Your search keyword '"Anthony T Papenfuss"' showing total 303 results

1. ahctf1 and kras mutations combine to amplify oncogenic stress and restrict liver overgrowth in a zebrafish model of hepatocellular carcinoma

Author

Kimberly J Morgan, Karen Doggett, Fansuo Geng, Stephen Mieruszynski, Lachlan Whitehead, Kelly A Smith, Benjamin M Hogan, Cas Simons, Gregory J Baillie, Ramyar Molania, Anthony T Papenfuss, Thomas E Hall, Elke A Ober, Didier YR Stainier, Zhiyuan Gong, and Joan K Heath

Subjects

kras oncogene, ahctf1, Elys, nucleoporin, synthetic lethality, hepatocellular carcinoma, Medicine, Science, Biology (General), QH301-705.5

Abstract

The nucleoporin (NUP) ELYS, encoded by AHCTF1, is a large multifunctional protein with essential roles in nuclear pore assembly and mitosis. Using both larval and adult zebrafish models of hepatocellular carcinoma (HCC), in which the expression of an inducible mutant kras transgene (krasG12V) drives hepatocyte-specific hyperplasia and liver enlargement, we show that reducing ahctf1 gene dosage by 50% markedly decreases liver volume, while non-hyperplastic tissues are unaffected. We demonstrate that in the context of cancer, ahctf1 heterozygosity impairs nuclear pore formation, mitotic spindle assembly, and chromosome segregation, leading to DNA damage and activation of a Tp53-dependent transcriptional programme that induces cell death and cell cycle arrest. Heterozygous expression of both ahctf1 and ranbp2 (encoding a second nucleoporin), or treatment of heterozygous ahctf1 larvae with the nucleocytoplasmic transport inhibitor, Selinexor, completely blocks krasG12V-driven hepatocyte hyperplasia. Gene expression analysis of patient samples in the liver hepatocellular carcinoma (LIHC) dataset in The Cancer Genome Atlas shows that high expression of one or more of the transcripts encoding the 10 components of the NUP107–160 subcomplex, which includes AHCTF1, is positively correlated with worse overall survival. These results provide a strong and feasible rationale for the development of novel cancer therapeutics that target ELYS function and suggest potential avenues for effective combinatorial treatments.

Published

2023

2. Molecular diagnosis of scabies using a novel probe-based polymerase chain reaction assay targeting high-copy number repetitive sequences in the Sarcoptes scabiei genome.

Author

Lena Chng, Deborah C Holt, Matt Field, Joshua R Francis, Dev Tilakaratne, Milou H Dekkers, Greg Robinson, Kate Mounsey, Rebecca Pavlos, Asha C Bowen, Katja Fischer, Anthony T Papenfuss, Robin B Gasser, Pasi K Korhonen, Bart J Currie, James S McCarthy, and Cielo Pasay

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

BackgroundThe suboptimal sensitivity and specificity of available diagnostic methods for scabies hampers clinical management, trials of new therapies and epidemiologic studies. Additionally, parasitologic diagnosis by microscopic examination of skin scrapings requires sample collection with a sharp scalpel blade, causing discomfort to patients and difficulty in children. Polymerase chain reaction (PCR)-based diagnostic assays, combined with non-invasive sampling methods, represent an attractive approach. In this study, we aimed to develop a real-time probe-based PCR test for scabies, test a non-invasive sampling method and evaluate its diagnostic performance in two clinical settings.Methodology/principal findingsHigh copy-number repetitive DNA elements were identified in draft Sarcoptes scabiei genome sequences and used as assay targets for diagnostic PCR. Two suitable repetitive DNA sequences, a 375 base pair microsatellite (SSR5) and a 606 base pair long tandem repeat (SSR6), were identified. Diagnostic sensitivity and specificity were tested using relevant positive and negative control materials and compared to a published assay targeting the mitochondrial cox1 gene. Both assays were positive at a 1:100 dilution of DNA from a single mite; no amplification was observed in DNA from samples from 19 patients with other skin conditions nor from house dust, sheep or dog mites, head and body lice or from six common skin bacterial and fungal species. Moderate sensitivity of the assays was achieved in a pilot study, detecting 5/7 (71.4% [95% CI: 29.0% - 96.3%]) of clinically diagnosed untreated scabies patients). Greater sensitivity was observed in samples collected by FLOQ swabs compared to skin scrapings.Conclusions/significanceThis newly developed qPCR assay, combined with the use of an alternative non-invasive swab sampling technique offers the possibility of enhanced diagnosis of scabies. Further studies will be required to better define the diagnostic performance of these tests.

Published

2021

3. Evolutionary analyses of the major variant surface antigen-encoding genes reveal population structure of Plasmodium falciparum within and between continents.

Author

Gerry Tonkin-Hill, Shazia Ruybal-Pesántez, Kathryn E Tiedje, Virginie Rougeron, Michael F Duffy, Sedigheh Zakeri, Tepanata Pumpaibool, Pongchai Harnyuttanakorn, OraLee H Branch, Lastenia Ruiz-Mesía, Thomas S Rask, Franck Prugnolle, Anthony T Papenfuss, Yao-Ban Chan, and Karen P Day

Subjects

Genetics, QH426-470

Abstract

Malaria remains a major public health problem in many countries. Unlike influenza and HIV, where diversity in immunodominant surface antigens is understood geographically to inform disease surveillance, relatively little is known about the global population structure of PfEMP1, the major variant surface antigen of the malaria parasite Plasmodium falciparum. The complexity of the var multigene family that encodes PfEMP1 and that diversifies by recombination, has so far precluded its use in malaria surveillance. Recent studies have demonstrated that cost-effective deep sequencing of the region of var genes encoding the PfEMP1 DBLα domain and subsequent classification of within host sequences at 96% identity to define unique DBLα types, can reveal structure and strain dynamics within countries. However, to date there has not been a comprehensive comparison of these DBLα types between countries. By leveraging a bioinformatic approach (jumping hidden Markov model) designed specifically for the analysis of recombination within var genes and applying it to a dataset of DBLα types from 10 countries, we are able to describe population structure of DBLα types at the global scale. The sensitivity of the approach allows for the comparison of the global dataset to ape samples of Plasmodium Laverania species. Our analyses show that the evolution of the parasite population emerging out of Africa underlies current patterns of DBLα type diversity. Most importantly, we can distinguish geographic population structure within Africa between Gabon and Ghana in West Africa and Uganda in East Africa. Our evolutionary findings have translational implications in the context of globalization. Firstly, DBLα type diversity can provide a simple diagnostic framework for geographic surveillance of the rapidly evolving transmission dynamics of P. falciparum. It can also inform efforts to understand the presence or absence of global, regional and local population immunity to major surface antigen variants. Additionally, we identify a number of highly conserved DBLα types that are present globally that may be of biological significance and warrant further characterization.

Published

2021

4. High-quality nuclear genome for Sarcoptes scabiei-A critical resource for a neglected parasite.

Author

Pasi K Korhonen, Robin B Gasser, Guangxu Ma, Tao Wang, Andreas J Stroehlein, Neil D Young, Ching-Seng Ang, Deepani D Fernando, Hieng C Lu, Sara Taylor, Simone L Reynolds, Ehtesham Mofiz, Shivashankar H Najaraj, Harsha Gowda, Anil Madugundu, Santosh Renuse, Deborah Holt, Akhilesh Pandey, Anthony T Papenfuss, and Katja Fischer

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

The parasitic mite Sarcoptes scabiei is an economically highly significant parasite of the skin of humans and animals worldwide. In humans, this mite causes a neglected tropical disease (NTD), called scabies. This disease results in major morbidity, disability, stigma and poverty globally and is often associated with secondary bacterial infections. Currently, anti-scabies treatments are not sufficiently effective, resistance to them is emerging and no vaccine is available. Here, we report the first high-quality genome and transcriptomic data for S. scabiei. The genome is 56.6 Mb in size, has a a repeat content of 10.6% and codes for 9,174 proteins. We explored key molecules involved in development, reproduction, host-parasite interactions, immunity and disease. The enhanced 'omic data sets for S. scabiei represent comprehensive and critical resources for genetic, functional genomic, metabolomic, phylogenetic, ecological and/or epidemiological investigations, and will underpin the design and development of new treatments, vaccines and/or diagnostic tests.

Published

2020

5. Somatic mutations in early metazoan genes disrupt regulatory links between unicellular and multicellular genes in cancer

Author

Anna S Trigos, Richard B Pearson, Anthony T Papenfuss, and David L Goode

Subjects

cancer, evolution, networks, orthology, mutations, multicellularity, Medicine, Science, Biology (General), QH301-705.5

Abstract

Extensive transcriptional alterations are observed in cancer, many of which activate core biological processes established in unicellular organisms or suppress differentiation pathways formed in metazoans. Through rigorous, integrative analysis of genomics data from a range of solid tumors, we show many transcriptional changes in tumors are tied to mutations disrupting regulatory interactions between unicellular and multicellular genes within human gene regulatory networks (GRNs). Recurrent point mutations were enriched in regulator genes linking unicellular and multicellular subnetworks, while copy-number alterations affected downstream target genes in distinctly unicellular and multicellular regions of the GRN. Our results depict drivers of tumourigenesis as genes that created key regulatory links during the evolution of early multicellular life, whose dysfunction creates widespread dysregulation of primitive elements of the GRN. Several genes we identified as important in this process were associated with drug response, demonstrating the potential clinical value of our approach.

Published

2019

6. The Plasmodium falciparum transcriptome in severe malaria reveals altered expression of genes involved in important processes including surface antigen-encoding var genes.

Author

Gerry Q Tonkin-Hill, Leily Trianty, Rintis Noviyanti, Hanh H T Nguyen, Boni F Sebayang, Daniel A Lampah, Jutta Marfurt, Simon A Cobbold, Janavi S Rambhatla, Malcolm J McConville, Stephen J Rogerson, Graham V Brown, Karen P Day, Ric N Price, Nicholas M Anstey, Anthony T Papenfuss, and Michael F Duffy

Subjects

Biology (General), QH301-705.5

Abstract

Within the human host, the malaria parasite Plasmodium falciparum is exposed to multiple selection pressures. The host environment changes dramatically in severe malaria, but the extent to which the parasite responds to-or is selected by-this environment remains unclear. From previous studies, the parasites that cause severe malaria appear to increase expression of a restricted but poorly defined subset of the PfEMP1 variant, surface antigens. PfEMP1s are major targets of protective immunity. Here, we used RNA sequencing (RNAseq) to analyse gene expression in 44 parasite isolates that caused severe and uncomplicated malaria in Papuan patients. The transcriptomes of 19 parasite isolates associated with severe malaria indicated that these parasites had decreased glycolysis without activation of compensatory pathways; altered chromatin structure and probably transcriptional regulation through decreased histone methylation; reduced surface expression of PfEMP1; and down-regulated expression of multiple chaperone proteins. Our RNAseq also identified novel associations between disease severity and PfEMP1 transcripts, domains, and smaller sequence segments and also confirmed all previously reported associations between expressed PfEMP1 sequences and severe disease. These findings will inform efforts to identify vaccine targets for severe malaria and also indicate how parasites adapt to-or are selected by-the host environment in severe malaria.

Published

2018

7. PD-L1 is not constitutively expressed on Tasmanian devil facial tumor cells but is strongly upregulated in response to IFN-γ and can be expressed in the tumor microenvironment

Author

Andrew Steven Flies, Alan Bruce Lyons, Lynn M Corcoran, Anthony T Papenfuss, James M Murphy, Graeme W Knowles, Greg M Woods, and John Dominic Hayball

Subjects

Immunotherapy, Vaccines, Cancer, marsupial, allograft rejection, PD-1, Immunologic diseases. Allergy, RC581-607

Abstract

The devil facial tumor disease (DFTD) is caused by clonal transmissible cancers that have led to a catastrophic decline in the wild Tasmanian devil (Sarcophilus harrisii) population. The first transmissible tumor, now termed DFT1, was first discovered in 1996 and has been continually transmitted to new hosts for at least 20 years. In 2015 a second transmissible cancer (DFT2) was discovered in wild devils, and the DFT2 is genetically distinct and independent from the DFT1. Despite the estimated 136,559 base pair substitutions and 14,647 insertions/deletions in the DFT1 genome as compared to two normal devil reference genomes, the allograft tumors are not rejected by the host immune system. Additionally, genome sequencing of two sub-strains of DFT1 detected greater than 15,000 single-base substitutions that were found in only one of the DFT1 sub-strains, demonstrating the transmissible tumors are evolving and that generation of neoantigens is likely ongoing. Recent evidence in human clinical trials suggests that blocking PD-1:PD-L1 interactions promote anti-tumor immune responses and is most effective in cancers with a high number of mutations. We hypothesized that DFTD cells could exploit the PD-1:PD-L1 inhibitory pathway to evade anti-tumor immune responses. We developed recombinant proteins and monoclonal antibodies to provide the first demonstration that PD-1 binds to both PD-L1 and PD-L2 in a non-placental mammal and show that PD-L1 is upregulated in DFTD cells in response to IFN-γ. Immunohistochemistry showed that PD-L1 is rarely expressed in primary tumor masses, but low numbers of PD-L1+ non-tumor cells were detected in the microenvironment of several metastatic tumors. Importantly, in vitro testing suggests that PD-1 binding to PD-L1 and PD-L2 can be blocked by monoclonal antibodies, which could be critical to understanding how the DFT allografts evade the immune system.

Published

2016

8. Mitochondrial Genome Sequence of the Scabies Mite Provides Insight into the Genetic Diversity of Individual Scabies Infections.

Author

Ehtesham Mofiz, Torsten Seemann, Melanie Bahlo, Deborah Holt, Bart J Currie, Katja Fischer, and Anthony T Papenfuss

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

The scabies mite, Sarcoptes scabiei, is an obligate parasite of the skin that infects humans and other animal species, causing scabies, a contagious disease characterized by extreme itching. Scabies infections are a major health problem, particularly in remote Indigenous communities in Australia, where co-infection of epidermal scabies lesions by Group A Streptococci or Staphylococcus aureus is thought to be responsible for the high rate of rheumatic heart disease and chronic kidney disease. We collected and separately sequenced mite DNA from several pools of thousands of whole mites from a porcine model of scabies (S. scabiei var. suis) and two human patients (S. scabiei var. hominis) living in different regions of northern Australia. Our sequencing samples the mite and its metagenome, including the mite gut flora and the wound micro-environment. Here, we describe the mitochondrial genome of the scabies mite. We developed a new de novo assembly pipeline based on a bait-and-reassemble strategy, which produced a 14 kilobase mitochondrial genome sequence assembly. We also annotated 35 genes and have compared these to other Acari mites. We identified single nucleotide polymorphisms (SNPs) and used these to infer the presence of six haplogroups in our samples, Remarkably, these fall into two closely-related clades with one clade including both human and pig varieties. This supports earlier findings that only limited genetic differences may separate some human and animal varieties, and raises the possibility of cross-host infections. Finally, we used these mitochondrial haplotypes to show that the genetic diversity of individual infections is typically small with 1-3 distinct haplotypes per infestation.

Published

2016

9. Disruption of metazoan gene regulatory networks in cancer alters the balance of co-expression between genes of unicellular and multicellular origins

Author

Anna S. Trigos, Felicia Bongiovanni, Yangyi Zhang, Maia Zethoven, Richard Tothill, Richard Pearson, Anthony T. Papenfuss, and David L. Goode

Subjects

Cancer, Gene expression, Expression modules, Atavism, Evolution, Biology (General), QH301-705.5, Genetics, QH426-470

Abstract

Abstract Background Metazoans inherited genes from unicellular ancestors that perform essential biological processes such as cell division, metabolism, and protein translation. Multicellularity requires careful control and coordination of these unicellular genes to maintain tissue integrity and homeostasis. Gene regulatory networks (GRNs) that arose during metazoan evolution are frequently altered in cancer, resulting in over-expression of unicellular genes. We propose that an imbalance in co-expression of unicellular (UC) and multicellular (MC) genes is a driving force in cancer. Results We combine gene co-expression analysis to infer changes to GRNs in cancer with protein sequence conservation data to distinguish genes with UC and MC origins. Co-expression networks created using RNA sequencing data from 31 tumor types and normal tissue samples are divided into modules enriched for UC genes, MC genes, or mixed UC-MC modules. The greatest differences between tumor and normal tissue co-expression networks occur within mixed UC-MC modules. MC and UC genes not commonly co-expressed in normal tissues form distinct co-expression modules seen only in tumors. The degree of rewiring of genes within mixed UC-MC modules increases with tumor grade and stage. Mixed UC-MC modules are enriched for somatic mutations in cancer genes, particularly amplifications, suggesting an important driver of the rewiring observed in tumors is copy number changes. Conclusions Our study shows the greatest changes to gene co-expression patterns during tumor progression occur between genes of MC and UC origins, implicating the breakdown and rewiring of metazoan gene regulatory networks in cancer development and progression.

Published

2024

10. Expression of a Chimeric Antigen Receptor in Multiple Leukocyte Lineages in Transgenic Mice.

Author

Carmen S M Yong, Jennifer A Westwood, Jan Schröder, Anthony T Papenfuss, Bianca von Scheidt, Maria Moeller, Christel Devaud, Phillip K Darcy, and Michael H Kershaw

Subjects

Medicine, Science

Abstract

Genetically modified CD8+ T lymphocytes have shown significant anti-tumor effects in the adoptive immunotherapy of cancer, with recent studies highlighting a potential role for a combination of other immune subsets to enhance these results. However, limitations in present genetic modification techniques impose difficulties in our ability to fully explore the potential of various T cell subsets and assess the potential of other leukocytes armed with chimeric antigen receptors (CARs). To address this issue, we generated a transgenic mouse model using a pan-hematopoietic promoter (vav) to drive the expression of a CAR specific for a tumor antigen. Here we present a characterization of the immune cell compartment in two unique vav-CAR transgenic mice models, Founder 9 (F9) and Founder 38 (F38). We demonstrate the vav promoter is indeed capable of driving the expression of a CAR in cells from both myeloid and lymphoid lineage, however the highest level of expression was observed in T lymphocytes from F38 mice. Lymphoid organs in vav-CAR mice were smaller and had reduced cell numbers compared to the wild type (WT) controls. Furthermore, the immune composition of F9 mice differed greatly with a significant reduction in lymphocytes found in the thymus, lymph node and spleen of these mice. To gain insight into the altered immune phenotype of F9 mice, we determined the chromosomal integration site of the transgene in both mouse strains using whole genome sequencing (WGS). We demonstrated that compared to the 7 copies found in F38 mice, F9 mice harbored almost 270 copies. These novel vav-CAR models provide a ready source of CAR expressing myeloid and lymphoid cells and will aid in facilitating future experiments to delineate the role for other leukocytes for adoptive immunotherapy against cancer.

Published

2015

11. Improving the Power of Structural Variation Detection by Augmenting the Reference.

Author

Jan Schröder, Santhosh Girirajan, Anthony T Papenfuss, and Paul Medvedev

Subjects

Medicine, Science

Abstract

The uses of the Genome Reference Consortium's human reference sequence can be roughly categorized into three related but distinct categories: as a representative species genome, as a coordinate system for identifying variants, and as an alignment reference for variation detection algorithms. However, the use of this reference sequence as simultaneously a representative species genome and as an alignment reference leads to unnecessary artifacts for structural variation detection algorithms and limits their accuracy. We show how decoupling these two references and developing a separate alignment reference can significantly improve the accuracy of structural variation detection, lead to improved genotyping of disease related genes, and decrease the cost of studying polymorphism in a population.

Published

2015

12. Embryonic Lethality in Homozygous Human Her-2 Transgenic Mice Due to Disruption of the Pds5b Gene.

Author

Carmen S M Yong, Janelle Sharkey, Belinda Duscio, Ben Venville, Wei-Zen Wei, Richard F Jones, Clare Y Slaney, Gisela Mir Arnau, Anthony T Papenfuss, Jan Schröder, Phillip K Darcy, and Michael H Kershaw

Subjects

Medicine, Science

Abstract

The development of antigen-targeted therapeutics is dependent on the preferential expression of tumor-associated antigens (TAA) at targetable levels on the tumor. Tumor-associated antigens can be generated de novo or can arise from altered expression of normal basal proteins, such as the up-regulation of human epidermal growth factor receptor 2 (Her2/ErbB2). To properly assess the development of Her2 therapeutics in an immune tolerant model, we previously generated a transgenic mouse model in which expression of the human Her2 protein was present in both the brain and mammary tissue. This mouse model has facilitated the development of Her2 targeted therapies in a clinically relevant and suitable model. While heterozygous Her2+/- mice appear to develop in a similar manner to wild type mice (Her2-/-), it has proven difficult to generate homozygous Her2+/+ mice, potentially due to embryonic lethality. In this study, we performed whole genome sequencing to determine if the integration site of the Her2 transgene was responsible for this lethality. Indeed, we report that the Her2 transgene had integrated into the Pds5b (precocious dissociation of sisters) gene on chromosome 5, as a 162 copy concatemer. Furthermore, our findings demonstrate that Her2+/+ mice, similar to Pds5b-/- mice, are embryonic lethal and confirm the necessity for Pds5b in embryonic development. This study confirms the value of whole genome sequencing in determining the integration site of transgenes to gain insight into associated phenotypes.

Published

2015

13. CD8+ T cells from a novel T cell receptor transgenic mouse induce liver-stage immunity that can be boosted by blood-stage infection in rodent malaria.

Author

Lei Shong Lau, Daniel Fernandez-Ruiz, Vanessa Mollard, Angelika Sturm, Michelle A Neller, Anton Cozijnsen, Julia L Gregory, Gayle M Davey, Claerwen M Jones, Yi-Hsuan Lin, Ashraful Haque, Christian R Engwerda, Catherine Q Nie, Diana S Hansen, Kenneth M Murphy, Anthony T Papenfuss, John J Miles, Scott R Burrows, Tania de Koning-Ward, Geoffrey I McFadden, Francis R Carbone, Brendan S Crabb, and William R Heath

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

To follow the fate of CD8+ T cells responsive to Plasmodium berghei ANKA (PbA) infection, we generated an MHC I-restricted TCR transgenic mouse line against this pathogen. T cells from this line, termed PbT-I T cells, were able to respond to blood-stage infection by PbA and two other rodent malaria species, P. yoelii XNL and P. chabaudi AS. These PbT-I T cells were also able to respond to sporozoites and to protect mice from liver-stage infection. Examination of the requirements for priming after intravenous administration of irradiated sporozoites, an effective vaccination approach, showed that the spleen rather than the liver was the main site of priming and that responses depended on CD8α+ dendritic cells. Importantly, sequential exposure to irradiated sporozoites followed two days later by blood-stage infection led to augmented PbT-I T cell expansion. These findings indicate that PbT-I T cells are a highly versatile tool for studying multiple stages and species of rodent malaria and suggest that cross-stage reactive CD8+ T cells may be utilized in liver-stage vaccine design to enable boosting by blood-stage infections.

Published

2014

14. Diversity of conotoxin gene superfamilies in the venomous snail, Conus victoriae.

Author

Samuel D Robinson, Helena Safavi-Hemami, Lachlan D McIntosh, Anthony W Purcell, Raymond S Norton, and Anthony T Papenfuss

Subjects

Medicine, Science

Abstract

Animal venoms represent a vast library of bioactive peptides and proteins with proven potential, not only as research tools but also as drug leads and therapeutics. This is illustrated clearly by marine cone snails (genus Conus), whose venoms consist of mixtures of hundreds of peptides (conotoxins) with a diverse array of molecular targets, including voltage- and ligand-gated ion channels, G-protein coupled receptors and neurotransmitter transporters. Several conotoxins have found applications as research tools, with some being used or developed as therapeutics. The primary objective of this study was the large-scale discovery of conotoxin sequences from the venom gland of an Australian cone snail species, Conus victoriae. Using cDNA library normalization, high-throughput 454 sequencing, de novo transcriptome assembly and annotation with BLASTX and profile hidden Markov models, we discovered over 100 unique conotoxin sequences from 20 gene superfamilies, the highest diversity of conotoxins so far reported in a single study. Many of the sequences identified are new members of known conotoxin superfamilies, some help to redefine these superfamilies and others represent altogether new classes of conotoxins. In addition, we have demonstrated an efficient combination of methods to mine an animal venom gland and generate a library of sequences encoding bioactive peptides.

Published

2014

15. Bioinformatics pipelines for targeted resequencing and whole-exome sequencing of human and mouse genomes: a virtual appliance approach for instant deployment.

Author

Jason Li, Maria A Doyle, Isaam Saeed, Stephen Q Wong, Victoria Mar, David L Goode, Franco Caramia, Ken Doig, Georgina L Ryland, Ella R Thompson, Sally M Hunter, Saman K Halgamuge, Jason Ellul, Alexander Dobrovic, Ian G Campbell, Anthony T Papenfuss, Grant A McArthur, and Richard W Tothill

Subjects

Medicine, Science

Abstract

Targeted resequencing by massively parallel sequencing has become an effective and affordable way to survey small to large portions of the genome for genetic variation. Despite the rapid development in open source software for analysis of such data, the practical implementation of these tools through construction of sequencing analysis pipelines still remains a challenging and laborious activity, and a major hurdle for many small research and clinical laboratories. We developed TREVA (Targeted REsequencing Virtual Appliance), making pre-built pipelines immediately available as a virtual appliance. Based on virtual machine technologies, TREVA is a solution for rapid and efficient deployment of complex bioinformatics pipelines to laboratories of all sizes, enabling reproducible results. The analyses that are supported in TREVA include: somatic and germline single-nucleotide and insertion/deletion variant calling, copy number analysis, and cohort-based analyses such as pathway and significantly mutated genes analyses. TREVA is flexible and easy to use, and can be customised by Linux-based extensions if required. TREVA can also be deployed on the cloud (cloud computing), enabling instant access without investment overheads for additional hardware. TREVA is available at http://bioinformatics.petermac.org/treva/.

Published

2014

16. Telomere dynamics and homeostasis in a transmissible cancer.

Author

Beata Ujvari, Anne-Maree Pearse, Robyn Taylor, Stephen Pyecroft, Cassandra Flanagan, Sara Gombert, Anthony T Papenfuss, Thomas Madsen, and Katherine Belov

Subjects

Medicine, Science

Abstract

Devil Facial Tumour Disease (DFTD) is a unique clonal cancer that threatens the world's largest carnivorous marsupial, the Tasmanian devil (Sarcophilus harrisii) with extinction. This transmissible cancer is passed between individual devils by cell implantation during social interactions. The tumour arose in a Schwann cell of a single devil over 15 years ago and since then has expanded clonally, without showing signs of replicative senescence; in stark contrast to a somatic cell that displays a finite capacity for replication, known as the "Hayflick limit".In the present study we investigate the role of telomere length, measured as Telomere Copy Number (TCN), and telomerase and shelterin gene expression, as well as telomerase activity in maintaining hyperproliferation of Devil Facial Tumour (DFT) cells. Our results show that DFT cells have short telomeres. DFTD TCN does not differ between geographic regions or between strains. However, TCN has increased over time. Unlimited cell proliferation is likely to have been achieved through the observed up-regulation of the catalytic subunit of telomerase (TERT) and concomitant activation of telomerase. Up-regulation of the central component of shelterin, the TRF1-intercating nuclear factor 2 (TINF2) provides DFT a mechanism for telomere length homeostasis. The higher expression of both TERT and TINF2 may also protect DFT cells from genomic instability and enhance tumour proliferation.DFT cells appear to monitor and regulate the length of individual telomeres: i.e. shorter telomeres are elongated by up-regulation of telomerase-related genes; longer telomeres are protected from further elongation by members of the shelterin complex, which may explain the lack of spatial and strain variation in DFT telomere copy number. The observed longitudinal increase in gene expression in DFT tissue samples and telomerase activity in DFT cell lines might indicate a selection for more stable tumours with higher proliferative potential.

Published

2012

17. Genomic restructuring in the Tasmanian devil facial tumour: chromosome painting and gene mapping provide clues to evolution of a transmissible tumour.

Author

Janine E Deakin, Hannah S Bender, Anne-Maree Pearse, Willem Rens, Patricia C M O'Brien, Malcolm A Ferguson-Smith, Yuanyuan Cheng, Katrina Morris, Robyn Taylor, Andrew Stuart, Katherine Belov, Chris T Amemiya, Elizabeth P Murchison, Anthony T Papenfuss, and Jennifer A Marshall Graves

Subjects

Genetics, QH426-470

Abstract

Devil facial tumour disease (DFTD) is a fatal, transmissible malignancy that threatens the world's largest marsupial carnivore, the Tasmanian devil, with extinction. First recognised in 1996, DFTD has had a catastrophic effect on wild devil numbers, and intense research efforts to understand and contain the disease have since demonstrated that the tumour is a clonal cell line transmitted by allograft. We used chromosome painting and gene mapping to deconstruct the DFTD karyotype and determine the chromosome and gene rearrangements involved in carcinogenesis. Chromosome painting on three different DFTD tumour strains determined the origins of marker chromosomes and provided a general overview of the rearrangement in DFTD karyotypes. Mapping of 105 BAC clones by fluorescence in situ hybridisation provided a finer level of resolution of genome rearrangements in DFTD strains. Our findings demonstrate that only limited regions of the genome, mainly chromosomes 1 and X, are rearranged in DFTD. Regions rearranged in DFTD are also highly rearranged between different marsupials. Differences between strains are limited, reflecting the unusually stable nature of DFTD. Finally, our detailed maps of both the devil and tumour karyotypes provide a physical framework for future genomic investigations into DFTD.

Published

2012

18. Reconstructing an ancestral mammalian immune supercomplex from a marsupial major histocompatibility complex.

Author

Katherine Belov, Janine E Deakin, Anthony T Papenfuss, Michelle L Baker, Sandra D Melman, Hannah V Siddle, Nicolas Gouin, David L Goode, Tobias J Sargeant, Mark D Robinson, Matthew J Wakefield, Shaun Mahony, Joseph G R Cross, Panayiotis V Benos, Paul B Samollow, Terence P Speed, Jennifer A Marshall Graves, and Robert D Miller

Subjects

Biology (General), QH301-705.5

Abstract

The first sequenced marsupial genome promises to reveal unparalleled insights into mammalian evolution. We have used the Monodelphis domestica (gray short-tailed opossum) sequence to construct the first map of a marsupial major histocompatibility complex (MHC). The MHC is the most gene-dense region of the mammalian genome and is critical to immunity and reproductive success. The marsupial MHC bridges the phylogenetic gap between the complex MHC of eutherian mammals and the minimal essential MHC of birds. Here we show that the opossum MHC is gene dense and complex, as in humans, but shares more organizational features with non-mammals. The Class I genes have amplified within the Class II region, resulting in a unique Class I/II region. We present a model of the organization of the MHC in ancestral mammals and its elaboration during mammalian evolution. The opossum genome, together with other extant genomes, reveals the existence of an ancestral "immune supercomplex" that contained genes of both types of natural killer receptors together with antigen processing genes and MHC genes.

Published

2006

19. Epithelial-to-Mesenchymal Transition Supports Ovarian Carcinosarcoma Tumorigenesis and Confers Sensitivity to Microtubule Targeting with Eribulin

Author

Gwo Yaw, Ho, Elizabeth L, Kyran, Justin, Bedo, Matthew J, Wakefield, Darren P, Ennis, Hasan B, Mirza, Cassandra J, Vandenberg, Elizabeth, Lieschke, Andrew, Farrell, Anthony, Hadla, Ratana, Lim, Genevieve, Dall, James E, Vince, Ngee Kiat, Chua, Olga, Kondrashova, Rosanna, Upstill-Goddard, Ulla-Maja, Bailey, Suzanne, Dowson, Patricia, Roxburgh, Rosalind M, Glasspool, Gareth, Bryson, Andrew V, Biankin, Susanna L, Cooke, Gayanie, Ratnayake, Orla, McNally, Nadia, Traficante, Anna, DeFazio, S John, Weroha, David D, Bowtell, Iain A, McNeish, Anthony T, Papenfuss, Clare L, Scott, and Holly E, Barker

Subjects

Ovarian Neoplasms, Cancer Research, Epithelial-Mesenchymal Transition, Cell Transformation, Neoplastic, Carcinosarcoma, Oncology, Carcinoma, Humans, Female, Antineoplastic Agents, Microtubules

Abstract

Ovarian carcinosarcoma (OCS) is an aggressive and rare tumor type with limited treatment options. OCS is hypothesized to develop via the combination theory, with a single progenitor resulting in carcinomatous and sarcomatous components, or alternatively via the conversion theory, with the sarcomatous component developing from the carcinomatous component through epithelial-to-mesenchymal transition (EMT). In this study, we analyzed DNA variants from isolated carcinoma and sarcoma components to show that OCS from 18 women is monoclonal. RNA sequencing indicated that the carcinoma components were more mesenchymal when compared with pure epithelial ovarian carcinomas, supporting the conversion theory and suggesting that EMT is important in the formation of these tumors. Preclinical OCS models were used to test the efficacy of microtubule-targeting drugs, including eribulin, which has previously been shown to reverse EMT characteristics in breast cancers and induce differentiation in sarcomas. Vinorelbine and eribulin more effectively inhibited OCS growth than standard-of-care platinum-based chemotherapy, and treatment with eribulin reduced mesenchymal characteristics and N-MYC expression in OCS patient-derived xenografts. Eribulin treatment resulted in an accumulation of intracellular cholesterol in OCS cells, which triggered a downregulation of the mevalonate pathway and prevented further cholesterol biosynthesis. Finally, eribulin increased expression of genes related to immune activation and increased the intratumoral accumulation of CD8+ T cells, supporting exploration of immunotherapy combinations in the clinic. Together, these data indicate that EMT plays a key role in OCS tumorigenesis and support the conversion theory for OCS histogenesis. Targeting EMT using eribulin could help improve OCS patient outcomes. Significance: Genomic analyses and preclinical models of ovarian carcinosarcoma support the conversion theory for disease development and indicate that microtubule inhibitors could be used to suppress EMT and stimulate antitumor immunity.

Published

2022

20. Removing unwanted variation from large-scale RNA sequencing data with PRPS

Author

Ramyar Molania, Momeneh Foroutan, Johann A. Gagnon-Bartsch, Luke C. Gandolfo, Aryan Jain, Abhishek Sinha, Gavriel Olshansky, Alexander Dobrovic, Anthony T. Papenfuss, and Terence P. Speed

Subjects

Biomedical Engineering, Molecular Medicine, Bioengineering, Applied Microbiology and Biotechnology, Biotechnology

Abstract

Accurate identification and effective removal of unwanted variation is essential to derive meaningful biological results from RNA sequencing (RNA-seq) data, especially when the data come from large and complex studies. Using RNA-seq data from The Cancer Genome Atlas (TCGA), we examined several sources of unwanted variation and demonstrate here how these can significantly compromise various downstream analyses, including cancer subtype identification, association between gene expression and survival outcomes and gene co-expression analysis. We propose a strategy, called pseudo-replicates of pseudo-samples (PRPS), for deploying our recently developed normalization method, called removing unwanted variation III (RUV-III), to remove the variation caused by library size, tumor purity and batch effects in TCGA RNA-seq data. We illustrate the value of our approach by comparing it to the standard TCGA normalizations on several TCGA RNA-seq datasets. RUV-III with PRPS can be used to integrate and normalize other large transcriptomic datasets coming from multiple laboratories or platforms.

Published

2022

21. Synthetic Epigenetic Reprogramming of Mesenchymal to Epithelial States Using the CRISPR/dCas9 Platform in Triple Negative Breast Cancer

Author

Charlene Waryah, Joseph Cursons, Momeneh Foroutan, Christian Pflueger, Edina Wang, Ramyar Molania, Anabel Sorolla, Christopher Wallis, Colette Moses, Irina Glas, Leandro Magalhães, Erik W. Thompson, Liam G. Fearnley, Christine L. Chaffer, Melissa Davis, Anthony T. Papenfuss, Andrew Redfern, Ryan Lister, Manel Esteller, and Pilar Blancafort

Subjects

General Chemical Engineering, General Engineering, General Physics and Astronomy, Medicine (miscellaneous), General Materials Science, Biochemistry, Genetics and Molecular Biology (miscellaneous)

Published

2023

22. Targeting homologous recombination deficiency in uterine leiomyosarcoma

Author

Genevieve Dall, Cassandra J. Vandenberg, Ksenija Nesic, Gayanie Ratnayake, Wenying Zhu, Joseph H. A. Vissers, Justin Bedő, Jocelyn Penington, Matthew J. Wakefield, Damien Kee, Amandine Carmagnac, Ratana Lim, Kristy Shield-Artin, Briony Milesi, Amanda Lobley, Elizabeth L. Kyran, Emily O’Grady, Joshua Tram, Warren Zhou, Devindee Nugawela, Kym Pham Stewart, Reece Caldwell, Lia Papadopoulos, Ashley P. Ng, Alexander Dobrovic, Stephen B. Fox, Orla McNally, Jeremy D. Power, Tarek Meniawy, Teng Han Tan, Ian M. Collins, Oliver Klein, Stephen Barnett, Inger Olesen, Anne Hamilton, Oliver Hofmann, Sean Grimmond, Anthony T. Papenfuss, Clare L. Scott, and Holly E. Barker

Subjects

Cancer Research, Oncology

Abstract

Background Uterine leiomyosarcoma (uLMS) is a rare and aggressive gynaecological malignancy, with individuals with advanced uLMS having a five-year survival of 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.

Published

2023

23. Supplementary Figures from Combined BRAF, MEK, and CDK4/6 Inhibition Depletes Intratumoral Immune-Potentiating Myeloid Populations in Melanoma

Author

Karen E. Sheppard, Jane Oliaro, Grant A. McArthur, Nicole M. Haynes, Anthony T. Papenfuss, Carleen Cullinane, Alison Slater, Riyaben P. Patel, Claire Martin, Laura Kirby, Luciano G. Martelotto, Amanda J. Oliver, Peter K.H. Lau, Lydia Lim, Magnus Zethoven, Kelly M. Ramsbottom, Stefano Mangiola, and Emily J. Lelliott

Abstract

Supplementary Figures S1-S5

Published

2023

24. Supplementary Table S1 from Combined BRAF, MEK, and CDK4/6 Inhibition Depletes Intratumoral Immune-Potentiating Myeloid Populations in Melanoma

Author

Karen E. Sheppard, Jane Oliaro, Grant A. McArthur, Nicole M. Haynes, Anthony T. Papenfuss, Carleen Cullinane, Alison Slater, Riyaben P. Patel, Claire Martin, Laura Kirby, Luciano G. Martelotto, Amanda J. Oliver, Peter K.H. Lau, Lydia Lim, Magnus Zethoven, Kelly M. Ramsbottom, Stefano Mangiola, and Emily J. Lelliott

Abstract

Supplementary Table S1

Published

2023

25. Data from Combined BRAF, MEK, and CDK4/6 Inhibition Depletes Intratumoral Immune-Potentiating Myeloid Populations in Melanoma

Author

Karen E. Sheppard, Jane Oliaro, Grant A. McArthur, Nicole M. Haynes, Anthony T. Papenfuss, Carleen Cullinane, Alison Slater, Riyaben P. Patel, Claire Martin, Laura Kirby, Luciano G. Martelotto, Amanda J. Oliver, Peter K.H. Lau, Lydia Lim, Magnus Zethoven, Kelly M. Ramsbottom, Stefano Mangiola, and Emily J. Lelliott

Abstract

Combined inhibition of BRAF, MEK, and CDK4/6 is currently under evaluation in clinical trials for patients with melanoma harboring a BRAFV600 mutation. While this triple therapy has potent tumor-intrinsic effects, the impact of this combination on antitumor immunity remains unexplored. Here, using a syngeneic BrafV600ECdkn2a−/−Pten−/− melanoma model, we demonstrated that triple therapy promoted durable tumor control through tumor-intrinsic mechanisms and promoted immunogenic cell death and T-cell infiltration. Despite this, tumors treated with triple therapy were unresponsive to immune checkpoint blockade (ICB). Flow cytometric and single-cell RNA sequencing analyses of tumor-infiltrating immune populations revealed that triple therapy markedly depleted proinflammatory macrophages and cross-priming CD103+ dendritic cells, the absence of which correlated with poor overall survival and clinical responses to ICB in patients with melanoma. Indeed, immune populations isolated from tumors of mice treated with triple therapy failed to stimulate T-cell responses ex vivo. While combined BRAF, MEK, and CDK4/6 inhibition demonstrates favorable tumor-intrinsic activity, these data suggest that collateral effects on tumor-infiltrating myeloid populations may impact antitumor immunity. These findings have important implications for the design of combination strategies and clinical trials that incorporate BRAF, MEK, and CDK4/6 inhibition with immunotherapy for the treatment of patients with melanoma.

Published

2023

26. Figure S1 from Somatic Hypermutation of the YAP Oncogene in a Human Cutaneous Melanoma

Author

Mark Shackleton, Kieran F. Harvey, Anthony T. Papenfuss, Grant A. McArthur, Nicholas Hayward, Georgina V. Long, Helen Rizos, Evangeline Shaw, Katrina A. Mitchell, Lachlan McIntosh, Andrew Colebatch, Christopher Mintoff, Lie Yang, Pacman Szeto, Youfang Zhang, Ismael A. Vergara, Jian Zhong Tang, and Xiaomeng Zhang

Abstract

Expression of YAP, pYAP or TAZ proteins in 10 melanoma cell lines

Published

2023

27. Data from Somatic Hypermutation of the YAP Oncogene in a Human Cutaneous Melanoma

Author

Mark Shackleton, Kieran F. Harvey, Anthony T. Papenfuss, Grant A. McArthur, Nicholas Hayward, Georgina V. Long, Helen Rizos, Evangeline Shaw, Katrina A. Mitchell, Lachlan McIntosh, Andrew Colebatch, Christopher Mintoff, Lie Yang, Pacman Szeto, Youfang Zhang, Ismael A. Vergara, Jian Zhong Tang, and Xiaomeng Zhang

Abstract

Melanoma is usually driven by mutations in BRAF or NRAS, which trigger hyperactivation of MAPK signaling. However, MAPK-targeted therapies are not sustainably effective in most patients. Accordingly, characterizing mechanisms that co-operatively drive melanoma progression is key to improving patient outcomes. One possible mechanism is the Hippo signaling pathway, which regulates cancer progression via its central oncoproteins YAP and TAZ, although is thought to be only rarely affected by direct mutation. As YAP hyperactivation occurs in uveal melanoma, we investigated this oncogene in cutaneous melanoma. YAP protein expression was elevated in most benign nevi and primary cutaneous melanomas but present at only very low levels in normal melanocytes. In patient-derived xenografts and melanoma cell lines, we observed variable reliance of cell viability on Hippo pathway signaling that was independent of TAZ activity and also of classical melanoma driver mutations such as BRAF and NRAS. Finally, in genotyping studies of melanoma, we observed the first ever hyperactivating YAP mutations in a human cancer, manifest as seven distinct missense point mutations that caused serine to alanine transpositions. Strikingly, these mutate four serine residues known to be targeted by the Hippo pathway and we show that they lead to hyperactivation of YAP.Implications:Our studies highlight the YAP oncoprotein as a potential therapeutic target in select subgroups of melanoma patients, although successful treatment with anti-YAP therapies will depend on identification of biomarkers additional to YAP protein expression.

Published

2023

28. Supplemental Legends from Somatic Hypermutation of the YAP Oncogene in a Human Cutaneous Melanoma

Author

Mark Shackleton, Kieran F. Harvey, Anthony T. Papenfuss, Grant A. McArthur, Nicholas Hayward, Georgina V. Long, Helen Rizos, Evangeline Shaw, Katrina A. Mitchell, Lachlan McIntosh, Andrew Colebatch, Christopher Mintoff, Lie Yang, Pacman Szeto, Youfang Zhang, Ismael A. Vergara, Jian Zhong Tang, and Xiaomeng Zhang

Abstract

Supplemental Legends

Published

2023

29. Supplementary Figure 1 from BRAF/NRAS Wild-Type Melanomas Have a High Mutation Load Correlating with Histologic and Molecular Signatures of UV Damage

Author

Grant A. McArthur, Alexander Dobrovic, John W. Kelly, Rory Wolfe, Jonathan S. Cebon, Andreas Behren, John F. Thompson, Graham J. Mann, Hojabr Kakavand, Richard W. Tothill, Anthony T. Papenfuss, Catriona McLean, Richard A. Scolyer, Jason Li, Stephen Q. Wong, and Victoria J. Mar

Abstract

Supplementary Figure 1 - PDF file 91K, Schematic diagram of experimental procedure and bioinformatic analysis

Published

2023

30. Supplementary Data from Epithelial-to-Mesenchymal Transition Supports Ovarian Carcinosarcoma Tumorigenesis and Confers Sensitivity to Microtubule Targeting with Eribulin

Author

Holly E. Barker, Clare L. Scott, Anthony T. Papenfuss, Iain A. McNeish, David D. Bowtell, S. John Weroha, Anna DeFazio, Nadia Traficante, Orla McNally, Gayanie Ratnayake, Susanna L. Cooke, Andrew V. Biankin, Gareth Bryson, Rosalind M. Glasspool, Patricia Roxburgh, Suzanne Dowson, Ulla-Maja Bailey, Rosanna Upstill-Goddard, Olga Kondrashova, Ngee Kiat Chua, James E. Vince, Genevieve Dall, Ratana Lim, Anthony Hadla, Andrew Farrell, Elizabeth Lieschke, Cassandra J. Vandenberg, Hasan B. Mirza, Darren P. Ennis, Matthew J. Wakefield, Justin Bedo, Elizabeth L. Kyran, and Gwo Yaw Ho

Abstract

Supplementary methods and figures

Published

2023

31. Supplementary Tables 1, 3 and 4 from BRAF/NRAS Wild-Type Melanomas Have a High Mutation Load Correlating with Histologic and Molecular Signatures of UV Damage

Author

Grant A. McArthur, Alexander Dobrovic, John W. Kelly, Rory Wolfe, Jonathan S. Cebon, Andreas Behren, John F. Thompson, Graham J. Mann, Hojabr Kakavand, Richard W. Tothill, Anthony T. Papenfuss, Catriona McLean, Richard A. Scolyer, Jason Li, Stephen Q. Wong, and Victoria J. Mar

Abstract

Supplementary tables 1, 3 and 4 - XLSX file 31K, 1. Performance summary of exome sequencing and capture kit used for each sample 3. List of genes for each melanoma subtype 4. List of potential actionable mutations in BRAF/NRAS wild-type tumors

Published

2023

32. Data from Epithelial-to-Mesenchymal Transition Supports Ovarian Carcinosarcoma Tumorigenesis and Confers Sensitivity to Microtubule Targeting with Eribulin

Author

Holly E. Barker, Clare L. Scott, Anthony T. Papenfuss, Iain A. McNeish, David D. Bowtell, S. John Weroha, Anna DeFazio, Nadia Traficante, Orla McNally, Gayanie Ratnayake, Susanna L. Cooke, Andrew V. Biankin, Gareth Bryson, Rosalind M. Glasspool, Patricia Roxburgh, Suzanne Dowson, Ulla-Maja Bailey, Rosanna Upstill-Goddard, Olga Kondrashova, Ngee Kiat Chua, James E. Vince, Genevieve Dall, Ratana Lim, Anthony Hadla, Andrew Farrell, Elizabeth Lieschke, Cassandra J. Vandenberg, Hasan B. Mirza, Darren P. Ennis, Matthew J. Wakefield, Justin Bedo, Elizabeth L. Kyran, and Gwo Yaw Ho

Abstract

Ovarian carcinosarcoma (OCS) is an aggressive and rare tumor type with limited treatment options. OCS is hypothesized to develop via the combination theory, with a single progenitor resulting in carcinomatous and sarcomatous components, or alternatively via the conversion theory, with the sarcomatous component developing from the carcinomatous component through epithelial-to-mesenchymal transition (EMT). In this study, we analyzed DNA variants from isolated carcinoma and sarcoma components to show that OCS from 18 women is monoclonal. RNA sequencing indicated that the carcinoma components were more mesenchymal when compared with pure epithelial ovarian carcinomas, supporting the conversion theory and suggesting that EMT is important in the formation of these tumors. Preclinical OCS models were used to test the efficacy of microtubule-targeting drugs, including eribulin, which has previously been shown to reverse EMT characteristics in breast cancers and induce differentiation in sarcomas. Vinorelbine and eribulin more effectively inhibited OCS growth than standard-of-care platinum-based chemotherapy, and treatment with eribulin reduced mesenchymal characteristics and N-MYC expression in OCS patient-derived xenografts. Eribulin treatment resulted in an accumulation of intracellular cholesterol in OCS cells, which triggered a downregulation of the mevalonate pathway and prevented further cholesterol biosynthesis. Finally, eribulin increased expression of genes related to immune activation and increased the intratumoral accumulation of CD8+ T cells, supporting exploration of immunotherapy combinations in the clinic. Together, these data indicate that EMT plays a key role in OCS tumorigenesis and support the conversion theory for OCS histogenesis. Targeting EMT using eribulin could help improve OCS patient outcomes.Significance:Genomic analyses and preclinical models of ovarian carcinosarcoma support the conversion theory for disease development and indicate that microtubule inhibitors could be used to suppress EMT and stimulate antitumor immunity.

Published

2023

33. Supplementary Table 2 from BRAF/NRAS Wild-Type Melanomas Have a High Mutation Load Correlating with Histologic and Molecular Signatures of UV Damage

Author

Grant A. McArthur, Alexander Dobrovic, John W. Kelly, Rory Wolfe, Jonathan S. Cebon, Andreas Behren, John F. Thompson, Graham J. Mann, Hojabr Kakavand, Richard W. Tothill, Anthony T. Papenfuss, Catriona McLean, Richard A. Scolyer, Jason Li, Stephen Q. Wong, and Victoria J. Mar

Abstract

Supplementary Table 2 - PDF file 16632K, Single nucleotide variants identified for each sample

Published

2023

34. Data from BRAF/NRAS Wild-Type Melanomas Have a High Mutation Load Correlating with Histologic and Molecular Signatures of UV Damage

Author

Grant A. McArthur, Alexander Dobrovic, John W. Kelly, Rory Wolfe, Jonathan S. Cebon, Andreas Behren, John F. Thompson, Graham J. Mann, Hojabr Kakavand, Richard W. Tothill, Anthony T. Papenfuss, Catriona McLean, Richard A. Scolyer, Jason Li, Stephen Q. Wong, and Victoria J. Mar

Abstract

Purpose: The mutation load in melanoma is generally high compared with other tumor types due to extensive UV damage. Translation of exome sequencing data into clinically relevant information is therefore challenging. This study sought to characterize mutations identified in primary cutaneous melanomas and correlate these with clinicopathologic features.Experimental Design: DNA was extracted from 34 fresh-frozen primary cutaneous melanomas and matched peripheral blood. Tumor histopathology was reviewed by two dermatopathologists. Exome sequencing was conducted and mutation rates were correlated with age, sex, tumor site, and histopathologic variables. Differences in mutations between categories of solar elastosis, pigmentation, and BRAF/NRAS mutational status were investigated.Results: The average mutation rate was 12 per megabase, similar to published results in metastases. The average mutation rate in severely sun damaged (SSD) skin was 21 per Mb compared with 3.8 per Mb in non-SSD skin (P = 0.001). BRAF/NRAS wild-type (WT) tumors had a higher average mutation rate compared with BRAF/NRAS–mutant tumors (27 vs. 5.6 mutations per Mb; P = 0.0001). Tandem CC>TT/GG>AA mutations comprised 70% of all dinucleotide substitutions and were more common in tumors arising in SSD skin (P = 0.0008) and in BRAF/NRAS WT tumors (P = 0.0007). Targetable and potentially targetable mutations in WT tumors, including NF1, KIT, and NOTCH1, were spread over various signaling pathways.Conclusion: Melanomas arising in SSD skin have higher mutation loads and contain a spectrum of molecular subtypes compared with BRAF- and NRAS-mutant tumors indicating multigene screening approaches and combination therapies may be required for management of these patients. Clin Cancer Res; 19(17); 4589–98. ©2013 AACR.

Published

2023

35. Supplementary Methods and References from UV-Associated Mutations Underlie the Etiology of MCV-Negative Merkel Cell Carcinomas

Author

Richard W. Tothill, Rodney J. Hicks, Anthony J. Gill, Richard A. Scolyer, Anthony T. Papenfuss, Grant A. McArthur, Stephen B. Fox, Ricky W. Johnstone, David D.L. Bowtell, Shahneen Sandhu, Mark Shackleton, Meredith Johnston, Carleen Cullinane, John F. Thompson, Graham J. Mann, George Hruby, J. Helen Leonard, Andrew Fellowes, Gisela Mir Arnau, Timothy Semple, Richard Lupat, Jason Li, Ricardo De Paoli-Iseppi, Andrew J. Colebatch, James S. Wilmott, Jason Madore, Jan Schröder, Ismael A. Vergara, Kelly Waldeck, and Stephen Q. Wong

Abstract

Description of additional methods and procedures used in the study. Also includes Supplementary References.

Published

2023

36. Supplementary Figure S5 from CD271 Expression on Patient Melanoma Cells Is Unstable and Unlinked to Tumorigenicity

Author

Mark Shackleton, Anthony T. Papenfuss, Ricky W. Johnstone, Michael A. Henderson, David Gyorki, Miklos Pohl, Simon Donahoe, David Speakman, John Spillane, Robert Fuller, Annie Wong, Richard J. Young, Jeremy Lewin, Pacman Szeto, Elisha Wybacz, Vincent Corbin, Clare G. Fedele, and Samantha E. Boyle

Abstract

Variable re-expression patterns in PDX tumors generated from CD271- and CD271+ cells.

Published

2023

37. Supplementary Tables S1-S11 from UV-Associated Mutations Underlie the Etiology of MCV-Negative Merkel Cell Carcinomas

Author

Richard W. Tothill, Rodney J. Hicks, Anthony J. Gill, Richard A. Scolyer, Anthony T. Papenfuss, Grant A. McArthur, Stephen B. Fox, Ricky W. Johnstone, David D.L. Bowtell, Shahneen Sandhu, Mark Shackleton, Meredith Johnston, Carleen Cullinane, John F. Thompson, Graham J. Mann, George Hruby, J. Helen Leonard, Andrew Fellowes, Gisela Mir Arnau, Timothy Semple, Richard Lupat, Jason Li, Ricardo De Paoli-Iseppi, Andrew J. Colebatch, James S. Wilmott, Jason Madore, Jan Schröder, Ismael A. Vergara, Kelly Waldeck, and Stephen Q. Wong

Abstract

MCC Patient characteristics (S1); Extension cohort of MCCs (S2); List of genes represented on the targeted sequencing panel (S3); Performance metrics for targeted sequencing and low coverage WGS (S4); Validation of mutations by orthogonal genotyping methods (S5); Immunohistochemistry scores for MCCs (S6); SNV and Indels called from targeted sequencing (S7); Mutational burden with respect to copy number changes through low coverage whole genome sequencing (S8); Gene level copy-number from LC-WGS (S9); Copies and viral integration sites for MCV positive MCCs (S10); Drug sensitivity data for 3 MCC cell lines (S11).

Published

2023

38. Supplementary Figure S1 from UV-Associated Mutations Underlie the Etiology of MCV-Negative Merkel Cell Carcinomas

Author

Richard W. Tothill, Rodney J. Hicks, Anthony J. Gill, Richard A. Scolyer, Anthony T. Papenfuss, Grant A. McArthur, Stephen B. Fox, Ricky W. Johnstone, David D.L. Bowtell, Shahneen Sandhu, Mark Shackleton, Meredith Johnston, Carleen Cullinane, John F. Thompson, Graham J. Mann, George Hruby, J. Helen Leonard, Andrew Fellowes, Gisela Mir Arnau, Timothy Semple, Richard Lupat, Jason Li, Ricardo De Paoli-Iseppi, Andrew J. Colebatch, James S. Wilmott, Jason Madore, Jan Schröder, Ismael A. Vergara, Kelly Waldeck, and Stephen Q. Wong

Abstract

Focal copy number alterations proximal to viral integrations in V+MCC.

Published

2023

39. Data from UV-Associated Mutations Underlie the Etiology of MCV-Negative Merkel Cell Carcinomas

Author

Richard W. Tothill, Rodney J. Hicks, Anthony J. Gill, Richard A. Scolyer, Anthony T. Papenfuss, Grant A. McArthur, Stephen B. Fox, Ricky W. Johnstone, David D.L. Bowtell, Shahneen Sandhu, Mark Shackleton, Meredith Johnston, Carleen Cullinane, John F. Thompson, Graham J. Mann, George Hruby, J. Helen Leonard, Andrew Fellowes, Gisela Mir Arnau, Timothy Semple, Richard Lupat, Jason Li, Ricardo De Paoli-Iseppi, Andrew J. Colebatch, James S. Wilmott, Jason Madore, Jan Schröder, Ismael A. Vergara, Kelly Waldeck, and Stephen Q. Wong

Abstract

Merkel cell carcinoma (MCC) is an uncommon, but highly malignant, cutaneous tumor. Merkel cell polyoma virus (MCV) has been implicated in a majority of MCC tumors; however, viral-negative tumors have been reported to be more prevalent in some geographic regions subject to high sun exposure. While the impact of MCV and viral T-antigens on MCC development has been extensively investigated, little is known about the etiology of viral-negative tumors. We performed targeted capture and massively parallel DNA sequencing of 619 cancer genes to compare the gene mutations and copy number alterations in MCV-positive (n = 13) and -negative (n = 21) MCC tumors and cell lines. We found that MCV-positive tumors displayed very low mutation rates, but MCV-negative tumors exhibited a high mutation burden associated with a UV-induced DNA damage signature. All viral-negative tumors harbored mutations in RB1, TP53, and a high frequency of mutations in NOTCH1 and FAT1. Additional mutated or amplified cancer genes of potential clinical importance included PI3K (PIK3CA, AKT1, PIK3CG) and MAPK (HRAS, NF1) pathway members and the receptor tyrosine kinase FGFR2. Furthermore, looking ahead to potential therapeutic strategies encompassing immune checkpoint inhibitors such as anti-PD-L1, we also assessed the status of T-cell–infiltrating lymphocytes (TIL) and PD-L1 in MCC tumors. A subset of viral-negative tumors exhibited high TILs and PD-L1 expression, corresponding with the higher mutation load within these cancers. Taken together, this study provides new insights into the underlying biology of viral-negative MCC and paves the road for further investigation into new treatment opportunities. Cancer Res; 75(24); 5228–34. ©2015 AACR.

Published

2023

40. Data from CD271 Expression on Patient Melanoma Cells Is Unstable and Unlinked to Tumorigenicity

Author

Mark Shackleton, Anthony T. Papenfuss, Ricky W. Johnstone, Michael A. Henderson, David Gyorki, Miklos Pohl, Simon Donahoe, David Speakman, John Spillane, Robert Fuller, Annie Wong, Richard J. Young, Jeremy Lewin, Pacman Szeto, Elisha Wybacz, Vincent Corbin, Clare G. Fedele, and Samantha E. Boyle

Abstract

The stability of markers that identify cancer cells that propagate disease is important to the outcomes of targeted therapy strategies. In human melanoma, conflicting data exist as to whether hierarchical expression of CD271/p75/NGFR (nerve growth factor receptor) marks cells with enriched tumorigenicity, which would compel their specific targeting in therapy. To test whether these discrepancies relate to differences among groups in assay approaches, we undertook side-by-side testing of published methods of patient-derived melanoma xenografting (PDX), including comparisons of tissue digestion procedures or coinjected Matrigel formulations. We found that CD271− and CD271+ melanoma cells from each of seven patients were similarly tumorigenic, regardless of assay variations. Surprisingly variable CD271 expression patterns were observed in the analyses of sibling PDX tumors (n = 68) grown in the same experiments from either CD271− or CD271+ cells obtained from patients. This indicates unstable intratumoral lineage relationships between CD271− and CD271+ melanoma cells that are inconsistent with classical, epigenetically based theories of disease progression, such as the cancer stem cell and plasticity models. SNP genotyping of pairs of sibling PDX tumors grown from phenotypically identical CD271− or CD271+ cells showed large pairwise differences in copy number (28%–48%). Differences were also apparent in the copy number profiles of CD271− and CD271+ cells purified directly from each of the four melanomas (1.4%–23%). Thus, CD271 expression in patient melanomas is unstable, not consistently linked to increased tumorigenicity and associated with genetic heterogeneity, undermining its use as a marker in clinical studies. Cancer Res; 76(13); 3965–77. ©2016 AACR.

Published

2023

41. Supplementary Materials and Methods from CD271 Expression on Patient Melanoma Cells Is Unstable and Unlinked to Tumorigenicity

Author

Mark Shackleton, Anthony T. Papenfuss, Ricky W. Johnstone, Michael A. Henderson, David Gyorki, Miklos Pohl, Simon Donahoe, David Speakman, John Spillane, Robert Fuller, Annie Wong, Richard J. Young, Jeremy Lewin, Pacman Szeto, Elisha Wybacz, Vincent Corbin, Clare G. Fedele, and Samantha E. Boyle

Abstract

Description of additional methods and procedures used in the study.

Published

2023

42. Supplementary Figure Legends from CD271 Expression on Patient Melanoma Cells Is Unstable and Unlinked to Tumorigenicity

Author

Mark Shackleton, Anthony T. Papenfuss, Ricky W. Johnstone, Michael A. Henderson, David Gyorki, Miklos Pohl, Simon Donahoe, David Speakman, John Spillane, Robert Fuller, Annie Wong, Richard J. Young, Jeremy Lewin, Pacman Szeto, Elisha Wybacz, Vincent Corbin, Clare G. Fedele, and Samantha E. Boyle

Abstract

Legend for Supplementary Figures S1-S8.

Published

2023

43. Author response: ahctf1 and kras mutations combine to amplify oncogenic stress and restrict liver overgrowth in a zebrafish model of hepatocellular carcinoma

Author

Kimberly J Morgan, Karen Doggett, Fansuo Geng, Stephen Mieruszynski, Lachlan Whitehead, Kelly A Smith, Benjamin M Hogan, Cas Simons, Gregory J Baillie, Ramyar Molania, Anthony T Papenfuss, Thomas E Hall, Elke A Ober, Didier YR Stainier, Zhiyuan Gong, and Joan K Heath

Published

2023

44. Relationship of circulating Plasmodium falciparum lifecycle stage to circulating parasitemia and total parasite biomass

Author

Michael F. Duffy, Gerry Q. Tonkin-Hill, Leily Trianty, Rintis Noviyanti, Hanh H. T. Nguyen, Janavi S. Rambhatla, Malcolm J. McConville, Stephen J. Rogerson, Graham V. Brown, Ric N. Price, Nicholas M. Anstey, Karen P. Day, and Anthony T. Papenfuss

Subjects

Multidisciplinary, General Physics and Astronomy, General Chemistry, General Biochemistry, Genetics and Molecular Biology

Published

2022

45. A G358S mutation in the Plasmodium falciparum Na+ pump PfATP4 confers clinically-relevant resistance to cipargamin

Author

Deyun Qiu, Jinxin V. Pei, James E. O. Rosling, Vandana Thathy, Dongdi Li, Yi Xue, John D. Tanner, Jocelyn Sietsma Penington, Yi Tong Vincent Aw, Jessica Yi Han Aw, Guoyue Xu, Abhai K. Tripathi, Nina F. Gnadig, Tomas Yeo, Kate J. Fairhurst, Barbara H. Stokes, James M. Murithi, Krittikorn Kümpornsin, Heath Hasemer, Adelaide S. M. Dennis, Melanie C. Ridgway, Esther K. Schmitt, Judith Straimer, Anthony T. Papenfuss, Marcus C. S. Lee, Ben Corry, Photini Sinnis, David A. Fidock, Giel G. van Dooren, Kiaran Kirk, and Adele M. Lehane

Subjects

Multidisciplinary, General Physics and Astronomy, General Chemistry, General Biochemistry, Genetics and Molecular Biology

Abstract

Diverse compounds target the Plasmodium falciparum Na+ pump PfATP4, with cipargamin and (+)-SJ733 the most clinically-advanced. In a recent clinical trial for cipargamin, recrudescent parasites emerged, with most having a G358S mutation in PfATP4. Here, we show that PfATP4G358S parasites can withstand micromolar concentrations of cipargamin and (+)-SJ733, while remaining susceptible to antimalarials that do not target PfATP4. The G358S mutation in PfATP4, and the equivalent mutation in Toxoplasma gondii ATP4, decrease the sensitivity of ATP4 to inhibition by cipargamin and (+)-SJ733, thereby protecting parasites from disruption of Na+ regulation. The G358S mutation reduces the affinity of PfATP4 for Na+ and is associated with an increase in the parasite’s resting cytosolic [Na+]. However, no defect in parasite growth or transmissibility is observed. Our findings suggest that PfATP4 inhibitors in clinical development should be tested against PfATP4G358S parasites, and that their combination with unrelated antimalarials may mitigate against resistance development.

Published

2022

46. Interfacing Seurat with the R tidy universe

Author

Maria A. Doyle, Stefano Mangiola, and Anthony T. Papenfuss

Subjects

Statistics and Probability, Adapter (computing), business.industry, Computer science, Interface (computing), Data manipulation language, Object (computer science), Biochemistry, Computer Science Applications, Visualization, Computational Mathematics, Software, Computational Theory and Mathematics, Human–computer interaction, Interfacing, business, Molecular Biology, Abstraction (linguistics)

Abstract

Motivation Seurat is one of the most popular software suites for the analysis of single-cell RNA sequencing data. Considering the popularity of the tidyverse ecosystem, which offers a large set of data display, query, manipulation, integration and visualization utilities, a great opportunity exists to interface the Seurat object with the tidyverse. This interface gives the large data science community of tidyverse users the possibility to operate with familiar grammar. Results To provide Seurat with a tidyverse-oriented interface without compromising efficiency, we developed tidyseurat, a lightweight adapter to the tidyverse. Tidyseurat displays cell information as a tibble abstraction, allowing intuitively interfacing Seurat with dplyr, tidyr, ggplot2 and plotly packages powering efficient data manipulation, integration and visualization. Iterative analyses on data subsets are enabled by interfacing with the popular nest-map framework. Availability and implementation The software is freely available at cran.r-project.org/web/packages/tidyseurat and github.com/stemangiola/tidyseurat. Supplementary information Supplementary data are available at Bioinformatics online.

Published

2021

47. Ductal variant prostate carcinoma is associated with a significantly shorter metastasis-free survival

Author

Daniel Moon, Damien M Bolton, Declan G. Murphy, Laurence Harewood, Homayoun Zargar, Justin S. Peters, Uri Hanegbi, Alastair D. Lamb, Dennis King, Paul Ruljancich, Niall M. Corcoran, Dennis Gyomber, Philip Dundee, Mark Frydenberg, Ken Chow, Yee Chan, Anthony J. Costello, David R Webb, Clare Verrill, Lih-Ming Wong, Jeremy Goad, Anthony T. Papenfuss, Andrew Ryan, Marc A. Furrer, Peter Liodakis, Dinesh Agarwal, Nathan Lawrentschuk, Christopher M. Hovens, and Justin Bedő

Subjects

0301 basic medicine, Oncology, Biochemical recurrence, Cancer Research, medicine.medical_specialty, Prostatectomy, business.industry, medicine.medical_treatment, Cancer, Salvage therapy, Acinar adenocarcinoma, medicine.disease, 03 medical and health sciences, Prostate cancer, 030104 developmental biology, 0302 clinical medicine, 030220 oncology & carcinogenesis, Internal medicine, medicine, Adenocarcinoma, business, Survival analysis

Abstract

Background Ductal adenocarcinoma is an uncommon prostate cancer variant. Previous studies suggest that ductal variant histology may be associated with worse clinical outcomes, but these are difficult to interpret. To address this, we performed an international, multi-institutional study to describe the characteristics of ductal adenocarcinoma, particularly focussing on the effect of presence of ductal variant cancer on metastasis-free survival. Methods Patients with ductal variant histology from two institutional databases who underwent radical prostatectomies were identified and compared with an independent acinar adenocarcinoma cohort. After propensity score matching, the effect of the presence of ductal adenocarcinoma on time to biochemical recurrence, initiation of salvage therapy and the development of metastatic disease was determined. Deep whole-exome sequencing was performed for selected cases (n = 8). Results A total of 202 ductal adenocarcinoma and 2037 acinar adenocarcinoma cases were analysed. Survival analysis after matching demonstrated that patients with ductal variant histology had shorter salvage-free survival (8.1 versus 22.0 months, p = 0.03) and metastasis-free survival (6.7 versus 78.6 months, p Conclusions The presence of any ductal variant adenocarcinoma at the time of prostatectomy portends a worse clinical outcome than pure acinar cancers, with significantly shorter times to initiation of salvage therapies and the onset of metastatic disease. These features appear to be driven by uncoupling of chromosomal duplication from cell division, resulting in widespread copy number aberration with specific gain of genes implicated in treatment resistance.

Published

2021

48. tidybulk: an R tidy framework for modular transcriptomic data analysis

Author

Ruining Dong, Ramyar Molania, Maria A. Doyle, Anthony T. Papenfuss, and Stefano Mangiola

Subjects

Data Analysis, lcsh:QH426-470, media_common.quotation_subject, Biology, Bioconductor, lcsh:QH301-705.5, Ecosystem, media_common, Grammar, business.industry, Gene Expression Profiling, Computational Biology, Reproducibility of Results, Genomics, Modular design, Data structure, Variety (cybernetics), lcsh:Genetics, Workflow, lcsh:Biology (General), Learning curve, Transcriptome, business, Software engineering, Software, Algorithms, Coding (social sciences)

Abstract

Recently, efforts have been made toward the harmonization of transcriptomic data structures and workflows using the concept of data tidiness, to facilitate modularisation. We present tidybulk, a modular framework for bulk transcriptional analyses that introduces a tidy transcriptomic data structure paradigm and analysis grammar. Tidybulk covers a wide variety of analysis procedures and integrates a large ecosystem of publicly available analysis algorithms under a common framework. Tidybulk decreases coding burden, facilitates reproducibility, increases efficiency for expert users, lowers the learning curve for inexperienced users, and bridges transcriptional data analysis with the tidyverse. Tidybulk is available at R/Bioconductor bioconductor.org/packages/tidybulk.

Published

2021

49. Genome-wide interrogation of structural variation reveals novel African-specific prostate cancer oncogenic drivers

Author

Tingting Gong, Weerachai Jaratlerdsiri, Jue Jiang, Cali Willet, Tracy Chew, Sean M. Patrick, Ruth J. Lyons, Anne-Maree Haynes, Gabriela Pasqualim, Ilma Simoni Brum, Phillip D. Stricker, Shingai B. A. Mutambirwa, Rosemarie Sadsad, Anthony T. Papenfuss, Riana M. S. Bornman, Eva K. F. Chan, and Vanessa M. Hayes

Subjects

Male, Repressor Proteins, Carcinogenesis, Mutation, Genetics, Molecular Medicine, Black People, Humans, Nuclear Proteins, Prostatic Neoplasms, Neoplasm Grading, Molecular Biology, Genetics (clinical)

Abstract

Background African ancestry is a significant risk factor for advanced prostate cancer (PCa). Mortality rates in sub-Saharan Africa are 2.5-fold greater than global averages. However, the region has largely been excluded from the benefits of whole genome interrogation studies. Additionally, while structural variation (SV) is highly prevalent, PCa genomic studies are still biased towards small variant interrogation. Methods Using whole genome sequencing and best practice workflows, we performed a comprehensive analysis of SVs for 180 (predominantly Gleason score ≥ 8) prostate tumours derived from 115 African, 61 European and four ancestrally admixed patients. We investigated the landscape and relationship of somatic SVs in driving ethnic disparity (African versus European), with a focus on African men from southern Africa. Results Duplication events showed the greatest ethnic disparity, with a 1.6- (relative frequency) to 2.5-fold (count) increase in African-derived tumours. Furthermore, we found duplication events to be associated with CDK12 inactivation and MYC copy number gain, and deletion events associated with SPOP mutation. Overall, African-derived tumours were 2-fold more likely to present with a hyper-SV subtype. In addition to hyper-duplication and deletion subtypes, we describe a new hyper-translocation subtype. While we confirm a lower TMPRSS2-ERG fusion-positive rate in tumours from African cases (10% versus 33%), novel African-specific PCa ETS family member and TMPRSS2 fusion partners were identified, including LINC01525, FBXO7, GTF3C2, NTNG1 and YPEL5. Notably, we found 74 somatic SV hotspots impacting 18 new candidate driver genes, with CADM2, LSAMP, PTPRD, PDE4D and PACRG having therapeutic implications for African patients. Conclusions In this first African-inclusive SV study for high-risk PCa, we demonstrate the power of SV interrogation for the identification of novel subtypes, oncogenic drivers and therapeutic targets. Identifying a novel spectrum of SVs in tumours derived from African patients provides a mechanism that may contribute, at least in part, to the observed ethnic disparity in advanced PCa presentation in men of African ancestry.

Published

2022

50. RNA decay defines the response to transcriptional perturbation in leukaemia

Author

Izabela Todorovski, Breon Feran, Zheng Fan, Sreeja Gadipally, David Yoannidis, Isabella Y Kong, Stefan Bjelosevic, Magnus Zethoven, Edwin D Hawkins, Kaylene J Simpson, Gisela Mir Arnau, Anthony T Papenfuss, Ricky W Johnstone, and Stephin J Vervoort

Abstract

Therapeutic targeting of dysregulated transcriptional programs has arisen as a promising strategy for the treatment of leukaemias. The therapeutic response to small molecule inhibitors of Bromodomain-Containing Proteins (BRD), such as BRD2 and BRD4, P300/cAMP-response element binding protein (CBP) and Cyclin Dependent Kinases (CDKs), is generally attributed to the selective disruption of oncogenic gene expression networks driven by enhancers, super-enhancers (SEs) and lineage-specific transcription factors (TFs), including thec-MYConcogene. Using technologies such as thiol (SH)-linked alkylation for the metabolic sequencing of RNA sequencing (SLAM-seq) to profile messenger RNA (mRNA) decay and production rates, we demonstrate that gene intrinsic properties largely govern the selectivity associated with transcriptional inhibition, where total mRNA response signatures are dominated with genes that have short transcript half-lives, including those regulated by SEs and oncogenic TFs. Further highlighting that gene sensitivities only occur in the context of short transcript half-lives, stabilisation of thec-MYCtranscript through changes in the 3’ UTR rendered it insensitive to transcriptional targeting. However, this was not sufficient to rescuec-MYCtarget gene transcription and anti-leukaemia effects following transcriptional inhibition. Importantly, long-lived mRNAs encoding essential genes that evade transcriptional targeting can be rendered sensitive via modulation of mRNA decay kinetics through inhibition of the RNA Binding Protein (RBP), ELAV Like RNA binding protein 1 (ELAVL1)/ Human Antigen R (HuR). Taken together, these data demonstrate that mRNA decay shapes the therapeutic response to transcriptional perturbation and can be modulated for novel therapeutic outcomes using transcriptional agents in leukaemia.

Published

2022