Your search keyword '"Korbie D"' showing total 62 results

1. 18P A translational project of the WSG-ADAPT-TN trial demonstrates immunomodulatory and anti-viral defense gene networks predicting pathological complete response (pCR) and survival after de-escalated neoadjuvant chemotherapy (NACT) in early triple-negative breast cancer (eTNBC)

Author

Graeser, M., primary, Harbeck, N., additional, Gluz, O., additional, Nitz, U.A., additional, Christgen, M., additional, Kuemmel, S., additional, Grischke, E-M., additional, Forstbauer, H., additional, Braun, M., additional, Warm, M., additional, Hackmann, J.C., additional, Uleer, C., additional, Aktas, B., additional, Würstlein, R., additional, Pelz, E., additional, Eulenburg, C. Zu, additional, Kreipe, H., additional, Trau, M., additional, Stirzaker, C., additional, and Korbie, D., additional

Published

2023

2. Extracellular vesicles as circulating cancer biomarkers: opportunities and challenges

Author

Lane, R. E., Korbie, D., Hill, M. M., and Trau, M.

Published

2018

3. Transcriptional comparison of testicular adrenal rest tumors with fetal and adult tissues

Author

Schröder, Mariska A.M., Sweep, F.C.G.J., Herwaarden, A.E. van, Mitchell, R.T., Eliveld, J., Pelt, A.M.M. van, Rowan, A.E., Korbie, D., Stikkelbroeck, N., Claahsen-van der Grinten, H.L., Span, P.N., Schröder, Mariska A.M., Sweep, F.C.G.J., Herwaarden, A.E. van, Mitchell, R.T., Eliveld, J., Pelt, A.M.M. van, Rowan, A.E., Korbie, D., Stikkelbroeck, N., Claahsen-van der Grinten, H.L., and Span, P.N.

Abstract

Item does not contain fulltext, BACKGROUND: Testicular adrenal rest tumors (TART) are a common complication of unknown cellular origin in patients with congenital adrenal hyperplasia (CAH). These benign tumors have both adrenal and testicular characteristics and are hypothesized to either derive from cells of adrenal origin from the fetal adrenogonadal primordium or by atypical differentiation of adult Leydig-progenitor cells. OBJECTIVE: This study aims to unravel the identity and etiology of TART. METHODS: Co-expression of adrenal-specific CYP11B1 and Leydig cell-specific HSD17B3 in TART was studied using immunohistochemistry. We studied the possibility of TART being derived from atypical differentiation of adult Leydig-progenitor cells by the quantification of adrenal-specific enzyme expression upon adrenocorticotrophic hormone (ACTH)-like stimulation of ex vivo cultured platelet-derived growth factor receptor alpha-positive cells. By comparing the transcriptome of TART (n = 16) with the transcriptome of fetal adrenal (n = 13), fetal testis (n = 5), adult adrenal (n = 11), and adult testis (n = 10) tissues, we explored the identity of TART. RESULTS: We demonstrate co-expression of adrenal-specific CYP11B1 and testis-specific HSD17B3 in TART cells, indicating the existence of a distinct TART cell exhibiting both adrenal and testicular characteristics. Ex vivo cultured adult Leydig-progenitor cells did not express the ACTH-receptor MC2R but did express CYP11B1 upon stimulation. Unsupervised clustering of transcriptome data showed that TART was most similar to adult adrenal tissue, followed by adult testis tissue, and least similar to either fetal tissue. CONCLUSION: Our data suggest that TART is induced - most likely via activation of a cAMP/protein kinase A-dependent receptor - from a progenitor cell into a unique mature adrenal-like cell type, sometimes exhibiting both adrenal and testicular features.

Published

2022

4. Comprehensive evaluation of targeted multiplex bisulphite PCR sequencing for validation of DNA methylation biomarker panels

Author

Lam, D, Luu, P-L, Song, JZ, Qu, W, Risbridger, GP, Lawrence, MG, Lu, J, Trau, M, Korbie, D, Clark, SJ, Pidsley, R, Stirzaker, C, Lam, D, Luu, P-L, Song, JZ, Qu, W, Risbridger, GP, Lawrence, MG, Lu, J, Trau, M, Korbie, D, Clark, SJ, Pidsley, R, and Stirzaker, C

Abstract

BACKGROUND: DNA methylation is a well-studied epigenetic mark that is frequently altered in diseases such as cancer, where specific changes are known to reflect the type and severity of the disease. Therefore, there is a growing interest in assessing the clinical utility of DNA methylation as a biomarker for diagnosing disease and guiding treatment. The development of an accurate loci-specific methylation assay, suitable for use on low-input clinical material, is crucial for advancing DNA methylation biomarkers into a clinical setting. A targeted multiplex bisulphite PCR sequencing approach meets these needs by allowing multiple DNA methylated regions to be interrogated simultaneously in one experiment on limited clinical material. RESULTS: Here, we provide an updated protocol and recommendations for multiplex bisulphite PCR sequencing (MBPS) assays for target DNA methylation analysis. We describe additional steps to improve performance and reliability: (1) pre-sequencing PCR optimisation which includes assessing the optimal PCR cycling temperature and primer concentration and (2) post-sequencing PCR optimisation to achieve uniform coverage of each amplicon. We use a gradient of methylated controls to demonstrate how PCR bias can be assessed and corrected. Methylated controls also allow assessment of the sensitivity of methylation detection for each amplicon. Here, we show that the MBPS assay can amplify as little as 0.625 ng starting DNA and can detect methylation differences of 1% with a sequencing coverage of 1000 reads. Furthermore, the multiplex bisulphite PCR assay can comprehensively interrogate multiple regions on 1-5 ng of formalin-fixed paraffin-embedded DNA or circulating cell-free DNA. CONCLUSIONS: The MBPS assay is a valuable approach for assessing methylated DNA regions in clinical samples with limited material. The optimisation and additional quality control steps described here improve the performance and reliability of this method, advancing it towa

Published

2020

5. Abstract P2-08-02: Interaction of PIK3CA mutation subclasses with response to preoperative treatment with the PI3K inhibitor pictilisib in patients with estrogen receptor-positive breast cancer

Author

Schmid, P, primary, Pinder, S, additional, Wheatley, D, additional, Zummit, C, additional, Macaskill, EJ, additional, Hu, J, additional, Price, R, additional, Bundred, N, additional, Hadad, S, additional, Shia, A, additional, Sarker, S-J, additional, Lim, L, additional, Mousa, K, additional, O'Brien, C, additional, Wilson, TR, additional, Lackner, MR, additional, Gendreau, S, additional, Gazinska, P, additional, Korbie, D, additional, Trau, M, additional, Mainwaring, P, additional, Thompson, A, additional, and Purushotham, A, additional

Published

2019

6. Abstract P1-15-21: The molecular characterisation of early and advanced breast cancer in a Middle-Eastern breast cancer cohort treated with neo/adjuvant anthracycline+/-taxane-based chemotherapy

Author

Dawood, S, primary, Korbie, D, additional, Pheasant, M, additional, Kazim, H, additional, Al Hamadi, A, additional, Lloyd, C, additional, Dent, R, additional, and Mainwaring, PN, additional

Published

2019

7. MiR-29b-1-5p is altered in BRCA1 mutant tumours and is a biomarker in basal-like breast cancer.

Author

Milevskiy, MJG, Sandhu, GK, Wronski, A, Korbie, D, Brewster, BL, Shewan, A, Edwards, SL, French, JD, Brown, MA, Milevskiy, MJG, Sandhu, GK, Wronski, A, Korbie, D, Brewster, BL, Shewan, A, Edwards, SL, French, JD, and Brown, MA

Abstract

Depletion of BRCA1 protein in mouse mammary glands results in defects in lactational development and increased susceptibility to mammary cancer. Extensive work has focussed on the role of BRCA1 in the normal breast and in the development of breast cancer, the cell of origin for BRCA1 tumours and the protein-coding genes altered in BRCA1 deficient cells. However, the role of non-coding RNAs in BRCA1-deficient cells is poorly understood. To evaluate miRNA expression in BRCA1 deficient mammary cells, RNA sequencing was performed on the mammary glands of Brca1 knockout mice. We identified 140 differentially expressed miRNAs, 9 of which were also differentially expressed in human BRCA1 breast tumours or familial non-BRCA1 patients and during normal gland development. We show that BRCA1 binds to putative cis-elements in promoter regions of the miRNAs with the potential to regulate their expression, and that four miRNAs (miR-29b-1-5p, miR-664, miR-16-2 and miR-744) significantly stratified the overall survival of basal-like tumours. Importantly the prognostic value of miR-29b-1-5p was higher in significance than several commonly used clinical biomarkers. These results emphasise the role of Brca1 in modulating expression of miRNAs and highlights the potential for BRCA1 regulated miRNAs to be informative biomarkers associated with BRCA1 loss and survival in breast cancer.

Published

2018

8. Evaluation of Different Oligonucleotide Base Substitutions at CpG Binding sites in Multiplex Bisulfite-PCR sequencing

Author

Lu, J, Ru, K, Candiloro, I, Dobrovic, A, Korbie, D, Trau, M, Lu, J, Ru, K, Candiloro, I, Dobrovic, A, Korbie, D, and Trau, M

Abstract

Multiplex bisulfite-PCR sequencing is a convenient and scalable method for the quantitative determination of the methylation state of target DNA regions. A challenge of this application is the presence of CpGs in the same region where primers are being placed. A common solution to the presence of CpGs within a primer-binding region is to substitute a base degeneracy at the cytosine position. However, the efficacy of different substitutions and the extent to which bias towards methylated or unmethylated templates may occur has never been evaluated in bisulfite multiplex sequencing applications. In response, we examined the performance of four different primer substitutions at the cytosine position of CpG's contained within the PCR primers. In this study, deoxyinosine-, 5-nitroindole-, mixed-base primers and primers with an abasic site were evaluated across a series of methylated controls. Primers that contained mixed- or deoxyinosine- base modifications performed most robustly. Mixed-base primers were further selected to determine the conditions that induce bias towards methylated templates. This identified an optimized set of conditions where the methylated state of bisulfite DNA templates can be accurately assessed using mixed-base primers, and expands the scope of bisulfite resequencing assays when working with challenging templates.

Published

2017

9. MethPat: a tool for the analysis and visualisation of complex methylation patterns obtained by massively parallel sequencing

Author

Wong, NC, Pope, BJ, Candiloro, IL, Korbie, D, Trau, M, Wong, SQ, Mikeska, T, Zhang, X, Pitman, M, Eggers, S, Doyle, SR, Dobrovic, A, Wong, NC, Pope, BJ, Candiloro, IL, Korbie, D, Trau, M, Wong, SQ, Mikeska, T, Zhang, X, Pitman, M, Eggers, S, Doyle, SR, and Dobrovic, A

Abstract

BACKGROUND: DNA methylation at a gene promoter region has the potential to regulate gene transcription. Patterns of methylation over multiple CpG sites in a region are often complex and cell type specific, with the region showing multiple allelic patterns in a sample. This complexity is commonly obscured when DNA methylation data is summarised as an average percentage value for each CpG site (or aggregated across CpG sites). True representation of methylation patterns can only be fully characterised by clonal analysis. Deep sequencing provides the ability to investigate clonal DNA methylation patterns in unprecedented detail and scale, enabling the proper characterisation of the heterogeneity of methylation patterns. However, the sheer amount and complexity of sequencing data requires new synoptic approaches to visualise the distribution of allelic patterns. RESULTS: We have developed a new analysis and visualisation software tool "Methpat", that extracts and displays clonal DNA methylation patterns from massively parallel sequencing data aligned using Bismark. Methpat was used to analyse multiplex bisulfite amplicon sequencing on a range of CpG island targets across a panel of human cell lines and primary tissues. Methpat was able to represent the clonal diversity of epialleles analysed at specific gene promoter regions. We also used Methpat to describe epiallelic DNA methylation within the mitochondrial genome. CONCLUSIONS: Methpat can summarise and visualise epiallelic DNA methylation results from targeted amplicon, massively parallel sequencing of bisulfite converted DNA in a compact and interpretable format. Unlike currently available tools, Methpat can visualise the diversity of epiallelic DNA methylation patterns in a sample.

Published

2016

10. Multiplex bisulfite PCR resequencing of clinical FFPE DNA

Author

Korbie, D, Lin, E, Wall, D, Nair, SS, Stirzaker, C, Clark, SJ, Trau, M, Korbie, D, Lin, E, Wall, D, Nair, SS, Stirzaker, C, Clark, SJ, and Trau, M

Abstract

Background: The clinical utility of DNA methylation as a predictive or prognostic biomarker requires scalable resequencing protocols for bisulfite-converted DNA. Key features of any validation method should be adaptability for low-or high-throughput needs and high reproducibility, and should only require minimal amounts of precious clinical sample as input material. Critically, this method should also deliver robust results when working with bisulfite-converted DNA extracted from formalin-fixed, paraffin-embedded (FFPE) blocks. Results: We report here for the first time on comparison studies between the Fluidigm Access Array system and multiplex assays for multiplex bisulfite PCR resequencing. The requirement of the Fluidigm Access Array system for high template amounts and its sensitivity to variations in template quality rendered it unsuitable for bisulfite PCR applications utilizing FFPE DNA. In response to this limitation, we established a multiplex bisulfite PCR assay capable of delivering robust methylation data using minimal amounts of FFPE clinical DNA. To evaluate the parameters and reproducibility of this assay, 57 amplicons were used to prepare sequencing libraries in triplicate for 13 FFPE tumour samples, as well as a series of 5 methylated controls (0%, 25%, 50%, 75%, and 100%). Analysis of this data demonstrated that this multiplex assay had high reproducibility (mean standard deviation of 1.4% for methylation values), was low cost, required low sample input (50 ng of DNA or less), and could be scaled for both low-and high-throughput needs. Notably, ExoSAP-IT (exonuclease I) treatment to remove residual primers in bisulfite resequencing libraries appeared to degrade the library and generate a high-molecular weight smear which may impact on the degree of methylation assessed. Conclusions: Multiplex bisulfite PCR assays represent a convenient and scalable method for validation and screening of methylated DNA regions from archival FFPE DNA. Moreover, the

Published

2015

11. Exemplary multiplex bisulfite amplicon data used to demonstrate the utility of Methpat

Author

Wong, NC, Pope, BJ, Candiloro, I, Korbie, D, Trau, M, Wong, SQ, Mikeska, T, van Denderen, BJW, Thompson, EW, Eggers, S, Doyle, SR, Dobrovic, A, Wong, NC, Pope, BJ, Candiloro, I, Korbie, D, Trau, M, Wong, SQ, Mikeska, T, van Denderen, BJW, Thompson, EW, Eggers, S, Doyle, SR, and Dobrovic, A

Abstract

BACKGROUND: DNA methylation is a complex epigenetic marker that can be analyzed using a wide variety of methods. Interpretation and visualization of DNA methylation data can mask complexity in terms of methylation status at each CpG site, cellular heterogeneity of samples and allelic DNA methylation patterns within a given DNA strand. Bisulfite sequencing is considered the gold standard, but visualization of massively parallel sequencing results remains a significant challenge. FINDINGS: We created a program called Methpat that facilitates visualization and interpretation of bisulfite sequencing data generated by massively parallel sequencing. To demonstrate this, we performed multiplex PCR that targeted 48 regions of interest across 86 human samples. The regions selected included known gene promoters associated with cancer, repetitive elements, known imprinted regions and mitochondrial genomic sequences. We interrogated a range of samples including human cell lines, primary tumours and primary tissue samples. Methpat generates two forms of output: a tab-delimited text file for each sample that summarizes DNA methylation patterns and their read counts for each amplicon, and a HTML file that summarizes this data visually. Methpat can be used with publicly available whole genome bisulfite sequencing and reduced representation bisulfite sequencing datasets with sufficient read depths. CONCLUSIONS: Using Methpat, complex DNA methylation data derived from massively parallel sequencing can be summarized and visualized for biological interpretation. By accounting for allelic DNA methylation states and their abundance in a sample, Methpat can unmask the complexity of DNA methylation and yield further biological insight in existing datasets.

Published

2015

12. Abstract P4-05-16: Quality metric study of real-time targeted massive parallel sequencing (MPS) (ampliseq comprehensive cancer panel (CCP)) and bioinformatics in early breast cancer (EBC) using life technologies ion proton system

Author

Mainwaring, PN, primary, Pyke, C, additional, Korbie, D, additional, Pheasant, M, additional, O'Neill, K, additional, Musgrave, K, additional, Phillips, C, additional, Francis, G, additional, and Trau, M, additional

Published

2013

13. MicroRNAs-140-5p/140-3p Modulate Leydig Cell Numbers in the Developing Mouse Testis

Author

Rakoczy, J., primary, Fernandez-Valverde, S. L., additional, Glazov, E. A., additional, Wainwright, E. N., additional, Sato, T., additional, Takada, S., additional, Combes, A. N., additional, Korbie, D. J., additional, Miller, D., additional, Grimmond, S. M., additional, Little, M. H., additional, Asahara, H., additional, Mattick, J. S., additional, Taft, R. J., additional, and Wilhelm, D., additional

Published

2013

14. Detecting exosomes specifically: A microfluidic approach based on alternating current electrohydrodynamic induced nanoshearing

Author

Shiddiky, M. J. A., Vaidyanathan, R., Naghibosadat, M., Rauf, S., Korbie, D., Carrascosa, L. G., and Matt Trau

15. Identification of novel non-coding RNAs using profiles of short sequence reads from next generation sequencing data

Author

Makunin Igor V, Hansen Martin A, Jung Chol-Hee, Korbie Darren J, and Mattick John S

Subjects

Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background The increasing interest in small non-coding RNAs (ncRNAs) such as microRNAs (miRNAs), small interfering RNAs (siRNAs) and Piwi-interacting RNAs (piRNAs) and recent advances in sequencing technology have yielded large numbers of short (18-32 nt) RNA sequences from different organisms, some of which are derived from small nucleolar RNAs (snoRNAs) and transfer RNAs (tRNAs). We observed that these short ncRNAs frequently cover the entire length of annotated snoRNAs or tRNAs, which suggests that other loci specifying similar ncRNAs can be identified by clusters of short RNA sequences. Results We combined publicly available datasets of tens of millions of short RNA sequence tags from Drosophila melanogaster, and mapped them to the Drosophila genome. Approximately 6 million perfectly mapping sequence tags were then assembled into 521,302 tag-contigs (TCs) based on tag overlap. Most transposon-derived sequences, exons and annotated miRNAs, tRNAs and snoRNAs are detected by TCs, which show distinct patterns of length and tag-depth for different categories. The typical length and tag-depth of snoRNA-derived TCs was used to predict 7 previously unrecognized box H/ACA and 26 box C/D snoRNA candidates. We also identified one snRNA candidate and 86 loci with a high number of tags that are yet to be annotated, 7 of which have a particular 18mer motif and are located in introns of genes involved in development. A subset of new snoRNA candidates and putative ncRNA candidates was verified by Northern blot. Conclusions In this study, we have introduced a new approach to identify new members of known classes of ncRNAs based on the features of TCs corresponding to known ncRNAs. A large number of the identified TCs are yet to be examined experimentally suggesting that many more novel ncRNAs remain to be discovered.

Published

2010

16. Defining the relationship between cellular and extracellular vesicle (EV) content in breast cancer via an integrative multi-omic analysis.

Author

Lane RE, Korbie D, Khanna KK, Mohamed A, Hill MM, and Trau M

Subjects

Humans, Female, Proteomics methods, Cell Line, Tumor, Biomarkers, Tumor metabolism, Biomarkers, Tumor genetics, Proteome analysis, Proteome metabolism, Gene Expression Profiling methods, Transcriptome, Receptor, ErbB-2 metabolism, Receptor, ErbB-2 genetics, Receptors, Estrogen metabolism, Multiomics, Breast Neoplasms metabolism, Breast Neoplasms genetics, Breast Neoplasms pathology, Extracellular Vesicles metabolism, Extracellular Vesicles genetics

Abstract

Much recent research has been dedicated to exploring the utility of extracellular vesicles (EVs) as circulating disease biomarkers. Underpinning this work is the assumption that the molecular cargo of EVs directly reflects the originating cell. Few attempts have been made, however, to empirically validate this on the -omic level. To this end, we have performed an integrative multi-omic analysis of a panel of breast cancer cell lines and corresponding EVs. Whole transcriptome analysis validated that the cellular transcriptome remained stable when cultured cells are transitioned to low serum or serum-free medium for EV collection. Transcriptomic profiling of the isolated EVs indicated a positive correlation between transcript levels in cells and EVs, including disease-associated transcripts. Analysis of the EV proteome verified that HER2 protein is present in EVs, however neither the estrogen (ER) nor progesterone (PR) receptor proteins are detected regardless of cellular expression. Using multivariate analysis, we derived an EV protein signature to infer cellular patterns of ER and HER2 expression, though the ER protein could not be directly detected. Integrative analyses affirmed that the EV proteome and transcriptome captured key phenotypic hallmarks of the originating cells, supporting the potential of EVs for non-invasive monitoring of breast cancers., (© 2024 The Authors. PROTEOMICS published by Wiley‐VCH GmbH.)

Published

2024

17. Accurate, non-destructive, and high-throughput age estimation for Golden perch (Macquaria ambigua spp.) using DNA methylation.

Author

Mayne B, Espinoza T, Crook DA, Anderson C, Korbie D, Marshall JC, Kennard MJ, Harding DJ, Butler GL, Roberts B, Whiley J, and Marshall S

Subjects

Animals, DNA Methylation, Zebrafish, Australia, Perches, Perciformes

Abstract

Age structure information of animal populations is fundamental to their conservation and management. In fisheries, age is routinely obtained by counting daily or annual increments in calcified structures (e.g., otoliths) which requires lethal sampling. Recently, DNA methylation has been shown to estimate age using DNA extracted from fin tissue without the need to kill the fish. In this study we used conserved known age-associated sites from the zebrafish (Danio rerio) genome to predict the age of golden perch (Macquaria ambigua), a large-bodied native fish from eastern Australia. Individuals aged using validated otolith techniques from across the species' distribution were used to calibrate three epigenetic clocks. One clock was calibrated using daily (daily clock) and another with annual (annual clock) otolith increment counts, respectively. A third used both daily and annual increments (universal clock). We found a high correlation between the otolith and epigenetic age (Pearson correlation > 0.94) across all clocks. The median absolute error was 2.4 days in the daily clock, 184.6 days in the annual clock, and 74.5 days in the universal clock. Our study demonstrates the emerging utility of epigenetic clocks as non-lethal and high-throughput tools for obtaining age estimates to support the management of fish populations and fisheries., (© 2023. Crown.)

Published

2023

18. Comprehensive methylome sequencing reveals prognostic epigenetic biomarkers for prostate cancer mortality.

Author

Pidsley R, Lam D, Qu W, Peters TJ, Luu PL, Korbie D, Stirzaker C, Daly RJ, Stricker P, Kench JG, Horvath LG, and Clark SJ

Subjects

ADP Ribose Transferases genetics, DNA, Epigenesis, Genetic genetics, Humans, Male, Prognosis, Sulfites, Epigenome, Prostatic Neoplasms diagnosis, Prostatic Neoplasms genetics, Prostatic Neoplasms pathology

Abstract

Background: Prostate cancer is a clinically heterogeneous disease with a subset of patients rapidly progressing to lethal-metastatic prostate cancer. Current clinicopathological measures are imperfect predictors of disease progression. Epigenetic changes are amongst the earliest molecular changes in tumourigenesis. To find new prognostic biomarkers to enable earlier intervention and improved outcomes, we performed methylome sequencing of DNA from patients with localised prostate cancer and long-term clinical follow-up., Methods: We used whole-genome bisulphite sequencing (WGBS) to comprehensively map and compare DNA methylation of radical prostatectomy tissue between patients with lethal disease (n = 7) and non-lethal (n = 8) disease (median follow-up 19.5 years). Validation of differentially methylated regions (DMRs) was performed in an independent cohort (n = 185, median follow-up 15 years) using targeted multiplex bisulphite sequencing of candidate regions. Survival was assessed via univariable and multivariable analyses including clinicopathological measures (log-rank and Cox regression models)., Results: WGBS data analysis identified cancer-specific methylation patterns including CpG island hypermethylation, and hypomethylation of repetitive elements, with increasing disease risk. We identified 1420 DMRs associated with prostate cancer-specific mortality (PCSM), which showed enrichment for gene sets downregulated in prostate cancer and de novo methylated in cancer. Through comparison with public prostate cancer datasets, we refined the DMRs to develop an 18-gene prognostic panel. Applying this panel to an independent cohort, we found significant associations between PCSM and hypermethylation at EPHB3, PARP6, TBX1, MARCH6 and a regulatory element within CACNA2D4. Strikingly in a multivariable model, inclusion of CACNA2D4 methylation was a better predictor of PCSM versus grade alone (Harrell's C-index: 0.779 vs. 0.684)., Conclusions: Our study provides detailed methylome maps of non-lethal and lethal prostate cancer and identifies novel genic regions that distinguish these patient groups. Inclusion of our DNA methylation biomarkers with existing clinicopathological measures improves prognostic models of prostate cancer mortality, and holds promise for clinical application., (© 2022 The Authors. Clinical and Translational Medicine published by John Wiley & Sons Australia, Ltd on behalf of Shanghai Institute of Clinical Bioinformatics.)

Published

2022

19. Transcriptional comparison of testicular adrenal rest tumors with fetal and adult tissues.

Author

Schröder MAM, Sweep FCGJ, van Herwaarden AE, Mitchell RT, Eliveld J, van Pelt AMM, Rowan AE, Korbie D, Stikkelbroeck NMML, Claahsen-van der Grinten HL, and Span PN

Subjects

Adrenocorticotropic Hormone, Adult, Cyclic AMP-Dependent Protein Kinases, Fetus, Humans, Male, Receptors, Platelet-Derived Growth Factor, Steroid 11-beta-Hydroxylase, Adrenal Hyperplasia, Congenital complications, Adrenal Rest Tumor genetics, Testicular Neoplasms complications

Abstract

Background: Testicular adrenal rest tumors (TART) are a common complication of unknown cellular origin in patients with congenital adrenal hyperplasia (CAH). These benign tumors have both adrenal and testicular characteristics and are hypothesized to either derive from cells of adrenal origin from the fetal adrenogonadal primordium or by atypical differentiation of adult Leydig-progenitor cells., Objective: This study aims to unravel the identity and etiology of TART., Methods: Co-expression of adrenal-specific CYP11B1 and Leydig cell-specific HSD17B3 in TART was studied using immunohistochemistry. We studied the possibility of TART being derived from atypical differentiation of adult Leydig-progenitor cells by the quantification of adrenal-specific enzyme expression upon adrenocorticotrophic hormone (ACTH)-like stimulation of ex vivo cultured platelet-derived growth factor receptor alpha-positive cells. By comparing the transcriptome of TART (n = 16) with the transcriptome of fetal adrenal (n = 13), fetal testis (n = 5), adult adrenal (n = 11), and adult testis (n = 10) tissues, we explored the identity of TART., Results: We demonstrate co-expression of adrenal-specific CYP11B1 and testis-specific HSD17B3 in TART cells, indicating the existence of a distinct TART cell exhibiting both adrenal and testicular characteristics. Ex vivo cultured adult Leydig-progenitor cells did not express the ACTH-receptor MC2R but did express CYP11B1 upon stimulation. Unsupervised clustering of transcriptome data showed that TART was most similar to adult adrenal tissue, followed by adult testis tissue, and least similar to either fetal tissue., Conclusion: Our data suggest that TART is induced - most likely via activation of a cAMP/protein kinase A-dependent receptor - from a progenitor cell into a unique mature adrenal-like cell type, sometimes exhibiting both adrenal and testicular features.

Published

2022

20. Modelling clinical DNA fragmentation in the development of universal PCR-based assays for bisulfite-converted, formalin-fixed and cell-free DNA sample analysis.

Author

Johnston AD, Lu J, Korbie D, and Trau M

Subjects

DNA genetics, DNA Fragmentation, Formaldehyde, Genome, Human, Humans, Nucleosomes, Real-Time Polymerase Chain Reaction, Sulfites, Cell-Free Nucleic Acids genetics

Abstract

In fragmented DNA, PCR-based methods quantify the number of intact regions at a specific amplicon length. However, the relationship between the population of DNA fragments within a sample and the likelihood they will amplify has not been fully described. To address this, we have derived a mathematical equation that relates the distribution profile of a stochastically fragmented DNA sample to the probability that a DNA fragment within that sample can be amplified by any PCR assay of arbitrary length. Two panels of multiplex PCR assays for quantifying fragmented DNA were then developed: a four-plex panel that can be applied to any human DNA sample and used to estimate the percentage of regions that are intact at any length; and a two-plex panel optimized for quantifying circulating cell-free DNA (cfDNA). For these assays, regions of the human genome least affected by copy number aberration were identified and selected; within these copy-neutral regions, each PCR assay was designed to amplify both genomic and bisulfite-converted DNA; and all assays were validated for use in both conventional qPCR and droplet-digital PCR. Finally, using the cfDNA-optimized assays we find evidence of universally conserved nucleosome positioning among individuals., (© 2022. The Author(s).)

Published

2022

21. Age prediction of green turtles with an epigenetic clock.

Author

Mayne B, Mustin W, Baboolal V, Casella F, Ballorain K, Barret M, Vanderklift MA, Tucker AD, Korbie D, Jarman S, and Berry O

Subjects

Animals, Animals, Wild, Epigenesis, Genetic, Vertebrates, Turtles genetics

Abstract

Age is a fundamental life history attribute that is used to understand the dynamics of wild animal populations. Unfortunately, most animals do not have a practical or nonlethal method to determine age. This makes it difficult for wildlife managers to carry out population assessments, particularly for elusive and long-lived fauna such as marine turtles. In this study, we present an epigenetic clock that predicts the age of marine turtles from skin biopsies. The model was developed and validated using DNA from known-age green turtles (Chelonia mydas) from two captive populations, and mark-recapture wild turtles with known time intervals between captures. Our method, based on DNA methylation levels at 18 CpG sites, was highly accurate with a median absolute error of 2.1 years (4.7% of maximum age in data set). This is the first epigenetic clock developed for a reptile and illustrates their broad applicability across a broad variety of vertebrate species. It has the potential to transform marine turtle management through a nonlethal and inexpensive method to provide key life history information., (© 2022 The Authors. Molecular Ecology Resources published by John Wiley & Sons Ltd.)

Published

2022

22. Next-Generation Molecular Discovery: From Bottom-Up In Vivo and In Vitro Approaches to In Silico Top-Down Approaches for Therapeutics Neogenesis.

Author

Kenny SE, Antaw F, Locke WJ, Howard CB, Korbie D, and Trau M

Abstract

Protein and drug engineering comprises a major part of the medical and research industries, and yet approaches to discovering and understanding therapeutic molecular interactions in biological systems rely on trial and error. The general approach to molecular discovery involves screening large libraries of compounds, proteins, or antibodies, or in vivo antibody generation, which could be considered "bottom-up" approaches to therapeutic discovery. In these bottom-up approaches, a minimal amount is known about the therapeutics at the start of the process, but through meticulous and exhaustive laboratory work, the molecule is characterised in detail. In contrast, the advent of "big data" and access to extensive online databases and machine learning technologies offers promising new avenues to understanding molecular interactions. Artificial intelligence (AI) now has the potential to predict protein structure at an unprecedented accuracy using only the genetic sequence. This predictive approach to characterising molecular structure-when accompanied by high-quality experimental data for model training-has the capacity to invert the process of molecular discovery and characterisation. The process has potential to be transformed into a top-down approach, where new molecules can be designed directly based on the structure of a target and the desired function, rather than performing screening of large libraries of molecular variants. This paper will provide a brief evaluation of bottom-up approaches to discovering and characterising biological molecules and will discuss recent advances towards developing top-down approaches and the prospects of this.

Published

2022

23. Opportunities for Early Cancer Detection: The Rise of ctDNA Methylation-Based Pan-Cancer Screening Technologies.

Author

Constantin N, Sina AA, Korbie D, and Trau M

Abstract

The efficiency of conventional screening programs to identify early-stage malignancies can be limited by the low number of cancers recommended for screening as well as the high cumulative false-positive rate, and associated iatrogenic burden, resulting from repeated multimodal testing. The opportunity to use minimally invasive liquid biopsy testing to screen asymptomatic individuals at-risk for multiple cancers simultaneously could benefit from the aggregated diseases prevalence and a fixed specificity. Increasing both latter parameters is paramount to mediate high positive predictive value-a useful metric to evaluate a screening test accuracy and its potential harm-benefit. Thus, the use of a single test for multi-cancer early detection (stMCED) has emerged as an appealing strategy for increasing early cancer detection rate efficiency and benefit population health. A recent flurry of these stMCED technologies have been reported for clinical potential; however, their development is facing unique challenges to effectively improve clinical cost-benefit. One promising avenue is the analysis of circulating tumour DNA (ctDNA) for detecting DNA methylation biomarker fingerprints of malignancies-a hallmark of disease aetiology and progression holding the potential to be tissue- and cancer-type specific. Utilizing panels of epigenetic biomarkers could potentially help to detect earlier stages of malignancies as well as identify a tumour of origin from blood testing, useful information for follow-up clinical decision making and subsequent patient care improvement. Overall, this review collates the latest and most promising stMCED methodologies, summarizes their clinical performances, and discusses the specific requirements multi-cancer tests should meet to be successfully implemented into screening guidelines.

Published

2022

24. Multiplex PCR Design for Scalable Resequencing.

Author

Korbie D and Trau M

Subjects

DNA, DNA Methylation, High-Throughput Nucleotide Sequencing, Humans, Nanopores, Sequence Analysis, DNA, Multiplex Polymerase Chain Reaction

Abstract

While conventional PCR applications typically focus on a single PCR assay per reaction, multiplex PCR applications are a convenient and scalable solution becoming more routine. Multiplex methods can be applied to virtually any DNA template source (e.g., plant or human DNA, FFPE DNA isolated from clinical samples, bisulfite-converted DNA for DNA methylation analysis), and offers a cheap, convenient, and scalable solution for experiments that require characterization and analysis of multiple genomic regions.This method will detail the procedures to successfully design, screen, and prepare multiplex amplicon libraries; as well as supporting instructions on how to prepare these libraries for sequencing on Illumina, Ion Torrent, and Oxford Nanopore platforms. The flexibility of assay design allows means that custom multiplex panels can range in size from two assays up to a few hundred amplicons or more. Notably, the method described here is also amenable to whatever PCR buffer system the user prefers to use, making the system globally adaptable to the needs and preferences of the end user., (© 2022. Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2022

25. Dynamic Monitoring of EMT in CTCs as an Indicator of Cancer Metastasis.

Author

Zhang Z, Wuethrich A, Wang J, Korbie D, Lin LL, and Trau M

Subjects

Humans, Epithelial-Mesenchymal Transition, Neoplasms

Abstract

Epithelial to mesenchymal transition (EMT) results in the genesis of circulating tumor cells (CTCs) from tumor sites and promotes the metastatic capability of CTCs in circulation. In this study, we develop a multiplex surface-enhanced Raman scattering nanotechnology for comprehensive characterization of EMT-associated phenotypes in CTCs, to monitor cancer metastasis. We observe the downregulation of the CTC marker (EpCAM) and the epithelial marker (E-cadherin), as well as the upregulation of a mesenchymal marker (N-cadherin) and a stem cell marker (ABCB5) during the transforming growth factor-β-induced EMT process in breast cancer cell line models. Additionally, we also find changes in the heterogeneity levels of these selected markers in cells. With this method, we successfully detect the presence of disease in samples from breast cancer patients and characterize EMT-associated phenotypes in their CTCs. Overall, this approach and findings provide a new means for monitoring the EMT process in cancer, insights into the detailed mechanistic progress of the diseases, and have potential for detecting the early occurrence of cancer metastasis.

Published

2021

26. Nonlethal age estimation of three threatened fish species using DNA methylation: Australian lungfish, Murray cod and Mary River cod.

Author

Mayne B, Espinoza T, Roberts D, Butler GL, Brooks S, Korbie D, and Jarman S

Subjects

Animals, Australia, DNA Methylation, Humans, Zebrafish, Endangered Species, Rivers

Abstract

Age-based demography is fundamental to management of wild fish populations. Age estimates for individuals can determine rates of change in key life-history parameters such as length, maturity, mortality and fecundity. These age-based characteristics are critical for population viability analysis in endangered species and for developing sustainable harvest strategies. For teleost fish, age has traditionally been determined by counting increments formed in calcified structures such as otoliths. However, the collection of otoliths is lethal and therefore undesirable for threatened species. At a molecular level, age can be predicted by measuring DNA methylation. Here, we use previously identified age-associated sites of DNA methylation in zebrafish (Danio rerio) to develop two epigenetic clocks for three threatened freshwater fish species. One epigenetic clock was developed for the Australian lungfish (Neoceratodus forsteri) and the second for the Murray cod (Maccullochella peelii) and Mary River cod (Maccullochella mariensis). Age estimation models were calibrated using either known-age individuals, ages derived from otoliths or bomb radiocarbon dating of scales. We demonstrate a high Pearson's correlation between the chronological and predicted age in both the Lungfish clock (cor = .98) and Maccullochella clock (cor = .92). The median absolute error rate for both epigenetic clocks was also low (Lungfish = 0.86 years; Maccullochella = 0.34 years). This study demonstrates the transferability of DNA methylation sites for age prediction between highly phylogenetically divergent fish species. Given the method is nonlethal and suited to automation, age prediction by DNA methylation has the potential to improve fisheries and other wildlife management settings., (© 2021 The Authors. Molecular Ecology Resources published by John Wiley & Sons Ltd.)

Published

2021

27. Network mapping of primary CD34+ cells by Ampliseq based whole transcriptome targeted resequencing identifies unexplored differentiation regulatory relationships.

Author

Schwaber JL, Korbie D, Andersen S, Lin E, Chrysanthopoulos PK, Trau M, and Nielsen LK

Subjects

Aryl Hydrocarbon Receptor Nuclear Translocator genetics, Basic Helix-Loop-Helix Transcription Factors genetics, Cell Differentiation, Cell Lineage, Cell Proliferation, DNA-Binding Proteins genetics, Female, Fetal Blood immunology, Gene Expression Regulation, Humans, Mass Spectrometry, Neutrophils immunology, Pregnancy, Primary Cell Culture, Proteomics, Proto-Oncogene Proteins genetics, Sequence Analysis, RNA, Trans-Activators genetics, Exome Sequencing, Antigens, CD34 metabolism, Fetal Blood cytology, Gene Expression Profiling methods, Gene Regulatory Networks, Neutrophils cytology, RNA, Untranslated genetics

Abstract

With the exception of a few master transcription factors, regulators of neutrophil maturation are poorly annotated in the intermediate phenotypes between the granulocyte-macrophage progenitor (GMP) and the mature neutrophil phenotype. Additional challenges in identifying gene expression regulators in differentiation pathways relate to challenges wherein starting cell populations are heterogeneous in lineage potential and development, are spread across various states of quiescence, as well as sample quality and input limitations. These factors contribute to data variability make it difficult to draw simple regulatory inferences. In response we have applied a multi-omics approach using primary blood progenitor cells primed for homogeneous proliferation and granulocyte differentiation states which combines whole transcriptome resequencing (Ampliseq RNA) supported by droplet digital PCR (ddPCR) validation and mass spectrometry-based proteomics in a hypothesis-generation study of neutrophil differentiation pathways. Primary CD34+ cells isolated from human cord blood were first precultured in non-lineage driving medium to achieve an active, proliferating phenotype from which a neutrophil primed progenitor was isolated and cultured in neutrophil lineage supportive medium. Samples were then taken at 24-hour intervals over 9 days and analysed by Ampliseq RNA and mass spectrometry. The Ampliseq dataset depth, breadth and quality allowed for several unexplored transcriptional regulators and ncRNAs to be identified using a combinatorial approach of hierarchical clustering, enriched transcription factor binding motifs, and network mapping. Network mapping in particular increased comprehension of neutrophil differentiation regulatory relationships by implicating ARNT, NHLH1, PLAG1, and 6 non-coding RNAs associated with PU.1 regulation as cell-engineering targets with the potential to increase total neutrophil culture output. Overall, this study develops and demonstrates an effective new hypothesis generation methodology for transcriptome profiling during differentiation, thereby enabling identification of novel gene targets for editing interventions., Competing Interests: Jessica Schwaber is employed at Avectas as a the director of cell and gene therapy during manuscript submission. Panos Chrysanthopoulos is employed at BlueRock therapeutics as senior scientist during manuscript submission. This does not alter our adherence to PLOS ONE policies on sharing data and materials.

Published

2021

28. A DNA methylation age predictor for zebrafish.

Author

Mayne B, Korbie D, Kenchington L, Ezzy B, Berry O, and Jarman S

Subjects

Aging metabolism, Animal Fins, Animals, Multiplex Polymerase Chain Reaction, Zebrafish, Aging genetics, CpG Islands, DNA Methylation

Abstract

Changes in DNA methylation at specific CpG sites have been used to build predictive models to estimate animal age, predominantly in mammals. Little testing for this effect has been conducted in other vertebrate groups, such as bony fish, the largest vertebrate class. The development of most age-predictive models has relied on a genome-wide sequencing method to obtain a DNA methylation level, which makes it costly to deploy as an assay to estimate age in many samples. Here, we have generated a reduced representation bisulfite sequencing data set of caudal fin tissue from a model fish species, zebrafish ( Danio rerio ), aged from 11.9-60.1 weeks. We identified changes in methylation at specific CpG sites that correlated strongly with increasing age. Using an optimised unique set of 26 CpG sites we developed a multiplex PCR assay that predicts age with an average median absolute error rate of 3.2 weeks in zebrafish between 10.9-78.1 weeks of age. We also demonstrate the use of multiplex PCR as an efficient quantitative approach to measure DNA methylation for the use of age estimation. This study highlights the potential further use of DNA methylation as an age estimation method in non-mammalian vertebrate species.

Published

2020

29. Regulation of Canonical Oncogenic Signaling Pathways in Cancer via DNA Methylation.

Author

Lu J, Wilfred P, Korbie D, and Trau M

Abstract

Disruption of signaling pathways that plays a role in the normal development and cellular homeostasis may lead to the dysregulation of cellular signaling and bring about the onset of different diseases, including cancer. In addition to genetic aberrations, DNA methylation also acts as an epigenetic modifier to drive the onset and progression of cancer by mediating the reversible transcription of related genes. Although the role of DNA methylation as an alternative driver of carcinogenesis has been well-established, the global effects of DNA methylation on oncogenic signaling pathways and the presentation of cancer is only emerging. In this article, we introduced a differential methylation parsing pipeline (MethylMine) which mined for epigenetic biomarkers based on feature selection. This pipeline was used to mine for biomarkers, which presented a substantial difference in methylation between the tumor and the matching normal tissue samples. Combined with the Data Integration Analysis for Biomarker discovery (DIABLO) framework for machine learning and multi-omic analysis, we revisited the TCGA DNA methylation and RNA-Seq datasets for breast, colorectal, lung, and prostate cancer, and identified differentially methylated genes within the NRF2-KEAP1/PI3K oncogenic pathway, which regulates the expression of cytoprotective genes, that serve as potential therapeutic targets to treat different cancers.

Published

2020

30. Comprehensive evaluation of targeted multiplex bisulphite PCR sequencing for validation of DNA methylation biomarker panels.

Author

Lam D, Luu PL, Song JZ, Qu W, Risbridger GP, Lawrence MG, Lu J, Trau M, Korbie D, Clark SJ, Pidsley R, and Stirzaker C

Subjects

Cell Line, Tumor, CpG Islands, Early Detection of Cancer, Epigenesis, Genetic, Genetic Markers, Humans, Male, Prostatic Neoplasms genetics, Sample Size, Sensitivity and Specificity, DNA Methylation, Multiplex Polymerase Chain Reaction methods, Prostatic Neoplasms diagnosis, Whole Genome Sequencing methods

Abstract

Background: DNA methylation is a well-studied epigenetic mark that is frequently altered in diseases such as cancer, where specific changes are known to reflect the type and severity of the disease. Therefore, there is a growing interest in assessing the clinical utility of DNA methylation as a biomarker for diagnosing disease and guiding treatment. The development of an accurate loci-specific methylation assay, suitable for use on low-input clinical material, is crucial for advancing DNA methylation biomarkers into a clinical setting. A targeted multiplex bisulphite PCR sequencing approach meets these needs by allowing multiple DNA methylated regions to be interrogated simultaneously in one experiment on limited clinical material., Results: Here, we provide an updated protocol and recommendations for multiplex bisulphite PCR sequencing (MBPS) assays for target DNA methylation analysis. We describe additional steps to improve performance and reliability: (1) pre-sequencing PCR optimisation which includes assessing the optimal PCR cycling temperature and primer concentration and (2) post-sequencing PCR optimisation to achieve uniform coverage of each amplicon. We use a gradient of methylated controls to demonstrate how PCR bias can be assessed and corrected. Methylated controls also allow assessment of the sensitivity of methylation detection for each amplicon. Here, we show that the MBPS assay can amplify as little as 0.625 ng starting DNA and can detect methylation differences of 1% with a sequencing coverage of 1000 reads. Furthermore, the multiplex bisulphite PCR assay can comprehensively interrogate multiple regions on 1-5 ng of formalin-fixed paraffin-embedded DNA or circulating cell-free DNA., Conclusions: The MBPS assay is a valuable approach for assessing methylated DNA regions in clinical samples with limited material. The optimisation and additional quality control steps described here improve the performance and reliability of this method, advancing it towards potential clinical applications in biomarker studies.

Published

2020

31. Retooling phage display with electrohydrodynamic nanomixing and nanopore sequencing.

Author

Raftery LJ, Howard CB, Grewal YS, Vaidyanathan R, Jones ML, Anderson W, Korbie D, Duarte T, Cao MD, Nguyen SH, Coin LJM, Mahler SM, and Trau M

Subjects

Dengue Virus chemistry, Humans, Viral Nonstructural Proteins chemistry, Antibodies, Viral chemistry, Antibodies, Viral genetics, Nanopore Sequencing, Peptide Library, Single-Chain Antibodies chemistry, Single-Chain Antibodies genetics

Abstract

Phage display methodologies offer a versatile platform for the isolation of single-chain Fv (scFv) molecules which may be rebuilt into monoclonal antibodies. Herein, we report on a complete workflow termed PhageXpress, for rapid selection of single-chain Fv sequences by leveraging electrohydrodynamic-manipulation of a solution containing phage library particles to enhance target binding whilst minimizing non-specific interactions. Our PhageXpress technique is combined with Oxford Nanopore Technologies' MinION sequencer and custom bioinformatics to achieve high-throughput screening of phage libraries. We performed 4 rounds of biopanning against Dengue virus (DENV) non-structural protein 1 (NS1) using traditional methods (4 week turnaround), which resulted in the isolation of 19 unique scFv clones. We validated the feasibility and efficiency of the PhageXpress method utilizing the same phage library and antigen target. Notably, we successfully mapped 14 of the 19 anti-NS1 scFv sequences (∼74%) with our new method, despite using ∼30-fold less particles during screening and conducting only a single round of biopanning. We believe this approach supersedes traditional methods for the discovery of bio-recognition molecules such as antibodies by speeding up the process for the development of therapeutic and diagnostic biologics.

Published

2019

32. Optimizing Size Exclusion Chromatography for Extracellular Vesicle Enrichment and Proteomic Analysis from Clinically Relevant Samples.

Author

Lane RE, Korbie D, Trau M, and Hill MM

Subjects

Biomarkers analysis, Cell Line, Humans, Proteins analysis, Proteomics, Tandem Mass Spectrometry, Chromatography, Gel methods, Extracellular Vesicles metabolism

Abstract

The field of extracellular vesicle (EV) research has rapidly expanded in recent years, with particular interest in their potential as circulating biomarkers. Proteomic analysis of EVs from clinical samples is complicated by the low abundance of EV proteins relative to highly abundant circulating proteins such as albumin and apolipoproteins. To overcome this, size exclusion chromatography (SEC) has been proposed as a method to enrich EVs whilst depleting protein contaminants; however, the optimal SEC parameters for EV proteomics have not been thoroughly investigated. Here, quantitative evaluation and optimization of SEC are reported for separating EVs from contaminating proteins. Using a synthetic model system followed by cell line-derived EVs, it is found that a 10 mL Sepharose 4B column in PBS produces optimal resolution of EVs from background protein. By spiking-in cancer cell-derived EVs to healthy plasma, it is shown that some cancer EV-associated proteins are detectable by nano-LC-MS/MS when as little as 1% of the total plasma EV number are derived from a cancer cell line. These results suggest that an optimized SEC and nanoLC-MS/MS workflow may be sufficiently sensitive for disease EV protein biomarker discovery from patient-derived clinical samples., (© 2019 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2019

33. A SERS microfluidic platform for targeting multiple soluble immune checkpoints.

Author

Reza KK, Sina AA, Wuethrich A, Grewal YS, Howard CB, Korbie D, and Trau M

Subjects

Biomarkers, Tumor chemistry, Graphite chemistry, Humans, Microfluidic Analytical Techniques, Single-Chain Antibodies chemistry, Spectrum Analysis, Raman, Biomarkers, Tumor isolation & purification, Biosensing Techniques, Neoplasms diagnosis, Single-Chain Antibodies isolation & purification

Abstract

Immune checkpoint blockade therapies are promising next generation immunotherapeutic treatments for cancer. Whilst sequential solid biopsies are an invaluable source of prognostic information, they are not feasible for monitoring therapeutic outcomes over time. Monitoring soluble immune checkpoint markers expression in body fluids could potentially be a better alternative. Current methods (e.g. ELISA) for detecting immune-checkpoint proteins mostly rely on the use of monoclonal antibodies which are expensive and time-consuming to manufacture and isolate. Herein, we report an integrated surface enhanced Raman scattering (SERS)-microfluidics device for the detection of immune checkpoint proteins which involves the use of i) nano yeast single chain variable fragment (scFv) as a promising alternative to monoclonal antibodies providing high stability at relative low-cost and simplicity for production, ii) graphene oxide functionalised surface to reduces the bio functionalization steps, thus avoiding the general paradigm of biotin-streptavidin chemistry and iii) a microfluidic platform enabling alternating current electrohydrodynamics (ac-EHD) induced nanomixing to enhance the target scFv binding and minimize the non-specific interactions. Specific and multiplex detection of immune checkpoint biomarkers is achieved by SERS based spectral encoding. Using this platform, we successfully demonstrated the detection of clinically relevant soluble immune checkpoints PD-1, PD-L1 and LAG-3 from as low as 100 fg/mL of analytes spiked in human serum., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2019

34. PrimerROC: accurate condition-independent dimer prediction using ROC analysis.

Author

Johnston AD, Lu J, Ru KL, Korbie D, and Trau M

Abstract

To-date systematic testing and comparison of the accuracy of available primer-dimer prediction software has never been conducted, due in part to a lack of tools able to measure the efficacy of Gibbs free energy (ΔG) calculations at predicting dimer formation in PCR. To address this we have developed a novel online tool called PrimerROC ( www.primer-dimer.com/roc/ ), which uses epidemiologically-based Receiver Operating Characteristic (ROC) curves to assess dimer prediction accuracy. Moreover, by integrating PrimerROC with our PrimerDimer prediction software we can determine a ΔG-based dimer-free threshold above which dimer formation is predicted unlikely to occur. Notably, PrimerROC determines this cut-off without any additional information such as salt concentration or annealing temperature, meaning that our PrimerROC method is an assay and condition independent prediction tool. To demonstrate the broad utility of PrimerROC we assessed the performance of seven publically available primer design and dimer analysis tools using a dataset of over 300 primer pairs. We found that our PrimerROC/PrimerDimer software consistently outperforms these other tools and can achieve predictive accuracies greater than 92%. To illustrate its predictive power this method was used in multiplex PCR design to successfully generate four resequencing assays containing up to 126 primers with no observable primer-primer amplification artefacts.

Published

2019

35. Tracking antigen specific T-cells: Technological advancement and limitations.

Author

Dey S, Kamil Reza K, Wuethrich A, Korbie D, Ibn Sina AA, and Trau M

Subjects

Flow Cytometry, Humans, Antigens immunology, HLA-D Antigens genetics, Immunity, Cellular genetics, T-Lymphocytes immunology

Abstract

Assessing T-cell mediated immune status can help to understand the body's response to disease and also provide essential diagnostic information. However, detection and characterization of immune response are challenging due to the rarity of signature biomolecules in biological fluid and require highly sensitive and specific assay technique for the analysis. Until now, several techniques spanning from flow cytometry to microsensors have been developed or under investigation for T-cell mediated immune response monitoring. Most of the current assays are designed to estimate average immune responses, i.e., total functional protein analysis and detection of total T-cells irrespective of their antigen specificity. Although potential, immune response analysis without detecting and characterizing the rare subset of T-cell population could lead to over or underestimation of patient's immune status. Addressing this limitation, recently a number of technological advancements in biosensing have been developed for this. The potential of simple and precise micro-technologies including microarray and microfluidic platforms for assessing antigen-specific T-cells will be highlighted in this review, together with a discussion on existing challenges and future aspects of immune-sensor development., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2019

36. Epigenetically reprogrammed methylation landscape drives the DNA self-assembly and serves as a universal cancer biomarker.

Author

Sina AA, Carrascosa LG, Liang Z, Grewal YS, Wardiana A, Shiddiky MJA, Gardiner RA, Samaratunga H, Gandhi MK, Scott RJ, Korbie D, and Trau M

Subjects

Cell Line, Tumor, CpG Islands genetics, DNA chemistry, Electrochemical Techniques, Gene Expression Regulation, Neoplastic, Genetic Techniques, Gold chemistry, Humans, Neoplasms diagnosis, Biomarkers, Tumor, DNA Methylation genetics, Epigenomics, Neoplasms genetics

Abstract

Epigenetic reprogramming in cancer genomes creates a distinct methylation landscape encompassing clustered methylation at regulatory regions separated by large intergenic tracks of hypomethylated regions. This methylation landscape that we referred to as Methylscape is displayed by most cancer types, thus may serve as a universal cancer biomarker. To-date most research has focused on the biological consequences of DNA Methylscape changes whereas its impact on DNA physicochemical properties remains unexplored. Herein, we examine the effect of levels and genomic distribution of methylcytosines on the physicochemical properties of DNA to detect the Methylscape biomarker. We find that DNA polymeric behaviour is strongly affected by differential patterning of methylcytosine, leading to fundamental differences in DNA solvation and DNA-gold affinity between cancerous and normal genomes. We exploit these Methylscape differences to develop simple, highly sensitive and selective electrochemical or colorimetric one-step assays for the detection of cancer. These assays are quick, i.e., analysis time ≤10 minutes, and require minimal sample preparation and small DNA input.

Published

2018

37. Parallel profiling of cancer cells and proteins using a graphene oxide functionalized ac-EHD SERS immunoassay.

Author

Reza KK, Dey S, Wuethrich A, Sina AA, Korbie D, Wang Y, and Trau M

Subjects

Female, Humans, Immunoassay methods, Biomarkers, Tumor blood, Breast Neoplasms blood, CA-125 Antigen blood, Electrochemical Techniques, Graphite chemistry, Membrane Proteins blood, Neoplasms blood, Receptor, ErbB-2 blood, Spectrum Analysis, Raman

Abstract

Circulating biomarkers have emerged as promising non-invasive, real-time surrogates for cancer diagnosis, prognosis and monitoring of the therapeutic response. Current bio-sensing techniques mostly involve detection of either circulating cells or proteins which are inadequate in unfolding complex pathologic transformations. Herein, we report parallel detection of cellular and molecular markers (protein) for cancer using a multiplex platform featuring (i) graphene oxide (GO) functionalization that increases the active surface area and more importantly reduces the functionalization steps for rapid detection, (ii) alternating-current electrohydrodynamic (ac-EHD) fluid flow that provides delicate micro-mixing to enhance target-sensor interactions thereby minimizing non-specific binding and (iii) surface enhanced Raman scattering (SERS) for multiplex detection. We find that our platform possesses high sensitivity for detecting both proteins and cells. More importantly, this platform not only detects the cancer cells but also can simultaneously monitor the heterogeneous expression of cell surface proteins which could be clinically useful to determine effective patient therapy. We demonstrate the specific and sensitive detection of breast cancer cells from a mixture of non-target cells and report the heterogeneous expression of human epidermal growth factor receptor 2 (HER2) proteins on the individual cancer cell surface. Concurrently, we detect as low as 100 fg mL -1 HER2 and Mucin 16 proteins spiked in blood serum.

Published

2018

38. MiR-29b-1-5p is altered in BRCA1 mutant tumours and is a biomarker in basal-like breast cancer.

Author

Milevskiy MJG, Sandhu GK, Wronski A, Korbie D, Brewster BL, Shewan A, Edwards SL, French JD, and Brown MA

Abstract

Depletion of BRCA1 protein in mouse mammary glands results in defects in lactational development and increased susceptibility to mammary cancer. Extensive work has focussed on the role of BRCA1 in the normal breast and in the development of breast cancer, the cell of origin for BRCA1 tumours and the protein-coding genes altered in BRCA1 deficient cells. However, the role of non-coding RNAs in BRCA1-deficient cells is poorly understood. To evaluate miRNA expression in BRCA1 deficient mammary cells, RNA sequencing was performed on the mammary glands of Brca1 knockout mice. We identified 140 differentially expressed miRNAs, 9 of which were also differentially expressed in human BRCA1 breast tumours or familial non-BRCA1 patients and during normal gland development. We show that BRCA1 binds to putative cis-elements in promoter regions of the miRNAs with the potential to regulate their expression, and that four miRNAs (miR-29b-1-5p, miR-664, miR-16-2 and miR-744) significantly stratified the overall survival of basal-like tumours. Importantly the prognostic value of miR-29b-1-5p was higher in significance than several commonly used clinical biomarkers. These results emphasise the role of Brca1 in modulating expression of miRNAs and highlights the potential for BRCA1 regulated miRNAs to be informative biomarkers associated with BRCA1 loss and survival in breast cancer., Competing Interests: CONFLICTS OF INTEREST The authors declare no competing interests.

Published

2018

39. A multiplex microplatform for the detection of multiple DNA methylation events using gold-DNA affinity.

Author

Sina AA, Foster MT, Korbie D, Carrascosa LG, Shiddiky MJA, Gao J, Dey S, and Trau M

Subjects

DNA, Electrochemical Techniques, Humans, Oligonucleotide Array Sequence Analysis, Sequence Analysis, DNA, DNA Methylation, Electrodes, Gold, Sulfites

Abstract

We report a new multiplexed strategy for the electrochemical detection of regional DNA methylation across multiple regions. Using the sequence dependent affinity of bisulfite treated DNA towards gold surfaces, the method integrates the high sensitivity of a micro-fabricated multiplex device comprising a microarray of gold electrodes, with the powerful multiplexing capability of multiplex-PCR. The synergy of this combination enables the monitoring of the methylation changes across several genomic regions simultaneously from as low as 500 pg μl -1 of DNA with no sequencing requirement.

Published

2017

40. Detection of aberrant protein phosphorylation in cancer using direct gold-protein affinity interactions.

Author

Ahmed M, Carrascosa LG, Ibn Sina AA, Zarate EM, Korbie D, Ru KL, Shiddiky MJA, Mainwaring P, and Trau M

Subjects

Biosensing Techniques instrumentation, Cell Line, Tumor, Electrochemical Techniques instrumentation, Electrochemical Techniques methods, Equipment Design, ErbB Receptors antagonists & inhibitors, ErbB Receptors metabolism, Gold chemistry, Humans, Lung drug effects, Lung metabolism, Lung Neoplasms drug therapy, Models, Molecular, Phosphorylation, Protein Conformation, Protein Kinase Inhibitors pharmacology, Biosensing Techniques methods, ErbB Receptors analysis, Lung Neoplasms metabolism

Abstract

Protein phosphorylation is one of the most prominent post-translational mechanisms for protein regulation, which is frequently impaired in cancer. Through the covalent addition of phosphate groups to certain amino-acids, the interactions of former residues with nearby amino-acids are drastically altered, resulting in major changes of protein conformation that impacts its biological function. Herein, we report that these conformational changes can also disturb the protein's ability to interact with and adsorb onto bare gold surfaces. We exploited this feature to develop a simple electrochemical method for detecting the aberrant phosphorylation of EGFR protein in several lung cancer cell lines. This method, which required as low as 10ng/µL (i.e., 50ng) of purified EGFR protein, also enabled monitoring cell sensitivity to tyrosine kinase inhibitors (TKI) - a common drug used for restoring the function of aberrantly phosphorylated proteins in lung cancer. The reported strategy based on direct gold-protein affinity interactions avoids the conventional paradigm of requiring a phospho-specific antibody for detection and could be a potential alternative of widely used mass spectrometry., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2017

41. Evaluation of Different Oligonucleotide Base Substitutions at CpG Binding sites in Multiplex Bisulfite-PCR sequencing.

Author

Lu J, Ru K, Candiloro I, Dobrovic A, Korbie D, and Trau M

Subjects

Binding Sites, Computational Biology methods, Humans, Nucleic Acid Amplification Techniques, CpG Islands, DNA Methylation, Multiplex Polymerase Chain Reaction methods

Abstract

Multiplex bisulfite-PCR sequencing is a convenient and scalable method for the quantitative determination of the methylation state of target DNA regions. A challenge of this application is the presence of CpGs in the same region where primers are being placed. A common solution to the presence of CpGs within a primer-binding region is to substitute a base degeneracy at the cytosine position. However, the efficacy of different substitutions and the extent to which bias towards methylated or unmethylated templates may occur has never been evaluated in bisulfite multiplex sequencing applications. In response, we examined the performance of four different primer substitutions at the cytosine position of CpG's contained within the PCR primers. In this study, deoxyinosine-, 5-nitroindole-, mixed-base primers and primers with an abasic site were evaluated across a series of methylated controls. Primers that contained mixed- or deoxyinosine- base modifications performed most robustly. Mixed-base primers were further selected to determine the conditions that induce bias towards methylated templates. This identified an optimized set of conditions where the methylated state of bisulfite DNA templates can be accurately assessed using mixed-base primers, and expands the scope of bisulfite resequencing assays when working with challenging templates.

Published

2017

42. PrimerSuite: A High-Throughput Web-Based Primer Design Program for Multiplex Bisulfite PCR.

Author

Lu J, Johnston A, Berichon P, Ru KL, Korbie D, and Trau M

Subjects

Algorithms, Dimerization, Genome, Humans, Software, Statistics as Topic, DNA Primers metabolism, High-Throughput Nucleotide Sequencing methods, Internet, Multiplex Polymerase Chain Reaction methods, Sulfites chemistry

Abstract

The analysis of DNA methylation at CpG dinucleotides has become a major research focus due to its regulatory role in numerous biological processes, but the requisite need for assays which amplify bisulfite-converted DNA represents a major bottleneck due to the unique design constraints imposed on bisulfite-PCR primers. Moreover, a review of the literature indicated no available software solutions which accommodated both high-throughput primer design, support for multiplex amplification assays, and primer-dimer prediction. In response, the tri-modular software package PrimerSuite was developed to support bisulfite multiplex PCR applications. This software was constructed to (i) design bisulfite primers against multiple regions simultaneously (PrimerSuite), (ii) screen for primer-primer dimerizing artefacts (PrimerDimer), and (iii) support multiplex PCR assays (PrimerPlex). Moreover, a major focus in the development of this software package was the emphasis on extensive empirical validation, and over 1300 unique primer pairs have been successfully designed and screened, with over 94% of them producing amplicons of the expected size, and an average mapping efficiency of 93% when screened using bisulfite multiplex resequencing. The potential use of the software in other bisulfite-based applications such as methylation-specific PCR is under consideration for future updates. This resource is freely available for use at PrimerSuite website (www.primer-suite.com).

Published

2017

43. Purification Protocols for Extracellular Vesicles.

Author

Lane RE, Korbie D, Trau M, and Hill MM

Subjects

Centrifugation, Density Gradient methods, Chromatography, Gel methods, Humans, Immunomagnetic Separation, Polymers, Ultracentrifugation methods, Ultrafiltration methods, Cell Fractionation methods, Extracellular Vesicles chemistry

Abstract

This chapter provides a description of some of the standard methods used for the isolation of extracellular vesicles (EVs) from a variety of biological fluids, including cell culture media, urine, plasma and serum. The methods presented include ultracentrifugation, ultrafiltration, proprietary polymer-based reagents, size exclusion chromatography, density gradient separation, and immunoaffinity capture. Ultracentrifugation methods use high speed centrifugation to pellet vesicles, whilst polymer-based reagents are added to the sample to facilitate vesicle precipitation using lower speeds. Ultrafiltration involves the concentration of vesicles from a large volume of biological fluid using a centrifugal filter unit. Size exclusion chromatography and density gradient separation are both designed to allow the separation of vesicles from other nonvesicular debris. Immunoaffinity capture methods use antibody-coated beads to selectively isolate vesicles displaying a surface marker of interest. Ultimately, the choice of purification method for an individual experiment is influenced by time, cost, and equipment considerations, as well as the sample requirements for any downstream analyses.

Published

2017

44. Rapid Molecular Profiling of Myeloproliferative Neoplasms Using Targeted Exon Resequencing of 86 Genes Involved in JAK-STAT Signaling and Epigenetic Regulation.

Author

Magor GW, Tallack MR, Klose NM, Taylor D, Korbie D, Mollee P, Trau M, and Perkins AC

Subjects

Adult, Aged, Aged, 80 and over, Alleles, Biomarkers, Computational Biology methods, Female, Humans, Janus Kinases metabolism, Male, Middle Aged, Molecular Sequence Annotation, Mutation, Myeloproliferative Disorders metabolism, Reproducibility of Results, STAT Transcription Factors metabolism, Sensitivity and Specificity, Signal Transduction, Epigenesis, Genetic, Exons, Gene Expression Profiling methods, Gene Expression Regulation, High-Throughput Nucleotide Sequencing methods, Myeloproliferative Disorders diagnosis, Myeloproliferative Disorders genetics, Transcriptome

Abstract

Myeloproliferative neoplasms (MPNs) are a heterogeneous group of blood disorders characterized by excess production of mature blood cells and an increased risk of late transformation to acute myeloid leukemia or primary myelofibrosis. Approximately 15% of MPN cases do not carry mutations in JAK2, CALR, or MPL and are thus often referred to as triple-negative cases. These are caused by a diverse set of rare mutations in cytokine receptors, JAK-STAT signaling pathway components, or epigenetic modifiers. In addition, some cases diagnosed as MPN are reactive rather than clonal disorders, so a negative result from a genetic screen can be informative. To obtain a comprehensive rapid molecular diagnosis for most MPNs, we developed an assay to detect genetic mutations (single nucleotide variants and/or small insertions/deletions) in 86 genes using targeted exon resequencing (AmpliSeq) and a bench-top semiconductor machine (Ion Torrent Personal Genome Machine). Our assay reliably detects well characterized mutations in JAK2, CALR, and MPL, but also rarer mutations in ASXL1, TET2, SH2B3, and other genes. Some of these mutations are novel. We find multiple mutations in advanced cases, suggesting co-operation between Janus kinase-STAT pathway mutations and epigenetic mutations in disease progression. This assay can be used to follow molecular progression, clonal heterogeneity, and drug resistance in MPNs., (Copyright © 2016 American Society for Investigative Pathology and the Association for Molecular Pathology. Published by Elsevier Inc. All rights reserved.)

Published

2016

45. Phase II Randomized Preoperative Window-of-Opportunity Study of the PI3K Inhibitor Pictilisib Plus Anastrozole Compared With Anastrozole Alone in Patients With Estrogen Receptor-Positive Breast Cancer.

Author

Schmid P, Pinder SE, Wheatley D, Macaskill J, Zammit C, Hu J, Price R, Bundred N, Hadad S, Shia A, Sarker SJ, Lim L, Gazinska P, Woodman N, Korbie D, Trau M, Mainwaring P, Gendreau S, Lackner MR, Derynck M, Wilson TR, Butler H, Earl G, Parker P, Purushotham A, and Thompson A

Subjects

Aged, Aged, 80 and over, Anastrozole, Biomarkers, Tumor metabolism, Breast Neoplasms surgery, Combined Modality Therapy, Drug Synergism, Female, Humans, Indazoles administration & dosage, Middle Aged, Neoplasms, Hormone-Dependent drug therapy, Neoplasms, Hormone-Dependent metabolism, Neoplasms, Hormone-Dependent surgery, Nitriles administration & dosage, Phosphoinositide-3 Kinase Inhibitors, Postmenopause, Preoperative Care methods, Protein Kinase Inhibitors administration & dosage, Receptor, ErbB-2 biosynthesis, Sulfonamides administration & dosage, Triazoles administration & dosage, Antineoplastic Combined Chemotherapy Protocols therapeutic use, Breast Neoplasms drug therapy, Breast Neoplasms metabolism, Nitriles therapeutic use, Receptors, Estrogen biosynthesis, Triazoles therapeutic use

Abstract

Purpose: Preclinical data support a key role for the PI3K pathway in estrogen receptor-positive breast cancer and suggest that combining PI3K inhibitors with endocrine therapy may overcome resistance. This preoperative window study assessed whether adding the PI3K inhibitor pictilisib (GDC-0941) can increase the antitumor effects of anastrozole in primary breast cancer and aimed to identify the most appropriate patient population for combination therapy., Patients and Methods: In this randomized, open-label phase II trial, postmenopausal women with newly diagnosed operable estrogen receptor-positive, human epidermal growth factor receptor 2 (HER2)-negative breast cancers were recruited. Participants were randomly allocated (2:1, favoring the combination) to 2 weeks of preoperative treatment with anastrozole 1 mg once per day (n = 26) or the combination of anastrozole 1 mg with pictilisib 260 mg once per day (n = 49). The primary end point was inhibition of tumor cell proliferation as measured by change in Ki-67 protein expression between tumor samples taken before and at the end of treatment., Results: There was significantly greater geometric mean Ki-67 suppression of 83.8% (one-sided 95% CI, ≥ 79.0%) for the combination and 66.0% (95% CI, ≤ 75.4%) for anastrozole (geometric mean ratio [combination:anastrozole], 0.48; 95% CI, ≤ 0.72; P = .004). PIK3CA mutations were not predictive of response to pictilisib, but there was significant interaction between response to treatment and molecular subtype (P = .03); for patients with luminal B tumors, the combination:anastrozole geometric mean ratio of Ki-67 suppression was 0.37 (95% CI, ≤ 0.67; P = .008), whereas no significant Ki-67 response was observed for pictilisib in luminal A tumors (1.01; P = .98). Multivariable analysis confirmed Ki-67 response to the combination treatment of patients with luminal B tumors irrespective of progesterone receptor status or baseline Ki-67 expression., Conclusion: Adding pictilisib to anastrozole significantly increases suppression of tumor cell proliferation in luminal B primary breast cancer., (© 2016 by American Society of Clinical Oncology.)

Published

2016

46. MethPat: a tool for the analysis and visualisation of complex methylation patterns obtained by massively parallel sequencing.

Author

Wong NC, Pope BJ, Candiloro IL, Korbie D, Trau M, Wong SQ, Mikeska T, Zhang X, Pitman M, Eggers S, Doyle SR, and Dobrovic A

Subjects

Humans, DNA Methylation genetics, High-Throughput Nucleotide Sequencing methods, Sequence Analysis, DNA methods

Abstract

Background: DNA methylation at a gene promoter region has the potential to regulate gene transcription. Patterns of methylation over multiple CpG sites in a region are often complex and cell type specific, with the region showing multiple allelic patterns in a sample. This complexity is commonly obscured when DNA methylation data is summarised as an average percentage value for each CpG site (or aggregated across CpG sites). True representation of methylation patterns can only be fully characterised by clonal analysis. Deep sequencing provides the ability to investigate clonal DNA methylation patterns in unprecedented detail and scale, enabling the proper characterisation of the heterogeneity of methylation patterns. However, the sheer amount and complexity of sequencing data requires new synoptic approaches to visualise the distribution of allelic patterns., Results: We have developed a new analysis and visualisation software tool "Methpat", that extracts and displays clonal DNA methylation patterns from massively parallel sequencing data aligned using Bismark. Methpat was used to analyse multiplex bisulfite amplicon sequencing on a range of CpG island targets across a panel of human cell lines and primary tissues. Methpat was able to represent the clonal diversity of epialleles analysed at specific gene promoter regions. We also used Methpat to describe epiallelic DNA methylation within the mitochondrial genome., Conclusions: Methpat can summarise and visualise epiallelic DNA methylation results from targeted amplicon, massively parallel sequencing of bisulfite converted DNA in a compact and interpretable format. Unlike currently available tools, Methpat can visualise the diversity of epiallelic DNA methylation patterns in a sample.

Published

2016

47. Exemplary multiplex bisulfite amplicon data used to demonstrate the utility of Methpat.

Author

Wong NC, Pope BJ, Candiloro I, Korbie D, Trau M, Wong SQ, Mikeska T, van Denderen BJ, Thompson EW, Eggers S, Doyle SR, and Dobrovic A

Subjects

Cell Line, Humans, Neoplasms genetics, Organ Specificity, DNA Methylation, High-Throughput Nucleotide Sequencing, Sequence Analysis, DNA methods, Software

Abstract

Background: DNA methylation is a complex epigenetic marker that can be analyzed using a wide variety of methods. Interpretation and visualization of DNA methylation data can mask complexity in terms of methylation status at each CpG site, cellular heterogeneity of samples and allelic DNA methylation patterns within a given DNA strand. Bisulfite sequencing is considered the gold standard, but visualization of massively parallel sequencing results remains a significant challenge., Findings: We created a program called Methpat that facilitates visualization and interpretation of bisulfite sequencing data generated by massively parallel sequencing. To demonstrate this, we performed multiplex PCR that targeted 48 regions of interest across 86 human samples. The regions selected included known gene promoters associated with cancer, repetitive elements, known imprinted regions and mitochondrial genomic sequences. We interrogated a range of samples including human cell lines, primary tumours and primary tissue samples. Methpat generates two forms of output: a tab-delimited text file for each sample that summarizes DNA methylation patterns and their read counts for each amplicon, and a HTML file that summarizes this data visually. Methpat can be used with publicly available whole genome bisulfite sequencing and reduced representation bisulfite sequencing datasets with sufficient read depths., Conclusions: Using Methpat, complex DNA methylation data derived from massively parallel sequencing can be summarized and visualized for biological interpretation. By accounting for allelic DNA methylation states and their abundance in a sample, Methpat can unmask the complexity of DNA methylation and yield further biological insight in existing datasets.

Published

2015

48. DNA methylation of oestrogen-regulated enhancers defines endocrine sensitivity in breast cancer.

Author

Stone A, Zotenko E, Locke WJ, Korbie D, Millar EK, Pidsley R, Stirzaker C, Graham P, Trau M, Musgrove EA, Nicholson RI, Gee JM, and Clark SJ

Subjects

Adult, Aged, Antineoplastic Agents, Hormonal therapeutic use, Breast Neoplasms drug therapy, Breast Neoplasms metabolism, Carcinoma, Ductal, Breast drug therapy, Carcinoma, Ductal, Breast metabolism, Carcinoma, Lobular drug therapy, Carcinoma, Lobular metabolism, Chromatin Immunoprecipitation, Estrogen Receptor alpha metabolism, Female, Humans, MCF-7 Cells, Middle Aged, Multiplex Polymerase Chain Reaction, Tamoxifen therapeutic use, Breast Neoplasms genetics, Carcinoma, Ductal, Breast genetics, Carcinoma, Lobular genetics, DNA Methylation genetics, Drug Resistance, Neoplasm genetics, Enhancer Elements, Genetic genetics, Estrogen Receptor alpha genetics

Abstract

Expression of oestrogen receptor (ESR1) determines whether a breast cancer patient receives endocrine therapy, but does not guarantee patient response. The molecular factors that define endocrine response in ESR1-positive breast cancer patients remain poorly understood. Here we characterize the DNA methylome of endocrine sensitivity and demonstrate the potential impact of differential DNA methylation on endocrine response in breast cancer. We show that DNA hypermethylation occurs predominantly at oestrogen-responsive enhancers and is associated with reduced ESR1 binding and decreased gene expression of key regulators of ESR1 activity, thus providing a novel mechanism by which endocrine response is abated in ESR1-positive breast cancers. Conversely, we delineate that ESR1-responsive enhancer hypomethylation is critical in transition from normal mammary epithelial cells to endocrine-responsive ESR1-positive cancer. Cumulatively, these novel insights highlight the potential of ESR1-responsive enhancer methylation to both predict ESR1-positive disease and stratify ESR1-positive breast cancer patients as responders to endocrine therapy.

Published

2015

49. Observations of Tunable Resistive Pulse Sensing for Exosome Analysis: Improving System Sensitivity and Stability.

Author

Anderson W, Lane R, Korbie D, and Trau M

Subjects

Cryoelectron Microscopy, Membranes, Artificial, Nanopores, Organelle Size, Porosity, Sensitivity and Specificity, Electrochemical Techniques, Exosomes ultrastructure

Abstract

Size distribution and concentration measurements of exosomes are essential when investigating their cellular function and uptake. Recently, a particle size distribution and concentration measurement platform known as tunable resistive pulse sensing (TRPS) has seen increased use for the characterization of exosome samples. TRPS measures the brief increase in electrical resistance (a resistive pulse) produced by individual submicrometer/nanoscale particles as they translocate through a size-tunable submicrometer/micrometer-sized pore, embedded in an elastic membrane. Unfortunately, TRPS measurements are susceptible to issues surrounding system stability, where the pore can become blocked by particles, and sensitivity issues, where particles are too small to be detected against the background noise of the system. Herein, we provide a comprehensive analysis of the parameters involved in TRPS exosome measurements and demonstrate the ability to improve system sensitivity and stability by the optimization of system parameters. We also provide the first analysis of system noise, sensitivity cutoff limits, and accuracy with respect to exosome measurements and offer an explicit definition of system sensitivity that indicates the smallest particle diameter that can be detected within the noise of the trans-membrane current. A comparison of exosome size measurements from both TRPS and cryo-electron microscopy is also provided, finding that a significant number of smaller exosomes fell below the detection limit of the TRPS platform and offering one potential insight as to why there is such large variability in the exosome size distribution reported in the literature. We believe the observations reported here may assist others in improving TRPS measurements for exosome samples and other submicrometer biological and nonbiological particles.

Published

2015

50. Multiplex bisulfite PCR resequencing of clinical FFPE DNA.

Author

Korbie D, Lin E, Wall D, Nair SS, Stirzaker C, Clark SJ, and Trau M

Abstract

Background: The clinical utility of DNA methylation as a predictive or prognostic biomarker requires scalable resequencing protocols for bisulfite-converted DNA. Key features of any validation method should be adaptability for low- or high-throughput needs and high reproducibility, and should only require minimal amounts of precious clinical sample as input material. Critically, this method should also deliver robust results when working with bisulfite-converted DNA extracted from formalin-fixed, paraffin-embedded (FFPE) blocks., Results: We report here for the first time on comparison studies between the Fluidigm Access Array system and multiplex assays for multiplex bisulfite PCR resequencing. The requirement of the Fluidigm Access Array system for high template amounts and its sensitivity to variations in template quality rendered it unsuitable for bisulfite PCR applications utilizing FFPE DNA. In response to this limitation, we established a multiplex bisulfite PCR assay capable of delivering robust methylation data using minimal amounts of FFPE clinical DNA. To evaluate the parameters and reproducibility of this assay, 57 amplicons were used to prepare sequencing libraries in triplicate for 13 FFPE tumour samples, as well as a series of 5 methylated controls (0%, 25%, 50%, 75%, and 100%). Analysis of this data demonstrated that this multiplex assay had high reproducibility (mean standard deviation of 1.4% for methylation values), was low cost, required low sample input (50 ng of DNA or less), and could be scaled for both low- and high-throughput needs. Notably, ExoSAP-IT (exonuclease I) treatment to remove residual primers in bisulfite resequencing libraries appeared to degrade the library and generate a high-molecular weight smear which may impact on the degree of methylation assessed., Conclusions: Multiplex bisulfite PCR assays represent a convenient and scalable method for validation and screening of methylated DNA regions from archival FFPE DNA. Moreover, the library construction process detailed here can be rapidly optimized and implemented with a minimal amount of work, can be performed using the standard equipment found in any molecular biology laboratory, and can be easily adapted for use on both genomic DNA and bisulfite DNA applications. However, in preparing bisulfite libraries for sequencing, the use of ExoSAP-IT is not recommended due to potential off-target nuclease effects which may impact downstream methylation analysis.

Published

2015