Clinical Pathology - Research Publications

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Author: Hofmann, Oliver ×

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    A Matched Molecular and Clinical Analysis of the Epithelioid Haemangioendothelioma Cohort in the Stafford Fox Rare Cancer Program and Contextual Literature Review
    Abdelmogod, A ; Papadopoulos, L ; Riordan, S ; Wong, M ; Weltman, M ; Lim, R ; Mcevoy, C ; Fellowes, A ; Fox, S ; Bedo, J ; Penington, J ; Pham, K ; Hofmann, O ; Vissers, JHA ; Grimmond, S ; Ratnayake, G ; Christie, M ; Mitchell, C ; Murray, WK ; Mcclymont, K ; Luk, P ; Papenfuss, AT ; Kee, D ; Scott, CL ; Goldstein, D ; Barker, HE (MDPI, 2023-09)
    BACKGROUND: Epithelioid haemangioendothelioma (EHE) is an ultra-rare malignant vascular tumour with a prevalence of 1 per 1,000,000. It is typically molecularly characterised by a WWTR1::CAMTA1 gene fusion in approximately 90% of cases, or a YAP1::TFE3 gene fusion in approximately 10% of cases. EHE cases are typically refractory to therapies, and no anticancer agents are reimbursed for EHE in Australia. METHODS: We report a cohort of nine EHE cases with comprehensive histologic and molecular profiling from the Walter and Eliza Hall Institute of Medical Research Stafford Fox Rare Cancer Program (WEHI-SFRCP) collated via nation-wide referral to the Australian Rare Cancer (ARC) Portal. The diagnoses of EHE were confirmed by histopathological and immunohistochemical (IHC) examination. Molecular profiling was performed using the TruSight Oncology 500 assay, the TruSight RNA fusion panel, whole genome sequencing (WGS), or whole exome sequencing (WES). RESULTS: Molecular analysis of RNA, DNA or both was possible in seven of nine cases. The WWTR1::CAMTA1 fusion was identified in five cases. The YAP1::TFE3 fusion was identified in one case, demonstrating unique morphology compared to cases with the more common WWTR1::CAMTA1 fusion. All tumours expressed typical endothelial markers CD31, ERG, and CD34 and were negative for pan-cytokeratin. Cases with a WWTR1::CAMTA1 fusion displayed high expression of CAMTA1 and the single case with a YAP1::TFE3 fusion displayed high expression of TFE3. Survival was highly variable and unrelated to molecular profile. CONCLUSIONS: This cohort of EHE cases provides molecular and histopathological characterisation and matching clinical information that emphasises the molecular patterns and variable clinical outcomes and adds to our knowledge of this ultra-rare cancer. Such information from multiple studies will advance our understanding, potentially improving treatment options.
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    Targeting homologous recombination deficiency in uterine leiomyosarcoma
    Dall, G ; Vandenberg, CJJ ; Nesic, K ; Ratnayake, G ; Zhu, W ; Vissers, JHA ; Bedo, J ; Penington, J ; Wakefield, MJJ ; Kee, D ; Carmagnac, A ; Lim, R ; Shield-Artin, K ; Milesi, B ; Lobley, A ; Kyran, ELL ; O'Grady, E ; Tram, J ; Zhou, W ; Nugawela, D ; Stewart, KP ; Caldwell, R ; Papadopoulos, L ; Ng, APP ; Dobrovic, A ; Fox, SBB ; McNally, O ; Power, JDD ; Meniawy, T ; Tan, TH ; Collins, IMM ; Klein, O ; Barnett, S ; Olesen, I ; Hamilton, A ; Hofmann, O ; Grimmond, S ; Papenfuss, ATT ; Scott, CLL ; Barker, HEE (BMC, 2023-05-04)
    BACKGROUND: Uterine leiomyosarcoma (uLMS) is a rare and aggressive gynaecological malignancy, with individuals with advanced uLMS having a five-year survival of < 10%. Mutations in the homologous recombination (HR) DNA repair pathway have been observed in ~ 10% of uLMS cases, with reports of some individuals benefiting from poly (ADP-ribose) polymerase (PARP) inhibitor (PARPi) therapy, which targets this DNA repair defect. In this report, we screened individuals with uLMS, accrued nationally, for mutations in the HR repair pathway and explored new approaches to therapeutic targeting. METHODS: A cohort of 58 individuals with uLMS were screened for HR Deficiency (HRD) using whole genome sequencing (WGS), whole exome sequencing (WES) or NGS panel testing. Individuals identified to have HRD uLMS were offered PARPi therapy and clinical outcome details collected. Patient-derived xenografts (PDX) were generated for therapeutic targeting. RESULTS: All 13 uLMS samples analysed by WGS had a dominant COSMIC mutational signature 3; 11 of these had high genome-wide loss of heterozygosity (LOH) (> 0.2) but only two samples had a CHORD score > 50%, one of which had a homozygous pathogenic alteration in an HR gene (deletion in BRCA2). A further three samples harboured homozygous HRD alterations (all deletions in BRCA2), detected by WES or panel sequencing, with 5/58 (9%) individuals having HRD uLMS. All five individuals gained access to PARPi therapy. Two of three individuals with mature clinical follow up achieved a complete response or durable partial response (PR) with the subsequent addition of platinum to PARPi upon minor progression during initial PR on PARPi. Corresponding PDX responses were most rapid, complete and sustained with the PARP1-specific PARPi, AZD5305, compared with either olaparib alone or olaparib plus cisplatin, even in a paired sample of a BRCA2-deleted PDX, derived following PARPi therapy in the patient, which had developed PARPi-resistance mutations in PRKDC, encoding DNA-PKcs. CONCLUSIONS: Our work demonstrates the value of identifying HRD for therapeutic targeting by PARPi and platinum in individuals with the aggressive rare malignancy, uLMS and suggests that individuals with HRD uLMS should be included in trials of PARP1-specific PARPi.
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    GA4GH: International policies and standards for data sharing across genomic research and healthcare
    Rehm, HL ; Page, AJH ; Smith, L ; Adams, JB ; Alterovitz, G ; Babb, LJ ; Barkley, MP ; Baudis, M ; Beauvais, MJS ; Beck, T ; Beckmann, JS ; Beltran, S ; Bernick, D ; Bernier, A ; Bonfield, JK ; Boughtwood, TF ; Bourque, G ; Bowers, SR ; Brookes, AJ ; Brudno, M ; Brush, MH ; Bujold, D ; Burdett, T ; Buske, OJ ; Cabili, MN ; Cameron, DL ; Carroll, RJ ; Casas-Silva, E ; Chakravarty, D ; Chaudhari, BP ; Chen, SH ; Cherry, JM ; Chung, J ; Cline, M ; Clissold, HL ; Cook-Deegan, RM ; Courtot, M ; Cunningham, F ; Cupak, M ; Davies, RM ; Denisko, D ; Doerr, MJ ; Dolman, LI ; Dove, ES ; Dursi, LJ ; Dyke, SOM ; Eddy, JA ; Eilbeck, K ; Ellrott, KP ; Fairley, S ; Fakhro, KA ; Firth, HV ; Fitzsimons, MS ; Fiume, M ; Flicek, P ; Fore, IM ; Freeberg, MA ; Freimuth, RR ; Fromont, LA ; Fuerth, J ; Gaff, CL ; Gan, W ; Ghanaim, EM ; Glazer, D ; Green, RC ; Griffith, M ; Griffith, OL ; Grossman, RL ; Groza, T ; Auvil, JMG ; Guigo, R ; Gupta, D ; Haendel, MA ; Hamosh, A ; Hansen, DP ; Hart, RK ; Hartley, DM ; Haussler, D ; Hendricks-Sturrup, RM ; Ho, CWL ; Hobb, AE ; Hoffman, MM ; Hofmann, OM ; Holub, P ; Hsu, JS ; Hubaux, J-P ; Hunt, SE ; Husami, A ; Jacobsen, JO ; Jamuar, SS ; Janes, EL ; Jeanson, F ; Jene, A ; Johns, AL ; Joly, Y ; Jones, SJM ; Kanitz, A ; Kato, K ; Keane, TM ; Kekesi-Lafrance, K ; Kelleher, J ; Kerry, G ; Khor, S-S ; Knoppers, BM ; Konopko, MA ; Kosaki, K ; Kuba, M ; Lawson, J ; Leinonen, R ; Li, S ; Lin, MF ; Linden, M ; Liu, X ; Liyanage, IU ; Lopez, J ; Lucassen, AM ; Lukowski, M ; Mann, AL ; Marshall, J ; Mattioni, M ; Metke-Jimenez, A ; Middleton, A ; Milne, RJ ; Molnar-Gabor, F ; Mulder, N ; Munoz-Torres, MC ; Nag, R ; Nakagawa, H ; Nasir, J ; Navarro, A ; Nelson, TH ; Niewielska, A ; Nisselle, A ; Niu, J ; Nyronen, TH ; O'Connor, BD ; Oesterle, S ; Ogishima, S ; Wang, VO ; Paglione, LAD ; Palumbo, E ; Parkinson, HE ; Philippakis, AA ; Pizarro, AD ; Prlic, A ; Rambla, J ; Rendon, A ; Rider, RA ; Robinson, PN ; Rodarmer, KW ; Rodriguez, LL ; Rubin, AF ; Rueda, M ; Rushton, GA ; Ryan, RS ; Saunders, GI ; Schuilenburg, H ; Schwede, T ; Scollen, S ; Senf, A ; Sheffield, NC ; Skantharajah, N ; Smith, AV ; Sofia, HJ ; Spalding, D ; Spurdle, AB ; Stark, Z ; Stein, LD ; Suematsu, M ; Tan, P ; Tedds, JA ; Thomson, AA ; Thorogood, A ; Tickle, TL ; Tokunaga, K ; Tomroos, J ; Torrents, D ; Upchurch, S ; Valencia, A ; Guimera, RV ; Vamathevan, J ; Varma, S ; Vears, DF ; Viner, C ; Voisin, C ; Wagner, AH ; Wallace, SE ; Walsh, BP ; Williams, MS ; Winkler, EC ; Wold, BJ ; Wood, GM ; Woolley, JP ; Yamasaki, C ; Yates, AD ; Yung, CK ; Zass, LJ ; Zaytseva, K ; Zhang, J ; Goodhand, P ; North, K ; Birney, E (ELSEVIER, 2021-11-10)
    The Global Alliance for Genomics and Health (GA4GH) aims to accelerate biomedical advances by enabling the responsible sharing of clinical and genomic data through both harmonized data aggregation and federated approaches. The decreasing cost of genomic sequencing (along with other genome-wide molecular assays) and increasing evidence of its clinical utility will soon drive the generation of sequence data from tens of millions of humans, with increasing levels of diversity. In this perspective, we present the GA4GH strategies for addressing the major challenges of this data revolution. We describe the GA4GH organization, which is fueled by the development efforts of eight Work Streams and informed by the needs of 24 Driver Projects and other key stakeholders. We present the GA4GH suite of secure, interoperable technical standards and policy frameworks and review the current status of standards, their relevance to key domains of research and clinical care, and future plans of GA4GH. Broad international participation in building, adopting, and deploying GA4GH standards and frameworks will catalyze an unprecedented effort in data sharing that will be critical to advancing genomic medicine and ensuring that all populations can access its benefits.
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    ROR1 and ROR2 expression in pancreatic cancer
    Liu, D ; Sharbeen, G ; Phillips, P ; Ford, CE (BMC, 2021-11-11)
    BACKGROUND: The Wnt receptors ROR1 and ROR2 are generating increased interest as cancer therapeutic targets but remain understudied in pancreatic ductal adenocarcinoma (PDAC). Compared to canonical Wnt/ β-catenin signalling, the role of noncanonical Wnt signalling in PDAC remains largely unknown. Only one study has investigated the prognostic significance of the noncanonical Wnt signalling receptor, ROR2 in PDAC. No studies have investigated the prognostic role of ROR1 in PDAC. METHODS: Here, we performed analysis of ROR1 and ROR2 mRNA expression in three publicly available datasets ICGC-PACA-AU (n = 81), TCGA-PAAD (n = 150) and CPTAC-PDAC (n = 137). ROR1 and ROR2 protein expression from the CPTAC-PDAC discovery cohort were also analysed. Immunohistochemistry (IHC) using the validated anti ROR1 monoclonal antibody (4A5) was performed on the Australian Pancreatic Cancer Genome Initiative (APGI) cohort of PDAC samples (n = 152). Association between ROR1 cytoplasmic staining intensity and clinicopathological parameters including stage, grade and overall survival (OS) was investigated. RESULTS: High ROR1 mRNA expression levels correlated with a favourable OS outcome in all of the ICGC-PACA-AU, TCGA-PAAD and CPTAC-PDAC cohorts. ROR1 protein expression was not associated with stage, grade or OS in the APGI cohort. CONCLUSION: ROR1 and ROR2 have potential as prognostic markers when measured at the mRNA level in PDAC. Our IHC cohort did not support ROR1 protein expression in predicting OS, and highlighted the discrepancy of prognostic biomarkers when measured by MS, IHC and RNAseq.
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    Genomic and Molecular Analyses Identify Molecular Subtypes of Pancreatic Cancer Recurrence
    Dreyer, SB ; Upstill-Goddard, R ; Legrini, A ; Biankin, AV ; Jamieson, NB ; Chang, DK ; Allison, S ; Biankin, AV ; Beraldi, D ; Cameron, E ; Chang, DK (W B SAUNDERS CO-ELSEVIER INC, 2022-01)
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    Refget: standardized access to reference sequences
    Yates, AD ; Adams, J ; Chaturvedi, S ; Davies, RM ; Laird, M ; Leinonen, R ; Nag, R ; Sheffield, NC ; Hofmann, O ; Keane, TM ; Lu, Z (OXFORD UNIV PRESS, 2022-01-01)
    MOTIVATION: Reference sequences are essential in creating a baseline of knowledge for many common bioinformatics methods, especially those using genomic sequencing. RESULTS: We have created refget, a Global Alliance for Genomics and Health API specification to access reference sequences and sub-sequences using an identifier derived from the sequence itself. We present four reference implementations across in-house and cloud infrastructure, a compliance suite and a web report used to ensure specification conformity across implementations. AVAILABILITY AND IMPLEMENTATION: The refget specification can be found at: https://w3id.org/ga4gh/refget. SUPPLEMENTARY INFORMATION: Supplementary data are available at Bioinformatics online.
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    Cancer Predisposition Sequencing Reporter (CPSR): A flexible variant report engine for high-throughput germline screening in cancer
    Nakken, S ; Saveliev, V ; Hofmann, O ; Moller, P ; Myklebost, O ; Hovig, E (WILEY, 2021-12-01)
    The value of high-throughput germline genetic testing is increasingly recognized in clinical cancer care. Disease-associated germline variants in cancer patients are important for risk management and surveillance, surgical decisions and can also have major implications for treatment strategies since many are in DNA repair genes. With the increasing availability of high-throughput DNA sequencing in cancer clinics and research, there is thus a need to provide clinically oriented sequencing reports for germline variants and their potential therapeutic relevance on a per-patient basis. To meet this need, we have developed the Cancer Predisposition Sequencing Reporter (CPSR), an open-source computational workflow that generates a structured report of germline variants identified in known cancer predisposition genes, highlighting markers of therapeutic, prognostic and diagnostic relevance. A fully automated variant classification procedure based on more than 30 refined American College of Medical Genetics and Genomics (ACMG) criteria represents an integral part of the workflow. Importantly, the set of cancer predisposition genes profiled in the report can be flexibly chosen from more than 40 virtual gene panels established by scientific experts, enabling customization of the report for different screening purposes and clinical contexts. The report can be configured to also list actionable secondary variant findings, as recommended by ACMG. CPSR demonstrates comparable sensitivity and specificity for the detection of pathogenic variants when compared to other algorithms in the field. Technically, the tool is implemented in Python/R, and is freely available through Docker technology. Source code, documentation, example reports and installation instructions are accessible via the project GitHub page: https://github.com/sigven/cpsr.
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    Crypt4GH: a file format standard enabling native access to encrypted data
    Senf, A ; Davies, R ; Haziza, F ; Marshall, J ; Troncoso-Pastoriza, J ; Hofmann, O ; Keane, TM ; Robinson, P (OXFORD UNIV PRESS, 2021-09-01)
    MOTIVATION: The majority of genome analysis tools and pipelines require data to be decrypted for access. This potentially leaves sensitive genetic data exposed, either because the unencrypted data is not removed after analysis, or because the data leaves traces on the permanent storage medium. RESULTS: : We defined a file container specification enabling direct byte-level compatible random access to encrypted genetic data stored in community standards such as SAM/BAM/CRAM/VCF/BCF. By standardizing this format, we show how it can be added as a native file format to genomic libraries, enabling direct analysis of encrypted data without the need to create a decrypted copy. AVAILABILITY AND IMPLEMENTATION: The Crypt4GH specification can be found at: http://samtools.github.io/hts-specs/crypt4gh.pdf. SUPPLEMENTARY INFORMATION: Supplementary data are available at Bioinformatics online.
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    Preparing Australia for genomic medicine: data, computing and digital health
    Hansen, DP ; Dinger, ME ; Hofmann, O ; Thorne, N ; Boughtwood, TF (WILEY, 2019-03-31)
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    Whole-genome sequencing reveals new Alzheimer's disease-associated rare variants in loci related to synaptic function and neuronal development
    Prokopenko, D ; Morgan, SL ; Mullin, K ; Hofmann, O ; Chapman, B ; Kirchner, R ; Amberkar, S ; Wohlers, I ; Lange, C ; Hide, W ; Bertram, L ; Tanzi, RE (WILEY, 2021-09)
    INTRODUCTION: Genome-wide association studies have led to numerous genetic loci associated with Alzheimer's disease (AD). Whole-genome sequencing (WGS) now permits genome-wide analyses to identify rare variants contributing to AD risk. METHODS: We performed single-variant and spatial clustering-based testing on rare variants (minor allele frequency [MAF] ≤1%) in a family-based WGS-based association study of 2247 subjects from 605 multiplex AD families, followed by replication in 1669 unrelated individuals. RESULTS: We identified 13 new AD candidate loci that yielded consistent rare-variant signals in discovery and replication cohorts (4 from single-variant, 9 from spatial-clustering), implicating these genes: FNBP1L, SEL1L, LINC00298, PRKCH, C15ORF41, C2CD3, KIF2A, APC, LHX9, NALCN, CTNNA2, SYTL3, and CLSTN2. DISCUSSION: Downstream analyses of these novel loci highlight synaptic function, in contrast to common AD-associated variants, which implicate innate immunity and amyloid processing. These loci have not been associated previously with AD, emphasizing the ability of WGS to identify AD-associated rare variants, particularly outside of the exome.