Enzyme immunoassay for detection of hybrids between PCR-amplified HIV-1 DNA and a RNA probe: PCR-EIA

Antibodies specific for nucleic acids and applications in genomic detection and clinical diagnostics

Detection of nucleic acids using antibodies is uncommon. This is in part because nucleic acids are poor immunogens and it is difficult to elicit antibodies having high affinity to each type of nucleic acid while lacking cross-reactivity to others. We describe the origins and applications of a variety of anti-nucleic acid antibodies, including ones reacting with modified nucleosides and nucleotides, single-stranded DNA, double-stranded DNA, RNA, DNA:RNA hybrids, locked-nucleic acids or peptide nucleic acid:nucleic acid hybrids. Carefully selected antibodies can be excellent reagents for detecting bacteria, viruses, small RNAs, microRNAs, R-loops, cancer cells, stem cells, apoptotic cells and so on. The detection may be sensitive, simple, rapid, specific, reproducible, quantitative and cost-effective. Current microarray and diagnostic methods that depend on cDNA or cRNA can be replaced by using antibody detection of nucleic acids. Therefore, development should be encouraged to explore new utilities and create a robust arsenal of new anti-nucleic acid antibodies.

A visual DNA chip for simultaneous detection of hepatitis B virus, hepatitis C virus and human immunodeficiency virus type-1

For the simultaneously visual detection of hepatitis B virus (HBV), hepatitis C virus (HCV) and human immunodeficiency virus type-1 (HIV-1), a qualitative DNA chip method, combining multiplex and nested polymerase chain reaction (PCR) with arrayed anchored primer PCR and a biotin-avidin alkaline phosphatase (Av-AP) indicator system, was developed. After pretreatment of infected blood samples and reverse transcription of the RNA virus genome, PCR was performed in a single tube by using the outer primer pairs. Second round nested multiplex PCR was performed on the DNA chip, on which the primers array had already been prepared. During the arrayed anchored multiplex PCR, 5[N-(N-biotinylaminocaproyl)-epsilon-3-aminoallyl]-2-deoxy-uridine-5-triphosphate (biotin-11-dUTP) was incorporated into the extended DNA chains in order to bind avidin alkaline phosphatase via avidin and biotin. To produce purple precipitates on the chips, the enzyme substrate 5-bromo-4-chloro-3-indolyl phosphate (BCIP) was used in conjunction with the enhancer, nitro blue tetrazolium (NBT). Blood samples containing the three viruses were tested using this DNA chip and about 1 pg of specific viral DNA fragments were detected on the chip wells after nested PCR.

Coamplification of HIV type 1 and beta-globin gene DNA sequences in a nonisotopic polymerase chain reaction assay to control for amplification efficiency

The polymerase chain reaction (PCR) fails to detect HIV-1 sequences in 5% of infected individuals. To screen for false-negative PCR tests, we developed a nonisotopic PCR assay in which sequences from the beta-globin gene and from the HIV-1 vpu-env region were coamplified with biotinylated and fluorescein-labeled primers, respectively. Coamplified products were reacted with specific internal digoxigenin-labeled RNA probes. Hybrids were detected in a microtiter plate coated with streptavidin or anti-fluorescein antibody, with enzyme-labeled anti-digoxigenin antibody. After the optimization of the coamplification conditions, the assay could detect 5 proviral DNA copies in a lysate from 100,000 peripheral blood mononuclear cells. Fifty-seven samples from 55 HIV-1-seropositive patients and 25 samples from 25 seronegative individuals were evaluated. Fifty-two samples from HIV-infected individuals were positive for HIV-1 vpu-env sequences. Three of the 5 PBMC lysates falsely negative for HIV-1 sequences had reactivities for beta-globin (3-23 fu) below that of 100,000 cells (304 fu). Nonisotopic coamplification allowed for the evaluation of the quality of specimens for PCR concurrently with the detection of the presence of viral template sequences.

Polymerase chain reaction (PCR) search for viral nucleic acid sequences in schizophrenia

BACKGROUND

Previous studies looking for evidence of viral infection in schizophrenics have yielded conflicting results. We searched for viral nucleic acids to test the hypothesis of the viral aetiology of schizophrenia.

METHOD

We used the polymerase chain reaction (PCR) to search for cytomegalovirus (CMV), human immunodeficiency virus (HIV), influenza A, Borna disease virus (BDV), and bovine viral diarrhoea virus (BVDV) in: hippocampus from three schizophrenic and three non-schizophrenic subjects; cerebrospinal fluid (CSF) from 48 schizophrenic patients; CSF and peripheral blood mononuclear cells (PBMC) from nine sets of identical twins discordant for schizophrenia; and SK-N-SHEP cells co-cultured with schizophrenic and non-schizophrenic brain homogenates. All patients met DSM-III-R criteria.

RESULTS

Virus-specific nucleic acids were not found in any of the samples tested.

CONCLUSIONS

The absence of viral nucleic acids in the samples tested suggest that, in these patients, schizophrenia is not associated with a persistent or latent infection due to these viruses.

Low human immunodeficiency virus type 1 (HIV-1) DNA burden as a major cause for failure to detect HIV-1 DNA in clinical specimens by PCR

To determine the sensitivity of a nested PCR procedure for detecting human immunodeficiency virus type 1 DNA in clinical specimens, 553 peripheral blood mononuclear cell samples obtained from 268 human immunodeficiency virus type 1-seropositive subjects were assayed by use of two independent primer sets for each sample. Overall, 1,088 of 1,106 (98.37%) reactions were positive. Investigation of the negative reactions showed that a low viral burden in some infected subjects, rather than primer-template mismatches, was the primary cause for the false-negative PCR results.

Analysis of the population of human T cell receptor gamma and delta chain variable region subfamilies by reverse dot blot hybridization

We have developed a simple method to analyze the population of T cell receptor (TCR) gamma and delta chain variable (V) region subfamilies by the application of reverse dot blot hybridization, which was originally developed for the analysis of human HLA-DR polymorphism. The four oligonucleotides corresponding to each TCR-gamma V region subfamily and the six oligonucleotides to each TCR-delta V region gene were synthesized, and tailed with dTTP. The cDNA was amplified by ligation-mediated PCR in the presence of biotinylated deoxynucleotides. Hybridization between immobilized specific oligoprobes and biotinylated target DNA was nonradioactively detected by a reaction using alkaline phosphatase. The population of the V region subfamilies of TCR-gamma and -delta in PBL analyzed by reverse dot blot hybridization described here showed good correlations with the result of colony hybridization.

Rapid detection of parainfluenza virus type 3 RNA in respiratory specimens: use of reverse transcription-PCR-enzyme immunoassay

Parainfluenza virus type 3 (PIV-3), an important lower respiratory tract pathogen in young children and immunocompromised individuals, may be underdiagnosed because of the insensitivity of available culturing systems and delay in identification of virus in cell culture. We developed a reverse transcription-PCR-enzyme immunoassay (RT-PCR-EIA) for PIV-3, using primers specific for a highly conserved region of the hemagglutinin-neuraminidase gene. Testing of nasal washes spiked with PIV-3 or other respiratory viruses showed that this assay detected seven strains of PIV-3 but not other respiratory viruses. Of 103 respiratory tract samples obtained from children experimentally infected with a liver PIV-3 vaccine or naturally infected with wild-type PIV-3, 51 were positive by culture and 48 were positive by RT-PCR-EIA. Eleven of the culture-positive samples were negative by RT-PCR-EIA; however, none of these grew virus upon reinoculation into cell culture, indicating that virus was lost or was present at a very low titer. Eight of the culture-negative samples were positive by RT-PCR-EIA: two were obtained from a subject who was culture negative but had a serologic response to PIV-3, four were obtained 7 to 9 days after the first positive culture, and two were obtained 1 day prior to the first positive culture. Thus, this RT-PCR-EIA for PIV-3 is sensitive and specific and can detect viral RNA in samples from which virus cannot be cultivated. This assay could be used for diagnosis late in the course of PIV-3 infection and for accurate detection of disease outbreaks.

Theoretical considerations for the application of competitive polymerase chain reaction to the quantitation of a low abundance mRNA: estrogen receptor

The necessary theoretical considerations for the development of a correct quantitative analysis of a low abundance messenger RNA (mRNA), estrogen receptor mRNA, by competitive polymerase chain reaction (PCR) are presented together with a series of experimental data. When compared to other methodologies currently utilized for RNA quantitation, this PCR application proved to be a very reliable, rapid and sensitive method. Furthermore, the PCR-based quantitative method described is of particular interest since it does not require the use of radiolabeled compounds.

Enzyme-linked oligosorbent assay for detection of polymerase chain reaction-amplified human immunodeficiency virus type 1

An enzyme-linked oligosorbent assay (ELOSA) was developed for the detection on microtiter plates of polymerase chain reaction (PCR)-amplified human immunodeficiency virus type 1 (HIV-1) DNA. The denatured PCR product was hybridized with a passively adsorbed oligonucleotide capture probe and a horseradish peroxidase-labeled oligonucleotide detection probe. The sensitivity and specificity of the PCR-ELOSA technique depended to some extent on the nucleotide sequences of the oligonucleotide primer and probe quartet used in the amplification and detection. We evaluated five oligonucleotide quartets located in the gag, pol, vpr, env, and nef regions of HIV-1. DNAs from 39 HIV-1-seropositive individuals and 27 healthy HIV-1-seronegative controls were amplified by the PCR procedure, and the products were detected by ELOSA. Ten copies of HIV-1 DNA against a background of 1 microgram of human DNA were specifically detected by PCR-ELOSA. Specificities and sensitivities were, respectively, 100 and 95% for the gag system, 100 and 97% for the pol system, 100 and 85% for the vpr system, 96 and 95% for the env system, and 100 and 95% for the nef system. The simplicity of ELOSA makes it suitable for automation and applicable to genetic testing and detection of viral and bacterial DNAs or RNAs in most routine laboratories.

Borna disease virus in peripheral blood mononuclear and bone marrow cells of neonatally and chronically infected rats

Borna disease virus (BDV) establishes a persistent infection in cells of the nervous system in rats. The response, or lack thereof, of the immune system to BDV infection of neurons is responsible for the presence or absence, respectively, of Borna disease. We recently demonstrated transmission of BDV by bone marrow cells from neonatally infected rats. Our findings suggested the possibility of a heretofore unsuspected interaction between BDV and the immune system, that of direct effects of BDV infection on the cells of the immune system. This report enlarges upon the previous findings and confirms the presence of BDV RNA in bone marrow cells of neonatally infected rats, using a reverse transcription-polymerization chain reaction-enzyme immunosorbent assay (RT-PCR-EIA). In addition, we detected BDV RNA in peripheral blood mononuclear cells of neonatally infected rats, and in rats inoculated as adults in the chronic, but not the acute, stage of infection. In addition, the RT-PCR-EIA technique identified BDV RNA in cerebrospinal fluid, nasal secretions, saliva, urine and stool. BDV-sequences were not detected in the plasma of infected animals nor in the body fluids and tissues of normal rats.

Characterization of a glial cell line persistently infected with borna disease virus (BDV): influence of neurotrophic factors on BDV protein and RNA expression

Borna disease virus (BDV) infects cells of the nervous system in a wide range of species. Previous work suggests that there are differences in BDV replication in neuronal cells and glial cells. Many neurons are lysed by the immunopathologic response to BDV; lysis of dentate gyrus neurons in the absence of encephalitis is seen in rats inoculated with BDV as neonates. In contrast, persistently BDV-infected astrocytes increase over the course of BDV infection. Therefore, we compared BDV replication in neuronal (SK-N-SH and SK-N-SHEP) and astrocytic (C6) cell lines. While SK-N-SH cells produced more infectious virions per cell, the C6 cells contained more BDV proteins and RNA. BDV sequences in the supernatants of both cell types were identified, despite low titers of infectious virus, suggesting the release of incomplete virions into the medium. C6 cells secreted a factor or factors into the medium that enhanced the production of BDV proteins and RNA in other cell lines. In addition, nerve growth factor treatment produced the same enhancement. Thus, BDV replication in certain neural cells in vitro may be linked to the production of cell-specific factors which affect viral replication.

Rapid, non-separation electrochemiluminescent DNA hybridization assays for PCR products, using 3'-labelled oligonucleotide probes

Described are rapid assays for the analysis of PCR products in a one step, non-separation assay based on the use of electrochemiluminescence generated from a tris-bipyridine ruthenium (II) label. The assay uses PCR incorporation of a biotinylated oligonucleotide as a primer, with the inclusion of a labelled oligonucleotide. Oligonucleotides were labelled with an N-hydroxy succinimide ester of tris-bipyridine ruthenium (II) dihexafluorophosphate (Origen-label) by modifying the 3' and 3' 5' ends of the oligonucleotide probes. The assay makes use of the inherent thermal stability and absence of polymerase activity on such probes to allow the PCR and probe hybridization to be completed automatically on the thermocycler. The assay is concluded by the addition of PCR samples to streptavidin beads on an electrochemiluminescence analyser for binding and analysis. Target genes evaluated were the HIV-1 gag gene, and cystic fibrosis delta F-508 deletion mutation. The results obtained from these assays demonstrated the detection of 10 copies of the HIV-1 gag gene, and cystic fibrosis delta F-508 mutation in 1 ng of human DNA within 15 min. This assay format allows a rapid and simple determination of specific amplified DNA sequences, reducing the contamination risks due to washes and multiple pipetting.

Nested polymerase chain reaction for detection of human immunodeficiency virus type 1 DNA in clinical specimens

A highly sensitive two-step polymerase chain reaction (PCR) method was evaluated for detection of human immunodeficiency virus type 1 (HIV-1) DNA in clinical specimens. The product resulting from the first amplification reaction is used as the template for the second PCR with an internal (nested) primer pair. Even when starting from a single copy of HIV-1 DNA, the double PCR product was readily detected by direct visualization in ethidium bromide-stained agarose gels. Amplification of minute amounts of HIV-1 DNA was successful in a considerable excess of HIV-1 negative DNA than reported previously. All of 85 HIV-1-infected individuals were PCR-positive with at least two of the three sets of primers used, 252 of 255 amplifications allowing unambiguous visualization of a unique DNA fragment of the expected size. The two-step amplification protocol is simple and rapid and fulfills the requirements of sensitivity and specificity for use in a clinical laboratory.

Detection of HIV1 proviral DNA by PCR and hybridization with digoxigenin labelled probes

One of the main obstacles for the introduction of PCR method to identify HIV1 proviral DNA in routine diagnostic laboratories is the use of radiolabelled oligodeoxynucleotide probes. Nonradioactive labelled probes have several advantages over radioactive labelling: they are stable for over 1 year, they can be produced easily in large amounts and they are safe. Polymerase chain reaction is an efficient and simple method to produce vector free inserts to use as probes. In this paper we describe a procedure for labelling DNA probes with digoxigenin-11-dUTP using the polymerase chain reaction. This non-radioactive labelling system was applied to detect HIV proviral sequences, amplified in vitro by PCR, from peripheral blood mononuclear cells DNA of infected subjects. We found identical sensitivities and specificities for probes synthesized with the non-radioactive and radioactive labelling procedures. The digoxigenin-11-dUTP can be efficiently incorporated during amplification of a DNA fragment using the polymerase chain reaction. This labelling and detection method proved to be specific, sensible and simple enough to be used in routine diagnostic laboratories for the detection of HIV1 infected individuals.

Detection of HPV-16 in cell lines and cervical lavage specimens by a polymerase chain reaction-enzyme immunoassay assay

A gene amplification method that combines the polymerase chain reaction with detection of amplified DNA in a solution hybridization/enzyme immunoassay (PCR-EIA) was developed for HPV-16 DNA. Samples were amplified with primers for the E7-E1 region of HPV-16. Amplified DNA products were identified and quantitated by hybridization in solution with a biotinylated RNA probe. Labeled DNA/RNA hybrids were measured semiquantitatively in an enzyme immunoassay using solid phase anti-biotin antibody and liquid phase B-d-galactosidase labeled monoclonal antibody against DNA-RNA hybrids. Enzyme bound to the solid phase was quantitated with a fluorogenic substrate. The assay was linear over 2 log10 dilutions of SiHa cells and the detection limit was three copies of HPV-16 genome. The sensitivity of PCR-EIA for detection of PCR amplified products compared favorably with slot and Southern blots using a 32P-labeled RNA probe. The assay was used to assess HPV-16 infection of uterine cervix in women attending a clinic for sexually transmitted diseases. Twenty-one of the 81 specimens (25.9%), obtained by cervicovaginal lavage, were positive for HPV-16 by PCR-EIA. The assay provides a convenient means to objectively measure HPV DNA amplified with PCR.

Evaluation of infection with human immunodeficiency virus type 1 by using nonisotopic solution hybridization for detection of polymerase chain reaction-amplified proviral DNA

A convenient assay combining solution hybridization and enzyme immunoassay for DNA-RNA hybrids (polymerase chain reaction-enzyme immunoassay [PCR-EIA]) was developed to detect human immunodeficiency virus type 1 (HIV-1) provirus amplified by the PCR and was compared with oligomer hybridization with 32P-labeled SK19. In PCR-EIA, a fragment of the HIV-1 gag gene from peripheral blood mononuclear cells was first amplified with primer pair SK38/SK39 or O1/O2. PCR-amplified material was reacted in solution with a biotinylated RNA probe. Biotinylated hybrids were measured in a microtiter-plate EIA with antibiotin antibody and a beta-D-galactosidase-conjugated monoclonal antibody to DNA-RNA hybrids. Ten copies of HIV-1 DNA could be detected by PCR-EIA by using two different sets of primers. HIV-1 DNA was detected in 104 of 108 peripheral blood mononuclear cell samples by using SK38/39 and oligomer hybridization, in 104 of 108 samples by using SK38/SK39 and PCR-EIA, and in 104 of 108 samples by using O1/O2 and PCR-EIA. HIV-1 provirus was detected in 107 of 108 samples by using a combination of two sets of primers. One sample from a seropositive patient was negative in all three PCR assays, and six samples gave discordant results between primer pairs. Six of the latter samples scored negative in a PCR for beta-globin but became positive when the sample was diluted before amplification. When applied to clinical samples, PCR-EIA generated results similar to those of an isotopic assay for detection of amplified DNA.

Diagnosis of Chlamydia trachomatis eye infection in Tanzania by polymerase chain reaction/enzyme immunoassay

Detection of Chlamydia trachomatis eye infection is largely unsatisfactory by standard laboratory methods. A polymerase chain reaction/enzyme immunoassay (PCR-EIA) that had previously been successful for diagnosis of genital C trachomatis infection was compared with direct antibody immunofluorescence (DFA) for detection of the organism in conjunctival scrapes. 234 Tanzanian children aged 1-7 years living in a village that had had no previous trachoma control programme were classified clinically as having no sign of trachoma (0) n = 97, follicular trachoma (TF) n = 100, or intense inflammatory trachoma with or without TF (TI +/- TF) n = 37. PCR-EIA detected C trachomatis in 24%, 54%, and 95% of subjects, respectively, compared with elementary body (EB) detection by DFA of 1%, 28%, and 60%, respectively. Overall prevalence of chlamydial eye infection was 22% by DFA compared with 48% by PCR-EIA. Of subjects with chlamydial DNA at pretreatment, 103 (92%) had no detectable chlamydial DNA at the end of 4 weeks of ocular tetracycline. The findings show that PCR-EIA is likely to affect trachoma diagnosis and epidemiology because of the increased sensitivity for detection of C trachomatis in all clinical groups; the less stringent requirements for specimen collection and transport make this method suitable for field use. Moreover, the semi-quantitative aspect of PCR-EIA may be useful for monitoring a decrease in chlamydial DNA after treatment.

New microbial diagnosis

Rapid methods for comprehensive nucleic acid analysis are essential for the progress in basic research. In microbial diagnosis nucleic acid analyses are useful for achieving quick, sensitive results with new dimensions of specificity. As to specificity, hybridisation tests are easily constructed for genus or species specific microbial typing or for the detection of genes accounting for pathogenic properties. Modern sequence analysis allows rapid detection of mutations eg., those conferring antiviral resistance. A new level of sensitivity comparable to that of the conventional enrichment culture is obtainable by enzymatic amplification (PCR) of microbial nucleic acids before detection. PCR-technology has proved particularly useful in the diagnosis of microbial infections when the organisms are impossible or tedious to cultivate. For reliable diagnostic use the performance of in vitro amplification requires extreme care to prevent false positive results owing to carry over problems. In conclusion, nucleic acid analyses are expanding the potential for diagnosing microbial infections and may well replace some conventional diagnostic methods.

The polymerase chain reaction: a new tool for the understanding and diagnosis of HIV-1 infection at the molecular level

The polymerase chain reaction (PCR) is at present the most powerful analytical tool for detection of specific nucleic acid sequences. The method is based on the in vitro amplification of DNA segments before detection with conventional hybridization techniques or visualization following electrophoresis and staining. The current diagnostic methods for HIV-1 do not allow easy identification of subgroups of infected patients including infants born to seropositive mothers, individuals with delayed serological responses to the virus, infected patients with indeterminate serology results, and patients with dual retroviral infections. Furthermore, response to antiviral therapy cannot be evaluated with serological assays. The rationale for applying PCR in those situations is elaborated here. The applications of this technique for HIV-1 as a diagnostic test and for the understanding of the pathogenesis of this retrovirus are described. Potential limitations of this technique for diagnostic purposes include mainly the possibility of false-positive results due to contamination and false-negative reactions caused by Taq polymerase inhibition. Non-isotopic means for detection of amplified products have been described and should allow for a wider application of this technology. Modifications of PCR which make use of internal standards seem promising for quantitative analysis of nucleic acids. PCR has great potential for viral diagnosis but still requires further studies and better characterization.

A rapid chemiluminescence detection method for PCR-amplified HIV-1 DNA

A solution hybridization assay using acridinium ester labelled probes is described for detection of amplified HIV-1 DNA segments. Amplification was achieved by 30 cycles of the polymerase chain reaction using SK38/SK39 primers specific for a constant region of the HIV-1 gag region together with HLA DQ alpha primers as internal control. Discrimination between hybridized and non-hybridized probes by differential hydrolysis resulted in a three log reduction of the chemiluminescence signal of the non-hybridized probe within 6 min without significant changes in the hybridized probes due to protection of the acridinium ester to hydrolysis by intercalation formation. Chemiluminescence was measured by a two-step-injection method with hydrogen-peroxide and NaOH. About 50 attomols of HIV-1 gag DNA could be detected. Chemiluminescence results, given in relative light units (RLU) of 159 HIV-1-infected patients (range 4013-458319) showed clear discrimination from 64 noninfected control samples (range 838-1477) (cut off 2000 RLU). Comparison with parallel detection of amplified products with autoradiography (32P) and ethidium bromide-stained agarose gels or a p24 antigen ELISA demonstrated better sensitivity and reproducibility of the chemiluminescence assay. The time required for the assay, including measurements, is less than 30 min, which allows reporting 'PCR results' on the same day.