to trigger adaptive immunity. Little is currently known about how cellular reactive oxygen species (ROS) signaling is produced and cooperates in the IIR. We discuss recent discoveries about 2 nuclear ROS signaling pathways controlling innate immunity. Nuclear ROS oxidize guanine bases to produce mutagenic 8-oxoguanine, a lesion excised by 8-oxoguanine DNA glycosylase1/AP-lyase (OGG1). OGG1 forms a complex with the excised base, inducing its nuclear export. The cytoplasmic OGG1:8-oxoG complex functions as a guanine nucleotide exchange factor, triggering small GTPase signaling and activating phosphorylation of the nuclear factor (NF)x03BA;B/RelA transcription factor to induce immediate early gene expression. In parallel, nuclear ROS are detected by ataxia telangiectasia mutated (ATM), a PI3 kinase activated by ROS, triggering its nuclear export. ATM forms a scaffold with ribosomal S6 kinases, inducing RelA phosphorylation and resulting in transcription-coupled synthesis of type I and type III interferons and CC and CXC chemokines. We propose that ATM and OGG1 are endogenous nuclear ROS sensors that transmit nuclear signals that coordinate with outside-in pattern recognition receptor signaling, regulating the IIR.

Reactivity of aflatoxin B2a antibody with aflatoxin B1-modified DNA and related metabolites

Aflatoxin B2a (AFB2a) antiserum has been previously used in an enzyme-linked immunosorbent assay (ELISA) for the quantitation of AFB1 and AFB2a. The present investigation examined the reactivity of the antiserum toward those adducts and metabolites of AFB1 believed to play a major role in aflatoxicosis and carcinogenesis. 2,3-Dihydro-2-(N7-guanyl)-3-hydroxyaflatoxin B1 (AFB1-N7-Gua), the putative 2,3-(N5-formyl-2-2', 5',6'-triamino-4-oxo-N5-pyrimidyl)-3-hydroxyaflatoxin B1 (AFB1-FAPyr), 2,3-dihydro-2,3-dihydroxyaflatoxin B1 (AFB1-diol), AFB1-N7-Gua-modified DNA, and AFB1-FAPyr-modified DNA were prepared by in vitro incubation or chemical methods and subjected to competitive AFB2a ELISA. The antiserum showed significant reactivity with all five compounds, indicating that it had a high degree of specificity for both the cyclopentenone and the methoxy group of the parent aflatoxin molecule. Sensitivity for AFB-N7-Gua-modified DNA, AFB1-FAPyr-modified DNA, and AFB1-diol by the ELISA method was 0.1 pmol per assay. To test the applicability of immunological detection of covalent binding of AFB1 to DNA, the ELISA was compared with a conventional radioisotopic assay in two in vitro studies. The results showed that estimates of the kinetics and substrate dependence of covalent binding to calf thymus DNA in rat microsomal incubation mixtures by both methods were comparable. The broad specificity AFB2a antibody might be of considerable value in the detection of AFB1 macromolecular adducts and related metabolites in epidemiological investigations or in the diagnosis of aflatoxicosis.

The organ-specific induction of DNA adducts in 2-acetylaminofluorene-treated rats, studied by means of a sensitive immunochemical method

Exposure of cells to chemical carcinogens and mutagens may result in the formation of DNA adducts, which can give rise to mutations in the genome and to cellular transformation. Methods to measure DNA-adduct formation may be useful for 'biomonitoring', to establish exposure of laboratory animals or humans to DNA-damaging agents. For such purposes, immunochemical methods appear to be suitable, because they allow sensitive detection and quantification of DNA adducts in small amounts of sample in a non-radiolabelled form. We have worked out optimal conditions for the detection of DNA adducts by means of competitive enzyme-linked immunosorbent assay (ELISA). This technique involves interaction of soluble antigen, immobilized antigen and antibody. It appeared that the sensitivity of the competitive assay can be improved by lowering the amount of immobilized antigen, adsorbed to the wall of the plastic reaction vessel. On the basis of these observations, suitable conditions were selected for a sensitive quantitative assay of adducts in DNA isolated from various organs of rats, treated (p.o.) with the liver carcinogen 2-acetylaminofluorene (2-AAF). Under the conditions of these experiments, the available rabbit antiserum recognizes the guanosine-AAF adduct with high specificity. A time- and dose-dependent induction of AAF adducts could be measured in liver DNA from exposed rats, whereas the amount of adducts in DNA from spleen and nucleated blood cells remained below the detection limit (1 adduct/10(8) nucleotides). The implications of these findings with respect to the relevance of blood cell biomonitoring for target cell exposure are discussed.

Comparison of various immunochemical assays for the detection of ethylene oxide-DNA adducts with monoclonal antibodies against imidazole ring-opened N7-(2-hydroxyethyl)guanosine: application in a biological monitoring study

Monoclonal antibodies have been developed for the analysis of the predominant lesion in DNA induced by ethylene oxide (EtOx), namely N7-(2-hydroxyethyl)guanine (N7-EtOHGua). Two monoclonal antibodies raised against imidazole ring-opened N7-(2-hydroxyethyl)guanine (RON7-EtOHGua), N7EO-E and N7EO-11, and the previously isolated antibody N7E-102 were characterized by competitive ELISA with various inhibitors. N7EO-E and N7EO-11 recognize 2-hydroxyethyl lesions better than ethyl or methyl lesions, while N7E-102 recognizes 2-hydroxyethyl and ethyl modifications equally well. All antibodies show a preference for imidazole ring-opened adducts, bind better to adducts in DNA compared to alkylated nucleosides or bases and bind 10(6)- to 3 x 10(6)-fold less well to unmodified DNA. The sensitivity of detection of RON7-EtOHGua in DNA and in the nuclei of cells in situ by antibody N7EO-E was investigated in several assays. The immunoslot blot assay was the most sensitive method (0.34 RON7-EtOHGua per 10(6) nucleotides was detectable), followed by competitive ELISA, direct ELISA and in situ detection by immunofluorescence microscopy. The immunoslot blot assay was used to analyse N7-EtOHGua levels in white blood cell DNA from individuals exposed to EtOx (2-5 p.p.m.) and of controls. This exposure did not result in a statistically significant increase in the N7-EtOHGua level.

The isolation of monoclonal antibodies selected for the detection of imidazole ring-opened N7-ethylguanine in purified DNA and in cells in situ. Crossreaction with methyl, 2-hydroxyethyl and sulphur mustard adducts

Monoclonal antibodies have been obtained against imidazole ring-opened N7-ethylguanine (RON7-EtGua) in DNA. The antibodies were selected for good performance in the ELISA with either DNA or nucleated blood cells as immobilized antigen. Antibodies thus selected were studied for their suitability for the in situ detection of RON7-EtGua in the nuclei of cells by means of immunofluorescence microscopy (IFM). Two antibodies have been characterized in detail with respect to specificity and sensitivity. Competitive ELISA demonstrated that the antibodies recognize not only RON7-EtGua but also the corresponding methyl and 2-hydroxyethyl components, with efficiencies that vary with the chemical environment (base, nucleoside or DNA), the nature of the alkyl group and the antibody. They have a clear specificity for the ring-opened alkyl adducts and show an at least 100-fold stronger preference for such structures in DNA when compared to the free nucleoside adducts. Furthermore, they hardly bind to non-alkylated DNA, and do not bind to guanosine or N1- or O6-ethylguanosine. Analysis by DNA-ELISA showed that the binding preference of antibody N7E-026 for ring-opened alkyl adducts is methyl approximately ethyl greater than 2-hydroxyethyl much greater than sulphur mustard, while that of N7E-102 is 2-hydroxyethyl greater than ethyl greater than methyl approximately sulphur mustard. Analysis of RON7-EtGua in DNA with competitive ELISA, DNA-ELISA and IFM showed that in all cases the lowest detection limit can be reached with antibody N7E-026. Competitive ELISA was the most sensitive method, followed by DNA-ELISA and IFM, with detection limits of 2.2, 16 and 23 RON7-EtGua/10(6) nucleotides respectively. In the DNA-ELISA, 12 methyl adducts/10(6) nucleotides can be detected with N7E-026 and 11 2-hydroxyethyl adducts/10(6) nucleotides with N7E-102.

Fabs specific for 8-oxoguanine: control of DNA binding

Free radicals produce a broad spectrum of DNA base modifications including 7,8-dihydro-8-oxoguanine (8-oxoG). Since free radicals have been implicated in many pathologies and in aging, 8-oxoG has become a benchmark for factors that influence free radical production. Fab g37 is a monoclonal antibody that was isolated by phage display in an effort to create a reagent for detecting 8-oxoG in DNA. Although this antibody exhibited a high degree of specificity for the 8-oxoG base, it did not appear to recognize 8-oxoG when present in DNA. Fab g37 was modified using HCDR1 and HCDR2 segment shuffling and light chain shuffling. Fab 166 and Fab 366 which bound to 8-oxoG in single-stranded DNA were isolated. Fab 166 binds more selectively to single-stranded oligonucleotides containing 8-oxoG versus control oligonucleotides than does Fab 366 which binds DNA with reduced dependency on 8-oxoG. Numerous other clones were also isolated and characterized that contained a spectrum of specificities for 8-oxoG and for DNA. Analysis of the primary sequences of these clones and comparison with their binding properties suggested the importance of different complementarity determining regions and residues in determining the observed binding phenotypes. Subsequent chain shuffling experiments demonstrated that mutation of SerH53 to ArgH53 in the Fab g37 heavy chain slightly decreased the Fab's affinity for 8-oxoG but significantly improved its binding to DNA in an 8-oxoG-dependent manner. The light chain shuffling experiments also demonstrated that numerous promiscuous light chains could enhance DNA binding when paired with either the Fab g37 or Fab 166 heavy chains; however, only the Fab 166 light chain did so in an additive manner when combined with the Fab 166 heavy chain that contains ArgH53. A three-point model for Fab 166 binding to oligonucleotides containing 8-oxoG is proposed. We describe a successful attempt to generate a desired antibody specificity, which was not present in the animal's original immune response.

Highly Enhanced Antitumor Immunity by a Three-Barreled Strategy of the l-Arginine-Promoted Nanovaccine and Gene-Mediated PD-L1 Blockade

Weak T cell responses and immune checkpoints within tumors could be two key factors for limiting antitumor efficacy in the field of cancer immunotherapy. Thus, the combined strategy of tumor vaccines and immune checkpoint blockade has been widely studied and expected to boost antitumor immune responses. Herein, we first developed a two-barreled strategy to combine the nanovaccine with a gene-mediated PD-L1 blockade. On the one hand, polyethyleneimine (PEI) worked as a vaccine carrier to codeliver the antigen ovalbumin (OVA) and the adjuvant unmethylated cytosine-phosphate-guanine (CpG) to formulate the PEI/OVA/CpG nanovaccine through electrostatic binding, which realized both dendritic cell activation and antigen cross-presentation enhancement. On the other hand, the PD-L1 silence gene was loaded by PEI to form PEI/pshPD-L1 complexes, which were further in situ shielded by aldehyde-modified polyethylene glycol (OHC-PEG-CHO) via pH-responsive Schiff base bonds. The formed pshPD-L1@NPs could decrease PD-L1 expression on the tumor cells. However, such a combined two-barreled strategy improved feebly for tumor inhibition in comparison with monotherapy, exhibiting the antagonistic effect, which might be due to the limited T cell response enhancement in the tumor microenvironment. To solve this problem, we have further developed a three-barreled strategy to combine oral administration of l-arginine, which worked as an amplifier to induce robust T cell response enhancement, without causing the upregulation of other negative immune regulators. Superior antitumor behavior and tumor rechallenge protection were realized by the three-barreled strategy in B16F10-OVA (B16-OVA)-bearing mice. The unique three-barreled strategy we developed might offer a novel clinical therapeutic treatment.

A functional site of the GTPase-associated center within 28S ribosomal RNA probed with an anti-RNA autoantibody

An anti-RNA autoantibody (anti-28S) was employed to identify structural and functional elements characteristic of a domain termed the 'GTPase center' in eukaryotic 28S ribosomal RNA. This antibody, an inhibitor of ribosome-associated GTP hydrolysis, has a unique property: it binds to the RNA domain of eukaryotes but not to that of prokaryotes. The antibody binding occurred in the presence of Mg2+ and protected from chemical modification three conserved bases (U1958, G1960 and A1990) and the base G1959 which is replaced by A in prokaryotic 23S rRNA (A1067 in Escherichia coli). In vitro substitution of G1959 to A drastically weakened the antibody binding, and the reciprocal substitution, A1067-->G of the E.coli domain conferred the binding ability. This suggests that the G base determines the specificity of antibody binding. The G1959 was also protected by the association of ribosomes with elongation factor EF-2. The result, together with protection of E.coli base A1067 by EFG [D.Moazed, I.M. Robertson and H.F. Noller (1988) Nature, 334, 362-364], suggests that the position of G1959 in eukaryotes and A1067 in prokaryotes constitutes at least part of the factor binding site irrespective of the base replacement during evolution.

Guanine, mite, and cockroach allergens in Costa Rican homes

Previous studies of schoolchildren in Costa Rica have shown an asthma prevalence of 23% and a high level of sensitization, particularly to mite allergens. As a continuation of these studies, some 400 dust samples were collected from various places in Costa Rica, and parts of these were analyzed for specific mite and cockroach allergens, as well as for the number of mites and amount of guanine. Guanine was quantified by a diazo, as well as an HPLC method, which were found to be highly correlated. The concentrations of guanine by the diazo method, Der p 1, Der f 1, and the number of mites were higher in bed dust than in bedroom floor dust, and it was possible to quantify mite allergens and guanine in almost all bed-dust samples. The mean levels were 2-3 times higher than the proposed risk level for elicitation of symptoms in mite-sensitive asthmatics. Bed and bedroom floor dust contained more guanine and mite allergen in humid (> 2000 mm rain) than in drier places (P < 0.05), but the number of mites in bed and bedroom floor dust was higher in less humid places (P = 0.01). The guanine content in bedroom floor dust was higher in areas with a temperate climate than in areas with a warmer climate (P < 0.001, Bartlett's chi square [BCS]), as was the number of mites (P < 0.01, Kruskal-Wallis [KW], 0.04, BCS) and the Der p 1 concentration (P = 0.01, BCS; P = 0.02, KW). The Der f 1 concentration in bedroom floor dust was higher in a warmer than in a temperate climate (P < 0.001, BCS). More guanine and mites were found in urban than in rural bed dust (P = 0.03, KW). Dust samples from the metropolitan area (temperate climate) of Costa Rica contained higher levels of guanine (P < 0.01) and Der p 1 (P = 0.07) than the coastal areas, but very little Der f 1. In these samples, guanine and Der p 1 allergen were closely related, and 2 micrograms of the allergen was equivalent to 0.49 mg of guanine. Two-thirds of bed and floor samples collected on cotton filters contained Bla g 2 allergen at mean levels of 1.6 and 2.1 units/g dust, respectively. Cockroach allergen was, however, absent in all bed samples from the metropolitan area, but did occur in very high concentrations in the coastal bed dust samples collected with tighter polyester filters. In conclusion, the concentration of guanine and Der p 1 was very high in the bed dust of Costa Rican homes. Some factors, such as humidity, small houses for large families, and type of bedding, probably favored the heavy mite infestation, which is probably related to the widespread occurrence of bronchial asthma in this country.

Determining N7-alkylguanine adducts by immunochemical methods and HPLC with electrochemical detection: applications in animal studies and in monitoring human exposure to alkylating agents

Many xenobiotics exert their toxic effects through interaction with DNA in the cells of the exposed organism. This interaction may lead to the formation DNA adducts. Some of these may give rise to mutations that initiate cell transformation and, ultimately, the formation of tumors. Sensitive methods for determining DNA adducts are indispensable for the study of chemical mutagenesis and carcinogenesis and for biomonitoring human exposure to genotoxic agents. Alkylating agents form an important class of genotoxic compounds. They react preferentially at the N7-position of guanine. Under neutral or acidic conditions, the adducts can be readily released from the DNA backbone as the free base N7-alkylguanine (N7-AlkGua). The imidazole ring of N7-alkyldeoxyguanosine (N7-AlkdGuo) can be opened under alkaline conditions, which results in formation of a more stable adduct in DNA. To develop immunochemical methods for the detection of N7-alkylations, we immunized mice with various alkylguanosines in the ring-opened form (RON7-AlkdGuo). Antibodies were selected to detect adducts in isolated DNA by competitive ELISA and in single cells by immunofluorescence microscopy (IFM). Various monoclonal antibodies were characterized in detail with respect to specificity and sensitivity toward methylated, ethylated, and hydroxyethylated DNAs. The antibodies showed extensive cross-reactivity toward N7-(m)ethyl- and N7-(2-hydroxyethyl)guanine modifications in the ring-opened form. The limits of detection in the direct and competitive ELISA were 5-10 and 1-2 adducts per 10(6) nucleotides, respectively. The detection limit of the IFM method was about 20 adducts per 10(6) nucleotides(ABSTRACT TRUNCATED AT 250 WORDS)

Antibody-nucleic acid complexes. Identification of antigenic determinant of a murine monoclonal antibody specific for single-stranded nucleic acids

Cloned hybrid cells, selected for their ability to secret an IgG 2a immunoglobulin specific for single-stranded (ss) nucleic acids, were obtained by fusion of spleen cells from an unimmunized autoimmune MRL/1 pr male mouse with nonsecreting myeloma cells (MOPC-21, line Sp2/0-Ag 14). Designated MRss-1, this monoclonal antibody was (i) propagated by intraperitoneal injection of hybrid cells to pristane-treated. Balb/c mice, (ii) purified from the bulk of other proteins in ascites extracts by chromatography with DEAE-Sephacel adsorbent, and (iii) radiochemically labeled via reductive methylation using NaB3H4 and formaldehyde. The binding of 3H-labeled antibody to immobilized ssDNA- agarose, calf thymus) or soluble (fd DNA) ssDNA was rapid and dependent upon ssDNA and ionic strength, but not hydrogen ion concentration. Optimal binding occurred in both low and intermediate salt concentration (0.1-0.25 M NaCl), yet was completely abolished above 0.30 M NaCl. The presence of guanine (Gua)-containing mono-, oligo-, and polynucleotides also abolished and/or decreased 3H-labeled antibody binding to ssDNA-agarose. In these competition assays, the amount of Gua-containing mono-and oligonucleotides required to inhibit antibody binding by 50% (0.2-1.0 mg/mL) exceeded those of poly(G), rRNA, and fd DNA (i.e., 0.03-0.1 microgram/mL) by 4 orders of magnitude. In contrast, (deoxy)ribose 5'-phosphate as well as other nucleic acid derivatives devoid of Gua failed to inhibit antibody binding. The above findings were substantiated by the observation that 3H-labeled antibody bound to guanosine (G)- and guanidylate (pG)-conjugated Sepharose, yet not to other nucleoside (A, C, and U)- or nucleotide (pA, pC, and pU)-conjugated adsorbents. Last, the introduction of the methyl group at the N-2, O-6, and N-7 positions in the Gua ring system completely abolished antibody binding. Collectively, these results demonstrate that the MRss-1 antibody recognized single-stranded nucleic acid substrates by virtue of their content of guanidylate residues and, more specificity, by the presence of the Gua base moiety.