A nested-PCR assay for the simultaneous amplification of HSV-1, HSV-2, and HCMV genomes in patients with presumed herpetic CNS infections

High-throughput multiplexed xMAP Luminex array panel for detection of twenty two medically important mosquito-borne arboviruses based on innovations in synthetic biology

Mosquito-borne arboviruses are emerging world-wide as important human and animal pathogens. This makes assays for their accurate and rapid identification essential for public health, epidemiological, ecological studies. Over the past decade, many mono- and multiplexed assays targeting arboviruses nucleic acids have been reported. None has become established for the routine identification of multiple viruses in a "single tube" setting. With increasing multiplexing, the detection of viral RNAs is complicated by noise, false positives and negatives. In this study, an assay was developed that avoids these problems by combining two new kinds of nucleic acids emerging from the field of synthetic biology. The first is a "self-avoiding molecular recognition system" (SAMRS), which enables high levels of multiplexing. The second is an "artificially expanded genetic information system" (AEGIS), which enables clean PCR amplification in nested PCR formats. A conversion technology was used to place AEGIS component into amplicon, improving their efficiency of hybridization on Luminex beads. When Luminex "liquid microarrays" are exploited for downstream detection, this combination supports single-tube PCR amplification assays that can identify 22 mosquito-borne RNA viruses from the genera Flavivirus, Alphavirus, Orthobunyavirus. The assay differentiates between closely-related viruses, as dengue, West Nile, Japanese encephalitis, and the California serological group. The performance and the sensitivity of the assay were evaluated with dengue viruses and infected mosquitoes; as few as 6-10 dengue virions can be detected in a single mosquito.

Human herpesvirus infections of the central nervous system: laboratory diagnosis based on DNA detection by nested PCR in plasma and cerebrospinal fluid samples

Infections of the central nervous systems (CNS) present a diagnostic problem for which an accurate laboratory diagnosis is essential. Invasive practices, such as cerebral biopsy, have been replaced by obtaining a polymerase chain reaction (PCR) diagnosis using cerebral spinal fluid (CSF) as a reference method. Tests on DNA extracted from plasma are noninvasive, thus avoiding all of the collateral effects and patient risks associated with CSF collection. This study aimed to determine whether plasma can replace CSF in nested PCR analysis for the detection of CNS human herpesvirus (HHV) diseases by analysing the proportion of patients whose CSF nested PCR results were positive for CNS HHV who also had the same organism identified by plasma nested PCR. In this study, CSF DNA was used as the "gold standard," and nested PCR was performed on both types of samples. Fifty-two patients with symptoms of nervous system infection were submitted to CSF and blood collection. For the eight HHV, one positive DNA result-in plasma and/or CSF nested PCR-was considered an active HHV infection, whereas the occurrence of two or more HHVs in the same sample was considered a coinfection. HHV infections were positively detected in 27/52 (51.9%) of the CSF and in 32/52 (61.5%) of the plasma, difference not significant, thus nested PCR can be performed on plasma instead of CSF. In conclusion, this findings suggest that plasma as a useful material for the diagnosis of cases where there is any difficulty to perform a CSF puncture.

Detection of herpes simplex virus (1 and 2), varicella-zoster virus, cytomegalovirus, human herpesvirus 6 and enterovirus in immunocompetent Tunisian patients with acute neuromeningeal disorder

Enteroviruses (EVs) and human herpesviruses (HHVs) are involved frequently in acute neurological disorders of viral etiology. This study aimed to investigate the incidence of herpes simplex virus types-1 (HSV-1) and 2 (HSV-2), varicella-zoster virus (VZV), cytomegalovirus (CMV), human herpesvirus 6 (HHV-6) and human enteroviruses (EVs) in cerebrospinal fluid (CSF) samples of Tunisian immunocompetent patients with neuromeningeal disorders. The patients had been hospitalized at the Fattouma Bourguiba University Hospital (Monastir, Tunisia) between September 2007 and June 2009. At least one viral genome was detected in 58 (46%) out of 126 CSF samples collected. Enterovirus was detected in 31 of the positive samples (53.4%), CMV in 20 (34.5%), HSV-1 in 3 (5.2%), HSV-2 in 6 (10.3%), VZV in 4 (6.9%), HHV-6 in 2 (3.4%). More than one viral genome was detected in seven CSF samples, including CMV DNA in six of the samples. The high frequency of enteroviral infections in aseptic meningitis was confirmed. The detection of CMV DNA only suggests a direct role of this virus in the etiology of acute neuromeningeal disorder.

Detection and discrimination of herpes simplex viruses, Haemophilus ducreyi, Treponema pallidum, and Calymmatobacterium (Klebsiella) granulomatis from genital ulcers

BACKGROUND

Genital ulcer disease (GUD) is commonly caused by pathogens for which suitable therapies exist, but clinical and laboratory diagnoses may be problematic. This collaborative project was undertaken to address the need for a rapid, economical, and sensitive approach to the detection and diagnosis of GUD using noninvasive techniques to sample genital ulcers.

METHODS

The genital ulcer disease multiplex polymerase chain reaction (GUMP) was developed as an inhouse nucleic acid amplification technique targeting serious causes of GUD, namely, herpes simplex viruses (HSVs), H. ducreyi, Treponema pallidum, and Klebsiella species. In addition, the GUMP assay included an endogenous internal control. Amplification products from GUMP were detected by enzyme linked amplicon hybridization assay (ELAHA).

RESULTS

GUMP-ELAHA was sensitive and specific in detecting a target microbe in 34.3% of specimens, including 1 detection of HSV-1, three detections of HSV-2, and 18 detections of T. pallidum. No H. ducreyi has been detected in Australia since 1998, and none was detected here. No Calymmatobacterium (Klebsiella) granulomatis was detected in the study, but there were 3 detections during ongoing diagnostic use of GUMP-ELAHA in 2004 and 2005. The presence of C. granulomatis was confirmed by restriction enzyme digestion and nucleotide sequencing of the 16S rRNA gene for phylogenetic analysis.

CONCLUSIONS

GUMP-ELAHA permitted comprehensive detection of common and rare causes of GUD and incorporated noninvasive sampling techniques. Data obtained by using GUMP-ELAHA will aid specific treatment of GUD and better define the prevalence of each microbe among at-risk populations with a view to the eradication of chancroid and donovanosis in Australia.

One-tube semi-nested PCR-ELISA for the detection of human cytomegalovirus DNA sequences; comparison with hybridization-based and semi-nested-based PCR-ELISA procedures

Amplification of DNA targets by polymerase chain reaction (PCR) followed by their colorimetric detection in an enzyme-linked immunosorbent assay (ELISA) is increasingly used in both immunological research and clinical practice. Several methods for the labeling and detection of amplified DNA sequences have been previously described. In this study, we compared the conventional hybridization-based PCR-ELISA with a modified semi-nested and one-tube semi-nested PCR-ELISA for the detection of human cytomegalovirus (HCMV) DNA. Amplified DNA sequences were labeled with biotin and 2,4-dinitrophenyl (DNP), and detected by DNP-specific monoclonal antibody conjugated to alkaline phosphatase. Using a cloned HCMV DNA as a template, we found that the one-tube semi-nested PCR-ELISA gave a strong positive response when 20 copies of the template were used, whereas both the hybridization-based and the semi-nested-based PCR-ELISA required at least 200 template copies. The claim of higher sensitivity and robustness of the one-tube semi-nested assay was also supported by the analysis of plasma samples from patients treated for HCMV infection. Since the modified one-tube semi-nested PCR-ELISA is quick, sensitive and easy-to-perform, it can be used with advantage in routine identification of DNA targets in clinical and other specimens.

Rapid detection and quantification of RNA of Ebola and Marburg viruses, Lassa virus, Crimean-Congo hemorrhagic fever virus, Rift Valley fever virus, dengue virus, and yellow fever virus by real-time reverse transcription-PCR

Viral hemorrhagic fevers (VHFs) are acute infections with high case fatality rates. Important VHF agents are Ebola and Marburg viruses (MBGV/EBOV), Lassa virus (LASV), Crimean-Congo hemorrhagic fever virus (CCHFV), Rift Valley fever virus (RVFV), dengue virus (DENV), and yellow fever virus (YFV). VHFs are clinically difficult to diagnose and to distinguish; a rapid and reliable laboratory diagnosis is required in suspected cases. We have established six one-step, real-time reverse transcription-PCR assays for these pathogens based on the Superscript reverse transcriptase-Platinum Taq polymerase enzyme mixture. Novel primers and/or 5'-nuclease detection probes were designed for RVFV, DENV, YFV, and CCHFV by using the latest DNA database entries. PCR products were detected in real time on a LightCycler instrument by using 5'-nuclease technology (RVFV, DENV, and YFV) or SybrGreen dye intercalation (MBGV/EBOV, LASV, and CCHFV). The inhibitory effect of SybrGreen on reverse transcription was overcome by initial immobilization of the dye in the reaction capillaries. Universal cycling conditions for SybrGreen and 5'-nuclease probe detection were established. Thus, up to three assays could be performed in parallel, facilitating rapid testing for several pathogens. All assays were thoroughly optimized and validated in terms of analytical sensitivity by using in vitro-transcribed RNA. The >or=95% detection limits as determined by probit regression analysis ranged from 1,545 to 2,835 viral genome equivalents/ml of serum (8.6 to 16 RNA copies per assay). The suitability of the assays was exemplified by detection and quantification of viral RNA in serum samples of VHF patients.

Herpes Consensus PCR test: a useful diagnostic approach to the screening of viral diseases of the central nervous system

BACKGROUND

Infections of the central nervous system (CNS) are a difficult diagnostic problem for both clinicians and microbiologists. Various clinical signs, such as encephalitis, myelitis, meningitis, may be associated with herpesviruses. The use of multiplex 'Herpes Consensus' polymerase chain reaction (HC-PCR) in association with nested PCR (nPCR), in addition to classical techniques, made it possible to optimise the management of cerebrospinal fluid (CSF) and serum samples from patients affected by these viral diseases of the CNS.

OBJECTIVES

To test by HC-PCR by nPCR and cell culture the CSF and sera from patients with viral infections of the CNS.

STUDY DESIGN

We analysed 320 CFS, 154 serum samples and 11 various samples from 286 patients with clinically suspected encephalitis, meningitis or other diseases of the CNS by HC-PCR, nPCR and traditional investigations (cell culture and serological tests).

RESULTS

On molecular analysis with the HC-PCR test, 51 CFS samples (15.9%) were positive for at least one of the six target Herpes viruses: fourteen for Herpes simplex 1 (HSV-1), seven for HSV-2, 12 for Cytomegalovirus (CMV; one of which was from an HIV-positive patient), five for Epstein-Barr virus (EBV; four of which were from HIV-positive patients), three for Varicella-Zoster virus (VZV), five for Human Herpes virus type 6 (HHV-6), three for HSV-1 with HHV-6 co-infection (two cases) and HSV-2 co-infection (one case), and two for HHV-6 with CMV or EBV co-infection (both from patients with immune deficiency). A further 12 samples were positive in nPCR for HHV-7 (8), ADV (1), Enterovirus (1), HSV-1 (1), EBV (1). Of the 154 serum samples, 17 (11.0%) tested positive by HC-PCR for HSV-1 (4), HSV-2 (1), CMV(1), EBV(1), VZV(3) or HHV-6(6), 1 with co-HSV-2/VZV infection. A further five samples tested positive for HHV-7 in nPCR. Culture and tests for antibodies did not supply sufficiently sensitive and specific data.

CONCLUSIONS

Our laboratory experience shows that herpesviruses play a central aetiological role in viral infections of the CNS. PCR analysis, especially the HC-PCR test, have revolutionised the diagnostic approach to such infections, making possible rapid, specific and highly sensitive baseline screening. In this way, microbiological investigations can lead to prompt diagnosis, which was limited in the past to a very small number of cases.

Herpes simplex virus infection in the media of donor corneas during organ culture: frequency and consequences

BACKGROUND AND PURPOSE

According to polymerase chain reaction (PCR) studies 2-38% of organ culture donor corneas may contain herpes simplex virus (HSV) DNA, but there are only 6 reported instances of proven virus replication in a corneoscleral disc. Moreover there are only 6 patients reported in whom primary graft failure and extensive post-operative epithelial defects were probably caused by a herpetic infection of the corneal graft. Recently we observed virus replication in a donor cornea with subsequent complete endothelial necrosis in our cornea bank. The aim of this study was to investigate the possible correlation between herpetic donor cornea infection and endothelial necrosis in organ culture.

METHODS

To evaluate the frequency of HSV as a reason for endothelial necrosis in organ culture we tested the media of 199 donor corneas discarded due to an altered endothelium in the years 1997 to 1999 by PCR for HSV. As a negative control group we screened the media of 117 transplanted corneas using PCR.

RESULTS

In the control group we had only negative PCR results, in contrast to the corneas with severe or complete endothelial necrosis where HSV DNA was detected in 12 media of the corneas of 9 donors. Virus could be cultivated out of 7 media.

CONCLUSIONS

(1) HSV replication is a common cause of severe endothelial necrosis in organ culture corneas. (2) Replication of the virus during organ culture comes close to a virus cultivation using the corneoscleral disc as a cell culture. (3) We consider the danger of transplanting active HSV to be very small if critical assessment of the graft prior to surgery is carried out.

Single-tube two-round polymerase chain reaction using the LightCycler instrument

BACKGROUND

For many diagnostic applications, the specificity and sensitivity of polymerase chain reaction (PCR) is markedly enhanced by applying two rounds of PCR with nested or semi-nested pairs of primers. In two-round PCR protocols on the LightCycler instrument, amplification products must be collected from the capillaries by centrifugation, a procedure thought to be particularly prone to product carry-over.

OBJECTIVE

Development of a technique to perform two-round PCR with the LightCycler instrument in a single closed capillary.

STUDY DESIGN

Silicone oil was used to separate the second-round primers from first-round PCR mixture during the first-round PCR. The feasibility of the principle was demonstrated using a semi-nested primer system for the PCR analysis of genomic DNA. The first-round PCR reaction mixture was loaded into the capillary and covered by oil. Then, the second-round PCR reaction mixture was layered on top of it. PCR was run in two rounds separated by a centrifugation step that combined the second-round PCR mixture with the first-round products. Amplified products were visualized by fluorescence melting curve analysis.

RESULTS

When a dilution series of genomic DNA was used for the single-capillary two-round PCR, 0.1 ng of DNA could consistently be detected. This was a 10-fold increase of sensitivity in comparison with single-round PCR. With the new technique, the first-round reaction mixture was sufficiently separated from second-round primers by the oil layer.

CONCLUSIONS

Two-round PCR on the LightCycler using a single closed capillary excluded the possibility of amplification product carry-over. This new technique can easily be adapted for numerous applications, and should show feasibility for many nested primer PCR applications currently in use to the clinical detection of virus-derived DNA.

Multiplex PCR: optimization and application in diagnostic virology

PCR has revolutionized the field of infectious disease diagnosis. To overcome the inherent disadvantage of cost and to improve the diagnostic capacity of the test, multiplex PCR, a variant of the test in which more than one target sequence is amplified using more than one pair of primers, has been developed. Multiplex PCRs to detect viral, bacterial, and/or other infectious agents in one reaction tube have been described. Early studies highlighted the obstacles that can jeopardize the production of sensitive and specific multiplex assays, but more recent studies have provided systematic protocols and technical improvements for simple test design. The most useful of these are the empirical choice of oligonucleotide primers and the use of hot start-based PCR methodology. These advances along with others to enhance sensitivity and specificity and to facilitate automation have resulted in the appearance of numerous publications regarding the application of multiplex PCR in the diagnosis of infectious agents, especially those which target viral nucleic acids. This article reviews the principles, optimization, and application of multiplex PCR for the detection of viruses of clinical and epidemiological importance.

Multiplex PCR: optimization and application in diagnostic virology

PCR has revolutionized the field of infectious disease diagnosis. To overcome the inherent disadvantage of cost and to improve the diagnostic capacity of the test, multiplex PCR, a variant of the test in which more than one target sequence is amplified using more than one pair of primers, has been developed. Multiplex PCRs to detect viral, bacterial, and/or other infectious agents in one reaction tube have been described. Early studies highlighted the obstacles that can jeopardize the production of sensitive and specific multiplex assays, but more recent studies have provided systematic protocols and technical improvements for simple test design. The most useful of these are the empirical choice of oligonucleotide primers and the use of hot start-based PCR methodology. These advances along with others to enhance sensitivity and specificity and to facilitate automation have resulted in the appearance of numerous publications regarding the application of multiplex PCR in the diagnosis of infectious agents, especially those which target viral nucleic acids. This article reviews the principles, optimization, and application of multiplex PCR for the detection of viruses of clinical and epidemiological importance.

An outbreak of enterovirus 71 infection in Taiwan, 1998. II. Laboratory diagnosis and genetic analysis

BACKGROUND

An epidemic of enterovirus 71 (EV71) occurred in Taiwan from April to December of 1998, with two peaks, one in June and the other in October. Many enteroviruses were isolated in our laboratory from 258 cases during this outbreak. Approximately half of the enteroviruses isolated were EV71 and one fifth were coxsackievirus A16.

OBJECTIVES

To analyze laboratory findings in the EV71 epidemic of 1998 in Taiwan, various EV71 specimens in different cell lines were examined. In addition, genetic analysis of 5' non-coding region (NCR) was performed to analyze the strain variation in this outbreak.

RESULTS

The cytopathic effect induced by EV71 was observed 2-13 (mean of 4.5) days post-inoculation in Vero cells and 4-15 (mean of 6.6) days in green monkey kidney (GMK) cells inoculated with throat swabs. Of the total positive EV71 cases, virus was most frequently obtained from throat swabs (91.7%), less from stools (64.8%), and none from cerebral spinal fluid (CSF). Molecular analyses of EV71 by sequencing the 5' NCR of 34 strains obtained from different clinical categories and various geographic areas showed that their sequences differed (0-13 bp in 681 bp sequenced) by approximately 0-2%. The sequences of these isolates differed from EV71 prototype BrCr or MS strain by 17.5-19%, with the exception of two samples which exhibited nucleotide variation by only 8.9 and 8.2%, when compared to the MS strain.

CONCLUSION

EV71 was most frequently isolated from throat swab specimens in Vero cells. The molecular analyses of the 5' NCR of EV71 revealed that most isolates from this epidemic belonged to a group of closely related clones and only two were in a different group which was clustered with the EV71 MS strain.