Development of a Multiplex Tandem PCR (MT-PCR) Assay for the Detection of Emerging SARS-CoV-2 Variants.

The emergence of variants of SARS-CoV-2 has created challenges for the testing infrastructure. Although large-scale genome sequencing of SARS-CoV-2 has facilitated hospital and public health responses, access to sequencing facilities globally is variable and turnaround times can be significant, so there is a requirement for rapid and cost-effective alternatives. Applying a polymerase chain reaction (PCR)-based single nucleotide polymorphism (SNP) approach enables rapid (<4 h) identification of SARS-CoV-2 lineages from nucleic acid extracts, through the presence or absence of a panel of defined of genomic polymorphisms. For example, the B.1.1.7 lineage ("UK", "Alpha", or "Kent" variant) is characterised by 23 mutations compared to the reference strain, and the most biologically significant of these are found in the S gene. We have developed a SARS-CoV-2 typing assay focused on five positions in the S gene (HV69/70, N501, K417, E484 and P681). This configuration can identify a range of variants, including all the "Variants of Concern" currently designated by national and international public health bodies. The panel has been evaluated using a range of clinical isolates and standardised control materials at four UK hospitals and shows excellent concordance with the known lineage information derived from full sequence analysis. The assay has a turnaround time of about three hours for a set of up to 24 samples and has been utilised to identify emerging variants in a clinical setting.

A plasma ion bombardment process enabling reagent-free covalent binding of multiple functional molecules onto magnetic particles.

We report a plasma immersion ion implantation process for functionalizing polymer coated magnetic particles, converting them into a universal covalent binding platform for the simultaneous binding of multiple molecular agents without the need for specialised chemical linking groups. As an example, we demonstrate the improvement of wettability and the control of surface charge of polystyrene coated magnetic particles, enhancing biomolecule attachment density with strong covalent binding. We demonstrate the preparation of multifunctional magnetic particles where two or more types of molecule are co-immobilized. This enables a platform technology with simultaneous multiple covalent binding of molecules drawn from oligonucleotides, antibodies and enzymes suitable for targeted nanoparticle diagnostic and therapies.

Multiplex-tandem PCR for fungal diagnostics.

Multiplex, real-time PCR has become an invaluable tool for the rapid identification of pathogens in clinical specimens enabling earlier and more targeted management of antimicrobial therapy. In this chapter, we describe the methodology behind a novel multiplex-tandem PCR (MT-PCR) platform designed for the rapid identification of up to 18 fungal pathogens in blood cultures, primary isolation plates, and whole blood, serum, and plasma.

Establishment of a robotic, high-throughput platform for the specific diagnosis of gastrointestinal nematode infections in sheep.

The accurate diagnosis of strongylid nematode infections is central to investigating their epidemiology and for parasite control. To overcome major limitations in sensitivity or specificity of traditional methods, including faecal egg count (FEC) and/or larval culture (LC), we evaluated and established a semi-automated, high throughput multiplexed-tandem PCR (MT-PCR) platform for the diagnosis of gastrointestinal strongylid nematode infections in sheep, and established its diagnostic sensitivity (100%) and specificity (87.5%) based on the testing of 100 faecal DNA samples from helminth-free sheep and 30 samples from sheep with infections confirmed by necropsy. Subsequently, the platform was employed to test 219 faecal samples from sheep with naturally acquired infections from various geographical localities within Australia and the results compared with those from conventional LC using 139 of the 219 samples. The results obtained using both MT-PCR and LC correlated significantly for most nematodes examined, but revealed that Oesophagostomum venulosum and Chabertia ovina (parasites of the large intestine) were significantly under-represented in the LC results. The results showed that Trichostrongylus spp. (87%), Teladorsagia circumcincta (80%) and Haemonchus contortus (67%) had the highest prevalences, followed by O. venulosum (51%) and C. ovina (12%). The molecular-diagnostic platform established can be used for species- or genus-specific diagnosis of patent nematode infections within 24h (compared with 7-10 days for LC), and is a sensitive and cost effective tool for routine application in research and service laboratories.

Detection of diarrhoeal pathogens in human faeces using an automated, robotic platform.

Infectious diarrhoeal diseases represent a major socio-economic burden to humans, and are linked to a range of pathogens, including viruses, bacteria and protists. The accurate detection of such pathogens is central to control. However, detection often relies on methods that have limited diagnostic sensitivity and specificity. Here, we assessed an automated, robotic platform for the simultaneous detection of eight major pathogens associated with infectious diarrhoea. Genomic DNA samples (n = 167) from faeces from humans with diarrhoea and diagnosed as cryptosporidiosis, and 100 uninfected control subjects, were tested for adenovirus 40/41, norovirus, Clostridium difficile, Campylobacter, Salmonella, Shigella, Cryptosporidium and Giardia by multiplexed-tandem PCR, and also characterized by single-strand conformation polymorphism analysis (SSCP) and selective sequencing. All 167 samples tested positive for Cryptosporidium, five for adenovirus 40/41, four for Campylobacter, three for C. difficile and seven for Shigella spp., with no false positive results for any assay. The automated PCR exhibited a high sensitivity, with <10 individual pathogens being readily detected. The robotic detection platform assessed here represents a sensitive, high-throughput tool for key pathogens linked to infectious diarrhoea in humans. This platform requires little molecular biological expertise and is well suited to various diagnostic facilities and settings.

Rapid semi-automated quantitative multiplex tandem PCR (MT-PCR) assays for the differential diagnosis of influenza-like illness.

BACKGROUND: Influenza A, including avian influenza, is a major public health threat in developed and developing countries. Rapid and accurate detection is a key component of strategies to contain spread of infection, and the efficient diagnosis of influenza-like-illness is essential to protect health infrastructure in the event of a major influenza outbreak. METHODS: We developed a multiplexed PCR (MT-PCR) assay for the simultaneous diagnosis of respiratory viruses causing influenza-like illness, including the specific recognition of influenza A haemagglutinin subtypes H1, H3, and H5. We tested several hundred clinical specimens in two diagnostic reference laboratories and compared the results with standard techniques. RESULTS: The sensitivity and specificity of these assays was higher than individual assays based on direct antigen detection and standard PCR against a range of control templates and in several hundred clinical specimens. The MT-PCR assays provided differential diagnoses as well as potentially useful quantitation of virus in clinical samples. CONCLUSIONS: MT-PCR is a potentially powerful tool for the differential diagnosis of influenza-like illness in the clinical diagnostic laboratory.

Multiplexed tandem polymerase chain reaction identifies strong expression of oestrogen receptor and Her-2 from single, formalin-fixed, paraffin-embedded breast cancer sections.

AIM: To establish the suitability of multiplex tandem polymerase chain reaction (MT-PCR) for rapid identification of oestrogen receptor (ER) and Her-2 status using a single, formalin-fixed, paraffin-embedded (FFPE) breast tumour section. METHODS: Tissue sections from 29 breast tumours were analysed by immunohistochemistry (IHC) and fluorescence in situ hybridisation (FISH). RNA extracted from 10 mum FFPE breast tumour sections from 24 of 29 tumours (14 ER positive and 5 Her-2 positive) was analysed by MT-PCR. After establishing a correlation between IHC and/or FISH and MT-PCR results, the ER/Her-2 status of a further 32 randomly selected, archival breast tumour specimens was established by MT-PCR in a blinded fashion, and compared to IHC/FISH results. RESULTS: MT-PCR levels of ER and Her-2 showed good concordance with IHC and FISH results. Furthermore, among the ER positive tumours, MT-PCR provided a quantitative score with a high dynamic range. Threshold values obtained from this data set applied to 32 archival tumour specimens showed that tumours strongly positive for ER and/or Her-2 expression were easily identified by MT-PCR. CONCLUSION: MT-PCR can provide rapid, sensitive and cost-effective analysis of FFPE material and may prove useful as triage to identify patients suited to endocrine or trastuzumab (Herceptin) treatment.

Comparison of whole blood, serum, and plasma for early detection of candidemia by multiplex-tandem PCR.

We applied multiplex-tandem PCR (MT-PCR) to 255 EDTA whole-blood specimens, 29 serum specimens, and 24 plasma specimens from 109 patients with Candida bloodstream infection (candidemia) to determine whether a diagnosis could be expedited in comparison with the time to diagnosis by the use of standard blood culture. Overall, the MT-PCR performed better than blood culture with DNA extracted from whole blood from 52/74 (70%) patients, accelerating the time to detection (blood culture flagging) and determination of the pathogenic species (by use of the API 32C system [bioMérieux, Marcy l'Etoile, France]) by up to 4 days (mean, 2.2 days; range, 0.5 to 8 days). Candida DNA was detected more often in serum (71%) and plasma (75%) than in whole blood (54%), although relatively small numbers of serum and plasma specimens were tested. The sensitivity, specificity, positive predictive value, and negative predictive value of the assay with whole blood were 75%, 97%, 95%, and 85%, respectively. Fungal DNA was not detected by MT-PCR in 6/24 (25%) whole-blood samples drawn simultaneously with the positive blood culture sample. MT-PCR performed better with whole-blood specimens stored at -20 degrees C (75%) and when DNA was extracted within 1 week of sampling (66%). The molecular and culture identification results correlated for 61 of 66 patients (92%); one discrepant result was due to misidentification by culture. All but one sample from 53 patients who were at high risk of candidemia but did not have proven disease were negative by MT-PCR. The results demonstrate the good potential of MT-PCR to detect candidemia, to provide Candida species identification prior to blood culture positivity, and to provide improved sensitivity when applied to with serum and plasma specimens.

Clinical applications for the use of enzymatic debriding ointment and broad-spectrum bacteriostatic foam dressing.

The optimal management of a chronic, nonhealing wound is challenging to experienced and novice clinicians alike. Treatment must be individualized, but principles of wound bed preparation, including debridement of necrotic tissue, maintenance of moisture in the wound, and prevention of bacterial overgrowth, guide the management of nonhealing wounds caused by a variety of different etiologies. This article summarizes our experiences with 2 products, collagenase ointment and crystal violet/methylene blue-impregnated foam, in the treatment of 3 nonhealing wounds.

Colony multiplex-tandem PCR for rapid, accurate identification of fungal cultures.

We developed a multiplex tandem PCR (MT-PCR) assay for the rapid identification of 16 fungi directly from culture. MT-PCR results were concordant with phenotypic identification for all cultures studied (n = 183). The colony MT-PCR assay was rapid (<2 h), sensitive, and specific in identifying fungal pathogens directly from primary isolation plates.

Multiplex tandem PCR: a novel platform for rapid detection and identification of fungal pathogens from blood culture specimens.

We describe the first development and evaluation of a rapid multiplex tandem PCR (MT-PCR) assay for the detection and identification of fungi directly from blood culture specimens that have been flagged as positive. The assay uses a short-cycle multiplex amplification, followed by 12 simultaneous PCRs which target the fungal internal transcribed spacer 1 (ITS1) and ITS2 region, elongation factor 1-alpha (EF1-alpha), and beta-tubulin genes to identify 11 fungal pathogens: Candida albicans, Candida dubliniensis, Candida glabrata, Candida guilliermondii, Candida krusei, Candida parapsilosis complex, Candida tropicalis, Cryptococcus neoformans complex, Fusarium solani, Fusarium species, and Scedosporium prolificans. The presence or absence of a fungal target was confirmed by melting curve analysis. Identification by MT-PCR correlated with culture-based identification for 44 (100%) patients. No cross-reactivity was detected in 200 blood culture specimens that contained bacteria or in 30 blood cultures without microorganisms. Fungi were correctly identified in five specimens with bacterial coinfection and in blood culture samples that were seeded with a mixture of yeast cells. The MT-PCR assay was able to provide rapid (<2 h), sensitive, and specific simultaneous detection and identification of fungal pathogens directly from blood culture specimens.

Increased plasma interleukin-7 level correlates with decreased CD127 and Increased CD132 extracellular expression on T cell subsets in patients with HIV-1 infection.

BACKGROUND: Interleukin (IL)-7 levels are increased in patients with human immunodeficiency virus type 1 (HIV-1)-associated lymphopenia; however, the effects of this on IL-7 receptor (IL-7R) expression, disease progression, and immune reconstitution remain unclear. METHODS: Plasma IL-7 levels were measured, by enzyme-linked immunoassay, in patients with primary, chronic, or long-term nonprogressive HIV-1 infection (PHI, CHI, and LTNP, respectively) before and after 40-48 weeks of antiretroviral therapy (ART). Cell-surface expression and intracellular expression of the IL-7R components CD127 and CD132 were measured by flow cytometry. The effects of IL-7 and cycloheximide on IL-7R expression by peripheral blood mononuclear cells were examined in vitro. RESULTS: Plasma IL-7 levels were increased in both patients with PHI and those with CHI; administration of ART resulted in normalized plasma IL-7 levels in patients with PHI but not in those with CHI. Plasma IL-7 levels positively correlated with CD4(+) T cell immune reconstitution in patients with PHI. In vitro, exogenous IL-7 rapidly down-regulated cell-surface CD127 expression, but not CD132 expression, whereas subsequent reexpression required active protein synthesis. HIV-1 infection resulted in progressive decreases in the CD127(+)132(-) subset and increases in the CD127(-)132(+) subset of CD4(+) and CD8(+) T cells. Changes in CD4(+) T cell expression of IL-7R components were evident in patients with LTNP who lost viral control, and these changes preceded increases in plasma IL-7 levels. CONCLUSIONS: Perturbations in the IL-7/IL-7R system were clearly associated with disease progression but did not reliably predict immune reconstitution.

Multiplexed tandem PCR: gene profiling from small amounts of RNA using SYBR Green detection.

Multiplexed tandem PCR (MT-PCR) is a process for highly multiplexed gene expression profiling. In the first step, multiple primer pairs are added to the RNA to be analysed together with reverse transcriptase and Taq DNA polymerase. Following reverse transcription, the multiplexed amplicons are simultaneously amplified for a small number of cycles so as to avoid competition between amplicons. The reaction product is then diluted and analysed in multiple individual PCRs using primers nested inside the primers used for the multiplexed amplification. As the second PCR uses a template enriched in the amplicons of interest, the conditions can be optimized to significantly reduce 'primer dimer' formation allowing SYBR Green chemistry to be used for quantification. MT-PCR can be configured for as little as 10 pg RNA (equivalent to a single mammalian cell) and works well with RNA extracted from archival formalin-fixed paraffin-embedded sections. We illustrate MT-PCR with gene expression profiles of breast cancer cell lines.

A novel gene family induced by acute inflammation in endothelial cells.

The aim of this study was to characterise a novel family of inflammatory genes induced by pro-inflammatory cytokines in primary human endothelial cells. Using a genome-wide array screen two previously uncharacterised genes, NLF1 and NLF2 were identified that were upregulated over 30 fold by treatment with interleukin 1beta for 2 h. They were also found to respond to tumour necrosis factor alpha, suggesting a general role in inflammation. Expression of both genes peaked 2 h after addition of interleukin 1beta, with similar kinetics to the fastest nuclear factor kappaB (NF-kappaB) induced genes. The activation of both genes by interleukin 1beta was abrogated by the proteasomal inhibitor, lactacystin which blocks activation of NF-kappaB by preventing IkappaB degradation. Furthermore, two sequences with homology to NF-kappaB binding sites in the promoter of NLF1 were found to be essential for rapid elevation in expression in response to interleukin 1beta. NLF1 and NLF2 transcripts were found predominantly in endothelial cells, and the encoded proteins were localised to the nuclear compartment suggesting a role in the regulation of transcription. Transfection of recombinant NLF into endothelial cells resulted in upregulation of the Rho kinases, Rnd1 and Gem GTPase. We propose that NLF1 and NLF2 belong to a novel gene family encoding nuclear factors with a role in regulating genes which control cellular architecture. This might increase vascular permeability in acute inflammation.

Polarised secretion of cytokines in primary human microvascular endothelial cells is not dependent on N-linked glycosylation.

Human microvascular endothelial cells (HMVEC) grow in monolayers on Transwell filters and restrict permeability between the apical and basolateral media. We show that these cell monolayers are capable of sorting labelled endogenous proteins, including chemokines, growth factors and cytokines, to either the apical or basolateral media. IL-8 and GMCSF were secreted predominantly into the apical medium, whereas MIC-1 was secreted into the basolateral medium. This polarity did not correlate with glycosylation, as IL-8 and MIC-1 are both N-glycosylated, but were sorted to opposite sides of the cell. IL-6 is not glycosylated and did not display significant polarity in secretion. Similarly, the polarity of secretion of endogenous glycoproteins was not related to their glycosylation.

Lysosomal traffic of liganded endothelin B receptor.

The endothelin B receptor (ETB) is an endothelial cell receptor found in caveolae. Studies with GFP-tagged ETB have suggested that the protein is constitutively endocytosed and targeted to lysosomes where it is rapidly degraded. We report that iodinated endothelin-1 ligand (ET-1) is taken up by cells transfected with ETB and remains undegraded for at least 17 h. Analysis of the intracellular traffic of endocytosed ET-1 on isotonic Ficoll gradients shows that it is rapidly internalised to lysosomes by a chloroquine sensitive and cholesterol dependent pathway. Low-temperature nonreducing SDS gels show that the ET-1 initially binds to full-length GFP-tagged ETB, which is rapidly clipped at the amino-terminus and is then stable for at least 6 h. Analysis of GFP tagged ETB on reducing SDS gels shows that it is proteolytically cleaved with a half time of approximately 3 h. However, nonreducing gels show that the receptor is virtually intact, suffering only a similar cleavage to the liganded receptor. We conclude that the ETB receptor shows remarkable stability in lysosomes, held together by disulfide bonds, and maintaining ligand binding for long periods of time.