Simultaneous detection of 6 human herpesviruses in cerebrospinal fluid and aqueous fluid by a single PCR using stair primers

A Herpes Consensus allows the simultaneous detection of 6 human herpesviruses: herpes simplex virus type 1 (HSV-1) and type 2 (HSV-2), human cytomegalovirus (HCMV), varicella-zoster virus (VZV), Epstein-Barr virus (EBV), and human herpes virus 6 (HHV-6). This technique was used first to examine retrospectively 100 DNA extracts from 95 CSF and 5 aqueous fluids, prepared by treatment by saturated NaCl followed by ethanol precipitation (n = 63) or by simple boiling (n = 37) and stored at -80 degrees C, and secondly to test prospectively 38 CSF samples for which two DNA extracts were prepared with commercially available DNA extraction kits. In all cases, the results were compared with those of an "in-house" PCR. Concordant results between both PCR and the Herpes Consensus techniques were obtained in 61 of 63 DNA extracts prepared by treatment by saturated NaCl (97%) and in only 31 of 37 boiled samples (84%). Both commercially available methods of DNA extraction examined appear to be suitable for Herpes Consensus PCR, although they cannot remove completely PCR inhibitors that must be sought in case of negative results. This preliminary study shows that the Herpes Consensus method should be of value for rapid diagnosis of herpesvirus infections on condition that it is performed on purified DNA extracts.     

Species identification of all eight human herpesviruses with a single nested PCR assay

There are eight currently known human herpesviruses, all of which are capable of latent persistence and reactivation following primary infection. Herpesvirus induced disease is common, widespread, and associated with significant morbidity, particularly in the immunocompromised human host. Current methods of herpesvirus detection include viral culture and polymerase chain reaction (PCR). A robust PCR method based upon amplification of the highly conserved herpesvirus DNA polymerase gene that is capable of detection of all eight human herpesviruses, including EBV and HHV-6 subtypes, from clinical material is described. Species identification of PCR products is accomplished by either of two methods, chemiluminescent dot blot hybridization and heteroduplex mobility shift assay, both of which allow for simultaneous detection of multiple herpesviruses. This method should prove useful for rapid and accurate species identification of all eight human herpesviruses from clinical material.     

Co-detection and discrimination of six human herpesviruses by multiplex PCR-ELAHA.

BACKGROUND: Herpesviruses are a significant cause of human morbidity. Traditional approaches to the identification of these viruses require infectious or at least antigenic virus. Multiplex PCR (mPCR) is capable of simultaneously amplifying a range of targets from a single preparation of nucleic acids and when combined with a suitable detection assay, it is capable of discriminating each of the amplicons. OBJECTIVES: Several methods have been described in the literature, however, they lack one or more significant design features required to suitably control a routinely applied nucleic acid amplification assay. We aimed to design a multiplex herpesvirus PCR that could co-amplify eight human herpesvirus targets plus an internal control (IC) molecule in a single tube. STUDY DESIGN: Primers were designed to target the DNA polymerase genes of each of the human herpesviruses. Synthetic controls were developed to act as templates for the evaluation of assay sensitivity and specificity and for development of an in-house competitive quantitative PCR. Amplicon was discriminated using a simplified enzyme linked amplicon hybridisation assay (ELAHA). RESULTS AND CONCLUSIONS: For routine diagnostic use we reduced the number of herpesviral targets from 8 to 6 in order to maintain adequate clinical sensitivity. The ELAHA proved more sensitive than agarose gel electrophoresis. Additionally, 36 cytomegalovirus positive patients were examined with an in-house quantitative PCR-ELAHA which was developed to confirm that that the mPCR's co-detection limit of 10(2) copy of synthetic template per millilitre was relevant for use in detecting virus from clinical samples. The mPCR-ELAHA was then applied to the screening of 174 patient specimens resulting in a specificity of 98% and a sensitivity of 93%. This preliminary study demonstrated that the mPCR-ELAHA was a complete approach to the detection of herpesviruses from a range of clinical samples and disease states.     

Detection and species-level identification of primate herpesviruses with a comprehensive PCR test for human herpesviruses

A comprehensive assay for the identification of all eight human herpesviruses has been previously reported. This assay was extended to the detection and species-level identification of herpes B virus (Cercopithecine herpesvirus 1) and African green monkey cytomegalovirus (Cercopithecine herpesvirus 5), two herpesviruses of relevance to the clinical virology laboratory.     

Development of a multiplex nested consensus PCR for detection and identification of major human herpesviruses in CNS infections.

BACKGROUND: Rapid, sensitive and economical detection and identification of human herpesviruses as causative agents of central nervous system (CNS) infections are of clinical importance. The traditional methods for the detection of herpesviruses in CNS infections all suffer from limitations. PCR has a potential to overcome each of them. OBJECTIVES: The aims of this study were reducing the number of primers in multiplex PCR and increasing the sensitivity of the assay by nested PCR. STUDY DESIGN: A multiplex nested consensus PCR (MNC-PCR) was developed for the simultaneous detection of major human herpesviruses. A pair of conserved primers was designed for detection of HSV-1, HSV-2, CMV and EBV and another pair of conserved primers for nested PCR. For VZV, a different pair of primers was designed and another pair of primers for nested PCR. A reduction in the number of designed primer pairs (from five pairs to two in both stages of PCR) is an advantage in this assay. One hundred forty-seven cerebral spinal fluid (CSF) samples from patients that showed clinical manifestation of CNS infections were tested. Results of MNC-PCR in CSF samples were compared with those of single PCR assay for each individual DNA virus. Sensitivity of the assay was determined with a plasmid containing VZV DNA binding protein gene and another plasmid for HSV-1 DNA polymerase gene. False negative results (due to the presence of inhibitor of DNA amplification in CSF samples) were avoided by the inclusion of beta2-microglobulin primers in the MNC-PCR assay as an internal control. RESULTS: Positive results were obtained in 20 CSF samples (8 HSV-1, 2 HSV-2, 4 CMV, 3 VZV, 3 HSV-1/CMV, CMV/VZV and HSV-1/EBV coinfections). The comparison between single PCR and MNC-PCR showed a marked increase in sensitivity of MNC-PCR test, since six negative samples in single PCR proved positive in MNC-PCR (P<0.005). Sensitivity was determined 1-5 plasmid copies for VZV and 50-100 plasmid copies for HSV-1. CONCLUSIONS: The MNC-PCR assay presented in this study can provide a rapid, sensitive and economical method for detection of viral infections and is applicable to small volumes of CSF samples.     

Detection of Aspergillus DNA in cerebrospinal fluid from patients with cerebral aspergillosis by a nested PCR assay

Invasive aspergillosis (IA), a complication with high mortality rates, especially in disseminated IA with cerebral involvement, is difficult to diagnose. Biopsy of cerebral lesions is often not feasible, and culture of Aspergillus spp. from cerebrospinal fluid (CSF) is frequently negative. New molecular methods have emerged for diagnosing IA. So far, there are only few reports of Aspergillus DNA detection in CSF. After modifying the DNA extraction protocol, we detected Aspergillus DNA in CSF samples by a previously described nested PCR assay. In six patients with hematologic malignancy and cerebral aspergillosis, CSF samples were investigated for Aspergillus DNA. IA was classified according to the EORTC/MSG 2002 criteria. Two patients each had proven, probable, and possible IA. Thirty-five CSF samples were investigated for Aspergillus DNA by nested PCR. Samples with positive results in the nested PCR assay were quantified by LightCycler PCR assay. Fourteen CSF samples showed positive results in the nested PCR assay. Of these, six samples gave positive results in real-time PCR. The range of CFU per ml was 2,154 to 63,100,000. The highest number of CFU per ml was found in a CSF sample of a patient with acute lymphocytic leukemia and probable cerebral aspergillosis. Detection of Aspergillus DNA in CSF samples is thus possible and has the potential to improve diagnosis of cerebral aspergillosis. Further prospective studies with larger numbers of patients must be performed to evaluate the clinical significance of Aspergillus PCR with CSF samples.     

False-positive PCR detection of cyclovirus Malawi strain VS5700009 in human cerebrospinal fluid

BackgroundCyclovirus (CyCV) Malawi strain VS5700009 has recently been discovered and reported in clinical cerebrospinal fluid (CSF) samples. Further epidemiological and case-control studies are warranted. The availability of a highly sensitive and specific detection assay for this new virus is thus crucial.ObjectivesTo evaluate the performance of the first and the only available PCR assay for CyCV-VS5700009.Study designA total of 100 CSF samples collected during January–December 2010 were selected for PCR detection of CyCV-VS5700009. Positive PCR amplicons were subjected to sequencing confirmation and BLAST analysis.ResultsInitial PCR screening for CyCV-VS5700009 identified one sample, showing a PCR band of expected size (380 bp). Sequencing and BLAST analysis, however, indicated that the band was 364 bp in length and showed >99% nucleotide homology to a human gene known as nuclear receptor coactivator 6 (NCOA6). Pairwise sequence alignment confirmed that both the forward and reverse PCR primers used had significant homology (>70%) to NCOA6. None of the CSF samples tested were positive for CyCV-VS5700009.ConclusionsThe original PCR assay for CyCV-VS5700009 detection may have potential cross-reactivity with contaminating human genomic DNA. The assay may be of little diagnostic use on clinical specimens that are rich in host DNA such as biopsy tissues.     

Diagnostic utility of a multiplex herpesvirus PCR assay performed with cerebrospinal fluid from human immunodeficiency virus-infected patients with neurological disorders

We used a multiplex nested-PCR assay for the simultaneous detection in cerebrospinal fluid (CSF) of five human herpesviruses (HVs) (cytomegalovirus [CMV], Epstein-Barr virus [EBV], varicella-zoster virus [VZV], herpes simplex virus [HSV], and human herpesvirus 6 [HHV-6]) in a clinical evaluation of human immunodeficiency virus (HIV)-infected patients with neurological disorders. This method, which has the advantages of being rapid and economical, would be of particular interest for the diagnosis of neurological syndromes caused by more than one HV. We studied 251 CSF samples from 219 patients. HV DNA was demonstrated in 93 (37%) of the CSF samples (34% of the patients). CMV was the HV most frequently detected in our patients (25%), while EBV, VZV, HSV, and HHV-6 DNAs were present in significantly fewer cases (7, 4, 3, and 1%, respectively). When results were compared with the final etiological diagnoses of the patients, the multiplex HV PCR showed high specificity for the diagnosis of CMV and VZV neurological diseases and for cerebral lymphoma (0.95, 0.97, and 0.99, respectively). The sensitivity of the assay was high for CMV disease (0.87), was low for cerebral lymphoma (0.33), and was not evaluable for VZV disease due to the small number of patients with this diagnosis. Nevertheless, detection of VZV DNA had possible diagnostic value in four of the nine cases, and EBV DNA amplification always predicted the diagnosis of cerebral lymphoma in patients with cerebral masses. Detection of HSV DNA was frequently associated with CMV amplification and fatal encephalitis. HHV-6 was not considered to have a pathogenetic role in the three cases in which it was detected. This multiplex HV PCR assay is a specific and clinically useful method for the evaluation of HIV-infected patients with neurological disorders related to HV.     

Detection of herpes simplex virus DNA from cerebrospinal fluid by PCR and a rapid, nonradioactive hybridization technique.

A molecular assay for the detection of herpes simplex virus (HSV), including a novel, nonradioactive hybridization technique, was evaluated with a total of 123 cerebrospinal fluid specimens. After DNA extraction, specific HSV DNA sequences were amplified with digoxigenin-labeled primers derived from the DNA polymerase gene-coding region from HSV. Amplified products were detected by the Enzymun-Test DNA detection assay (Boehringer, Mannheim, Federal Republic of Germany), which uses biotinylated probes. Amplification with nonlabeled primers and then Southern blotting and nonradioactive detection of hybrids by the digoxigenin technique was the reference system. The sensitivities of the molecular assays were determined with 10-fold dilutions of plasmid pS4 with the SalI restriction fragment of the DNA polymerase gene obtained from the HSV type 1 strain Angelotti. The Enzymun assay was able to detect all of the 16 positive samples, giving 100% agreement with the Southern blot hybridization results. Optical density values were widely separated for the positive and negative groups of specimens. Ten copies of plasmid pS4 per microliter could be distinctly detected by the Enzymun assay. The cutoff was determined for the hybridization assay, and an equivocal zone was defined. The whole molecular assay including the Enzymun-Test DNA detection proved to be sensitive and easy to use. It may contribute to the rapid and safe detection of HSV DNA in cerebrospinal fluid.     

Amplification and characterization of herpesvirus DNA in cerebrospinal fluid from patients with acute encephalitis.

A single pair of oligonucleotide primers selected within a highly conserved region of the DNA polymerase gene of the herpesviruses was designed to amplify related viral genomes, i.e., herpes simplex virus type 1, herpes simplex virus type 2, Epstein-Barr virus, and cytomegalovirus, by the polymerase chain reaction. A simple restriction enzyme analysis of these amplified products allowed accurate characterization of the herpesvirus type. Ninety-nine cerebrospinal fluid samples from 36 patients (including newborns, children, and adults) with acute encephalitis were tested for the presence and identification of herpesvirus DNA by this approach. High levels of viral DNA, which were readily visualized by simple ethidium bromide staining, were found in all these patients from the first days of the disease and, in some cases, until the third week following the onset of acute encephalitis. The herpesvirus type was rapidly identified by enzymatic digestion in 33 patients' samples and by hybridization and direct sequencing in the last 3 patients' samples. Our results show that the polymerase chain reaction provides a highly sensitive and specific technique for the identification of herpesviruses DNA in cerebrospinal fluid that should be of value for early and rapid diagnosis, therapeutic decisions, prognostic evaluation, and epidemiological studies.     

New PCR assay for rapid and quantitative detection of human cytomegalovirus in cerebrospinal fluid.

Rapid Chelex extraction combined with an automated hybridization assay for the detection of PCR-amplified human cytomegalovirus DNA from cerebrospinal fluid was established. Quantitation of DNA was performed with a plasmid being used as an external standard. The detection limit was 10 copies per microliter. Quantitative detection of human cytomegalovirus DNA could be achieved over a range from 10 to 10(4) copies per microliter.     

Detection and differentiation of human herpesviruses 1-5 by consensus primer PCR and RFLP

Eight human viruses of the Herpesviridae family represent a significant public health problem world-wide. Detection and typing of five of the human herpesviruses (HSV-1, HSV-2, VZV, EBV, and CMV) was performed by applying a consensus primer polymerase chain reaction (PCR). The amplified PCR products from the five human herpesviruses were typed based on their restriction enzyme digestion polymorphism with Hinf I and Alu I. Fifteen clinically suspected specimens from herpesvirus-infected patients were also evaluated. A fragment of the DNA polymerase gene from each of the five human herpesviruses was successfully amplified by the set of consensus primers. Their amplicons obtained by PCR from the template DNAs were subjected to restriction endonuclease digestion and human herpesviruses 1-5 could be clearly differentiated and typed. This method can be used to detect and differentiate between the five human herpesviruses in clinical specimens. This study demonstrates the value of testing for five human herpesviruses by consensus PCR and restricted fragment length polymorphism (RFLP). These procedures are simple and straightforward techniques for the investigation of clinical specimens.     

从人外周血B淋巴细胞中应用PCR扩增人抗体基因

本文用常规ＰＣＲ法和半套式ＰＣＲ法，以一组人抗体重链和轻链引物，直接从人外周血淋巴细胞中扩增出抗体重链Ｆｄ基因和轻链基因。一些常规ＰＣＲ法不能直接扩增的人抗体基因，用半套式ＰＣＲ法扩增却得到了阳性结果。扩增的抗体基因的分子量与国内外同类报道一致。本文结果提示，在建立抗体基因文库时，半套式ＰＣＲ法能进一步丰富扩增的抗体基因的多样性     

Quantification of human polyomavirus JC in brain tissue and cerebrospinal fluid of patients with progressive multifocal leukoencephalopathy by competitive PCR

Activation of human polyomavirus JC (JCV) infection is the cause of the central nervous system (CNS) disease progressive multifocal leukoencephalopathy (PML). Previous studies with uncontrolled quantification systems suggested that the virus load in the CNS correlates with the state of disease and might reflect therapeutic effects. Therefore the aim of this study was the development of a competitive system with standard PCR techniques that allowed rapid detection of JCV subtypes, simultaneous differentiation of the two human polyomaviruses JCV and BKV and absolute quantification of the virus burden in initial diagnosis and progressive disease states. Subtype- and species-specificity of the PCR was achieved with the development of a degenerative PCR primer pair that detected JCV DNA in a range regularly found in PML samples, but did not amplify BKV DNA. The accuracy of the system was evaluated by quantification of known amounts of cloned JCV DNA with a competitive JCV-specific template that exhibited a comparable amplification rate to that of the native product. The calibration study demonstrated a linear correlation over a wide range of DNA concentrations on the background of buffer or JCV-negative diagnostic samples. The reliability of the system for PML diagnosis was analysed by calibration and determination of the virus burden in tissue and cerebrospinal fluid (CSF) of 11 PML patients confirming the accuracy in both types of samples under diagnostic conditions. Comparison of the JCV DNA concentration in tissue and CSF by a tightly controlled quantification technique revealed for the first time differences in a range of about four orders of magnitude and a variable virus load in CSF samples taken at comparable states of disease. This pointed to an individual course of virus shedding and demonstrates that a controlled competitive PCR system of high accuracy is essential for reliable quantification of virus DNA either in initial diagnosis, in progressive disease or for the evaluation of therapeutic effects.     

Development of subfamily-based consensus PCR assays for the detection of human and animal herpesviruses

Consensus PCR assays that can be used to sensitively detect several herpesvirus (HV) species across the different subfamilies were developed in this study. Primers containing degenerate bases were designed to amplify regions of the DNA polymerase (DPOL) gene of alpha- and gamma-HVs, and the glycoprotein B (gB) gene of beta-HVs in a singleplex, non-nested touchdown PCR format. The singleplex touchdown consensus PCR (STC-PCR) was used to amplify the DNA of eight human and 24 animal HVs. The assay was able to detect the lowest DNA dilution of 10⁻⁵ for alpha-HVs and 10⁻³ for beta- and gamma-HVs. In comparison, lowest detection limits of 10⁻⁵, 10⁻³, and 10⁻² were obtained for alpha-, beta-, and gamma-HVs respectively when a nested PCR was used. The findings in this study suggest that the STC-PCR assays can be employed for the molecular surveys and clinical detection of novel and known HVs.

     

Detection of Toxoplasma gondii by PCR and tissue culture in cerebrospinal fluid and blood of human immunodeficiency virus-seropositive patients.

To investigate whether both tissue culture and PCR on a sequence from the repetitive rDNA could contribute to the diagnosis of toxoplasmosis, blood samples and, if they were available, cerebrospinal fluid (CSF) and aqueous humor samples from 72 human immunodeficiency virus-seropositive patients with suspected toxoplasmosis were prospectively tested. For 10 patients with fever of unknown origin but without confirmed toxoplasmosis, no Toxoplasma gondii was detected. For two patients with confirmed toxoplasmic uveitis, only PCR of aqueous humor samples was positive. Of 60 patients (48 with CSF samples) with neurological signs, 25 (from 13 of whom CSF samples were available) had confirmed cerebral toxoplasmosis and 10 had a positive PCR of CSF and/or blood samples, while for 1 patient culture of the CSF sample was also positive. Unlike tissue culture, PCR of rDNA is of value for the detection of cerebral toxoplasmosis in human immunodeficiency virus-seropositive patients, provided that both CSF and blood samples are available (sensitivity, 76.9%; specificity, 100%).     

Amplification of JC virus regulatory DNA sequences from cerebrospinal fluid: diagnostic value for progressive multifocal leukoencephalopathy

Summary.  Progressive multifocal leukoencephalopathy (PML) is a fatal demyelinating disease in the central nervous system caused by a ubiquitous human polyomavirus designated as JC virus (JCV). PML affects individuals with decreased immune competence and is now one of the common opportunistic infections in patients with AIDS. JCV DNAs in the brain of PML patients contain various PML-type regulatory regions that were generated from the archetypal regulatory region during persistence. Recently, many studies have suggested that detection of JCV DNA from the cerebrospinal fluid (CSF) may offer a tool for diagnosing PML. However, in all of these studies, coding sequences within the T antigen or capsid protein gene have been targeted for amplification. To amplify the JCV regulatory region, we established a nested PCR that could efficiently amplify the regulatory region from most JCV subtypes prevalent in the world. Using this PCR, we amplified JCV regulatory regions from the CSF samples from 4 patients strongly suspected of PML, whereas amplification was negative from 80 CSF samples from patients without PML. Sequencing of the amplified fragments revealed that they had unique deletions and/or duplications. Furthermore, in 3 PML patients, we analyzed the structures of regulatory regions derived from the brain as well as CSF. In each of these cases, the major regulatory sequence of both origins were identical. This finding indicates that JCV DNA in brain lesions is excreted in the CSF. Since the structures of PML-type JCV regulatory regions are unique to individual patients, the current PCR, if the amplified fragments are sequenced, can eliminate false positives that may arise from contaminations. Accepted September 29,1997 Received August 26, 1997     

Detection of polioviruses in human cerebrospinal fluid

Summary Poliovirus type 3 was detected in cerebrospinal fluids of 4 children out of 61 poliomyelitic patients which excreted virus in faeces or pharyngeal maucous. The importance of attempts for isolating virus from the spinal fluid is stressed.     

Differentiation and quantitation of human herpesviruses 6A, 6B and 7 by real-time PCR

The beta-herpesviruses cause considerable morbidity in immunocompromised individuals, such as transplant patients. Most notably within this group is human cytomegalovirus, although HHV-6 and -7 are a growing concern. Identifying HHV-6 and -7 as the cause of post-transplant illness can be challenging due to high seroprevalence and latency properties associated with these human herpesviruses. We have developed a sensitive and specific real-time PCR assay, which can differentiate reliably and quantify HHV-6A, -6B and -7. Using two sets of hybridization probes specific for HHV-6A or -6B and HHV-7, the assay reliably differentiates the three viruses using melting curve analysis. The lower limit of detection for all three viruses was determined to be ten viral genomes. This real-time PCR assay will be useful for differentiation and quantitation of HHV-6A, -6B and -7, especially for monitoring transplant patients.     

利用PCR构建多拷贝HIV—1 TAR序列的串联体

建立“自引物－模板”PCR方法，并应用此方法成功地扩增了多考贝HIV－1TAR处段的同时向串联体。此方法简便，省力，可用于多考贝基因探针、多拷贝反应基因片段，多拷贝抗原表位的扩增和克隆。