Your search keyword '"Ahmad Miremad"' showing total 8 results

1. Low-cost and clinically applicable copy number profiling using repeat DNA

Author

Sam Abujudeh, Sebastian S. Zeki, Meta C.J. van Lanschot, Mark Pusung, Jamie M.J. Weaver, Xiaodun Li, Ayesha Noorani, Andrew J. Metz, Jan Bornschein, Lawrence Bower, Ahmad Miremadi, Rebecca C. Fitzgerald, Edward R. Morrissey, and Andy G. Lynch

Subjects

Somatic copy number alterations, Copy number profiling, Cancer, Oesophageal adenocarcinoma, Barrett’s oesophagus, Tumour purity, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Somatic copy number alterations (SCNAs) are an important class of genomic alteration in cancer. They are frequently observed in cancer samples, with studies showing that, on average, SCNAs affect 34% of a cancer cell’s genome. Furthermore, SCNAs have been shown to be major drivers of tumour development and have been associated with response to therapy and prognosis. Large-scale cancer genome studies suggest that tumours are driven by somatic copy number alterations (SCNAs) or single-nucleotide variants (SNVs). Despite the frequency of SCNAs and their clinical relevance, the use of genomics assays in the clinic is biased towards targeted gene panels, which identify SNVs but provide limited scope to detect SCNAs throughout the genome. There is a need for a comparably low-cost and simple method for high-resolution SCNA profiling. Results We present conliga, a fully probabilistic method that infers SCNA profiles from a low-cost, simple, and clinically-relevant assay (FAST-SeqS). When applied to 11 high-purity oesophageal adenocarcinoma samples, we obtain good agreement (Spearman’s rank correlation coefficient, r s =0.94) between conliga’s inferred SCNA profiles using FAST-SeqS data (approximately £14 per sample) and those inferred by ASCAT using high-coverage WGS (gold-standard). We find that conliga outperforms CNVkit (r s =0.89), also applied to FAST-SeqS data, and is comparable to QDNAseq (r s =0.96) applied to low-coverage WGS, which is approximately four-fold more expensive, more laborious and less clinically-relevant. By performing an in silico dilution series experiment, we find that conliga is particularly suited to detecting SCNAs in low tumour purity samples. At two million reads per sample, conliga is able to detect SCNAs in all nine samples at 3% tumour purity and as low as 0.5% purity in one sample. Crucially, we show that conliga’s hidden state information can be used to decide when a sample is abnormal or normal, whereas CNVkit and QDNAseq cannot provide this critical information. Conclusions We show that conliga provides high-resolution SCNA profiles using a convenient, low-cost assay. We believe conliga makes FAST-SeqS a more clinically valuable assay as well as a useful research tool, enabling inexpensive and fast copy number profiling of pre-malignant and cancer samples.

Published

2022

2. Organoid cultures recapitulate esophageal adenocarcinoma heterogeneity providing a model for clonality studies and precision therapeutics

Author

Xiaodun Li, Hayley E. Francies, Maria Secrier, Juliane Perner, Ahmad Miremadi, Núria Galeano-Dalmau, William J. Barendt, Laura Letchford, Genevieve M. Leyden, Emma K. Goffin, Andrew Barthorpe, Howard Lightfoot, Elisabeth Chen, James Gilbert, Ayesha Noorani, Ginny Devonshire, Lawrence Bower, Amber Grantham, Shona MacRae, Nicola Grehan, David C. Wedge, Rebecca C. Fitzgerald, and Mathew J. Garnett

Subjects

Science

Abstract

Esophageal adenocarcinoma (EAC) has a poor 5-year survival rate and lacks robust preclinical models for use in research. Here, the authors show that newly derived organoids recapitulate the transcriptomic, genetic, and morphological landscape of the primary EAC tumors and provide a platform to test drug sensitivity and study tumor clonality.

Published

2018

3. Disentangling oncogenic amplicons in esophageal adenocarcinoma

Author

Alvin Wei Tian Ng, Dylan Peter McClurg, Ben Wesley, Shahriar A. Zamani, Emily Black, Ahmad Miremadi, Olivier Giger, Rogier ten Hoopen, Ginny Devonshire, Aisling M. Redmond, Nicola Grehan, Sriganesh Jammula, Adrienn Blasko, Xiaodun Li, Samuel Aparicio, Simon Tavaré, Oesophageal Cancer Clinical and Molecular Stratification (OCCAMS) Consortium, Karol Nowicki-Osuch, and Rebecca C. Fitzgerald

Subjects

Science

Abstract

Abstract Esophageal adenocarcinoma is a prominent example of cancer characterized by frequent amplifications in oncogenes. However, the mechanisms leading to amplicons that involve breakage-fusion-bridge cycles and extrachromosomal DNA are poorly understood. Here, we use 710 esophageal adenocarcinoma cases with matched samples and patient-derived organoids to disentangle complex amplicons and their associated mechanisms. Short-read sequencing identifies ERBB2, MYC, MDM2, and HMGA2 as the most frequent oncogenes amplified in extrachromosomal DNAs. We resolve complex extrachromosomal DNA and breakage-fusion-bridge cycles amplicons by integrating of de-novo assemblies and DNA methylation in nine long-read sequenced cases. Complex amplicons shared between precancerous biopsy and late-stage tumor, an enrichment of putative enhancer elements and mobile element insertions are potential drivers of complex amplicons’ origin. We find that patient-derived organoids recapitulate extrachromosomal DNA observed in the primary tumors and single-cell DNA sequencing capture extrachromosomal DNA-driven clonal dynamics across passages. Prospectively, long-read and single-cell DNA sequencing technologies can lead to better prediction of clonal evolution in esophageal adenocarcinoma.

Published

2024

4. Identification of Prognostic Phenotypes of Esophageal Adenocarcinoma in 2 Independent Cohorts

Author

Tarek Sawas, Sarah Killcoyne, Prasad G. Iyer, Kenneth K. Wang, Thomas C. Smyrk, John B. Kisiel, Yi Qin, David A. Ahlquist, Anil K. Rustgi, Rui J. Costa, Moritz Gerstung, Rebecca C. Fitzgerald, David A. Katzka, Ayesha Noorani, Paul A.W. Edwards, Nicola Grehan, Barbara Nutzinger, Caitriona Hughes, Elwira Fidziukiewicz, Jan Bornschein, Shona MacRae, Jason Crawte, Gianmarco Contino, Xiaodun Li, Rachel de la Rue, Maria O’Donovan, Ahmad Miremad, Shalini Malhotra, Monika Tripathi, Simon Tavaré, Andy G. Lynch, Matthew Eldridge, Maria Secrier, Lawrence Bower, Ginny Devonshire, Juliane Perner, Sriganesh Jammula, Jim Davies, Charles Crichton, Nick Carroll, Peter Safranek, Andrew Hindmarsh, Vijayendran Sujendran, Stephen J. Hayes, Yeng Ang, Shaun R. Preston, Sarah Oakes, Izhar Bagwan, Vicki Save, Richard J.E. Skipworth, Ted R. Hupp, J. Robert O’Neill, Olga Tucker, Andrew Beggs, Philippe Taniere, Sonia Puig, Timothy J. Underwood, Fergus Noble, Jack Owsley, Hugh Barr, Neil Shepherd, Oliver Old, Jesper Lagergren, James Gossage, Andrew Davies, Fuju Chang, Janine Zylstra, Ula Mahadeva, Vicky Goh, Francesca D. Ciccarelli, Grant Sanders, Richard Berrisford, Catherine Harden, David Bunting, Mike Lewis, Ed Cheong, Bhaskar Kumar, Simon L. Parsons, Irshad Soomro, Philip Kaye, John Saunders, Laurence Lovat, Rehan Haidry, Victor Eneh, Laszlo Igali, Michael Scott, Sharmila Sothi, Sari Suortamo, Suzy Lishman, George B. Hanna, Christopher J. Peters, Anna Grabowska, and Richard Turkington

Subjects

Oncology, Male, medicine.medical_specialty, Esophageal Neoplasms, Survival, Adenocarcinoma, Article, 03 medical and health sciences, Barrett Esophagus, 0302 clinical medicine, Esophagus, Interquartile range, Internal medicine, medicine, Humans, Stage (cooking), Esophageal Adenocarcinoma, Aged, Neoplasm Staging, Proportional Hazards Models, Metaplasia, Hepatology, business.industry, Hazard ratio, Gastroenterology, Intestinal metaplasia, Middle Aged, medicine.disease, Prognosis, United Kingdom, United States, Intestines, medicine.anatomical_structure, Phenotype, 030220 oncology & carcinogenesis, Barrett's esophagus, Cohort, Etiology, Regression Analysis, 030211 gastroenterology & hepatology, business

Abstract

Background & Aims: Most patients with esophageal adenocarcinoma (EAC) present with de novo tumors. Although this could be due to inadequate screening strategies, the precise reason for this observation is not clear. We compared survival of patients with prevalent EAC with and without synchronous Barrett esophagus (BE) with intestinal metaplasia (IM) at the time of EAC diagnosis. Methods: Clinical data were studied using Cox proportional hazards regression to evaluate the effect of synchronous BE-IM on EAC survival independent of age, sex, TNM stage, and tumor location. We analyzed data from a cohort of patients with EAC from the Mayo Clinic (n=411; 203 with BE and IM) and a multicenter cohort from the United Kingdom (n=1417; 638 with BE and IM). Results: In the Mayo cohort, BE with IM had a reduced risk of death compared to patients without BE and IM (hazard ratio [HR] 0.44; 95% CI, 0.34–0.57; PConclusion: Two types of EAC can be characterized based on the presence or absence of BE. These findings could increase our understanding the etiology of EAC, and be used in management and prognosis of patients.

Published

2018

5. Author Correction: Disentangling oncogenic amplicons in esophageal adenocarcinoma

Author

Alvin Wei Tian Ng, Dylan Peter McClurg, Ben Wesley, Shahriar A. Zamani, Emily Black, Ahmad Miremadi, Olivier Giger, Rogier ten Hoopen, Ginny Devonshire, Aisling M. Redmond, Nicola Grehan, Sriganesh Jammula, Adrienn Blasko, Xiaodun Li, Samuel Aparicio, Simon Tavaré, Oesophageal Cancer Clinical and Molecular Stratification (OCCAMS) Consortium, Karol Nowicki-Osuch, and Rebecca C. Fitzgerald

Subjects

Science

Published

2024

6. Dual-modality imaging of immunofluorescence and imaging mass cytometry for whole-slide imaging and accurate segmentation

Author

Eun Na Kim, Phyllis Zixuan Chen, Dario Bressan, Monika Tripathi, Ahmad Miremadi, Massimiliano di Pietro, Lisa M. Coussens, Gregory J. Hannon, Rebecca C. Fitzgerald, Lizhe Zhuang, and Young Hwan Chang

Subjects

CP: Imaging, Biotechnology, TP248.13-248.65, Biochemistry, QD415-436, Science

Abstract

Summary: Imaging mass cytometry (IMC) is a powerful technique capable of detecting over 30 markers on a single slide. It has been increasingly used for single-cell-based spatial phenotyping in a wide range of samples. However, it only acquires a rectangle field of view (FOV) with a relatively small size and low image resolution, which hinders downstream analysis. Here, we reported a highly practical dual-modality imaging method that combines high-resolution immunofluorescence (IF) and high-dimensional IMC on the same tissue slide. Our computational pipeline uses the whole-slide image (WSI) of IF as a spatial reference and integrates small-FOV IMC into a WSI of IMC. The high-resolution IF images enable accurate single-cell segmentation to extract robust high-dimensional IMC features for downstream analysis. We applied this method in esophageal adenocarcinoma of different stages, identified the single-cell pathology landscape via reconstruction of WSI IMC images, and demonstrated the advantage of the dual-modality imaging strategy. Motivation: Highly multiplexed tissue imaging allows visualization of the spatially resolved expression of multiple proteins at the single-cell level. Although imaging mass cytometry (IMC) using metal isotope-conjugated antibodies has a significant advantage of low background signal and little autofluorescence or batch effect, it has a low resolution that hampers accurate cell segmentation and results in inaccurate feature extraction. In addition, it is also challenging for the current IMC platform to acquire large cm2-sized regions, which limits its application and efficiency when studying larger clinical samples with non-rectangle shapes. To maximize the research output of IMC, we developed a dual-modality imaging method and proposed a comprehensive computational pipeline that combines IF and IMC. The proposed stitching algorithm in this study relies on the IF WSI as a reference for registering and stitching multiple IMC images obtained from different runs. Importantly, this algorithm is not reliant on the positional accuracy of the IMC imaging stage. Considering the possibility of slide removal and reinsertion during WSI IMC data acquisition, it becomes essential to align the IMC images with the comprehensive IF WSI that covers the entire tissue. This registration process plays a critical role in achieving precise spatial alignment, going beyond sole reliance on IMC coordinates.

Published

2023

7. Deciphering the Immune Complexity in Esophageal Adenocarcinoma and Pre-Cancerous Lesions With Sequential Multiplex Immunohistochemistry and Sparse Subspace Clustering Approach

Author

Srinand Sundaram, Eun Na Kim, Georgina M. Jones, Shamilene Sivagnanam, Monika Tripathi, Ahmad Miremadi, Massimiliano Di Pietro, Lisa M. Coussens, Rebecca C. Fitzgerald, Young Hwan Chang, and Lizhe Zhuang

Subjects

multiplex imaging, sparse subspace clustering, immune complexity, esophageal adenocarcinoma, Barrett’s esophagus, Immunologic diseases. Allergy, RC581-607

Abstract

Esophageal adenocarcinoma (EAC) develops from a chronic inflammatory environment across four stages: intestinal metaplasia, known as Barrett’s esophagus, low- and high-grade dysplasia, and adenocarcinoma. Although the genomic characteristics of this progression have been well defined via large-scale DNA sequencing, the dynamics of various immune cell subsets and their spatial interactions in their tumor microenvironment remain unclear. Here, we applied a sequential multiplex immunohistochemistry (mIHC) platform with computational image analysis pipelines that allow for the detection of 10 biomarkers in one formalin-fixed paraffin-embedded (FFPE) tissue section. Using this platform and quantitative image analytics, we studied changes in the immune landscape during disease progression based on 40 normal and diseased areas from endoscopic mucosal resection specimens of chemotherapy treatment- naïve patients, including normal esophagus, metaplasia, low- and high-grade dysplasia, and adenocarcinoma. The results revealed a steady increase of FOXP3+ T regulatory cells and a CD163+ myelomonocytic cell subset. In parallel to the manual gating strategy applied for cell phenotyping, we also adopted a sparse subspace clustering (SSC) algorithm allowing the automated cell phenotyping of mIHC-based single-cell data. The algorithm successfully identified comparable cell types, along with significantly enriched FOXP3 T regulatory cells and CD163+ myelomonocytic cells as found in manual gating. In addition, SCC identified a new CSF1R+CD1C+ myeloid lineage, which not only was previously unknown in this disease but also increases with advancing disease stages. This study revealed immune dynamics in EAC progression and highlighted the potential application of a new multiplex imaging platform, combined with computational image analysis on routine clinical FFPE sections, to investigate complex immune populations in tumor ecosystems.

Published

2022

8. The utility of a methylation panel in the assessment of clinical response to radiofrequency ablation for Barrett's esophagus

Author

Wladyslaw Januszewicz, Vinod V. Subhash, William Waldock, Daniel I. Fernando, Giorgio Bartalucci, Hamza Chettouh, Ahmad Miremadi, Maria O'Donovan, Rebecca C. Fitzgerald, and Massimiliano di Pietro

Subjects

Precancerous lesions, Biomarkers, Methylation, Endoscopic therapy, Intestinal metaplasia, Medicine, Medicine (General), R5-920

Abstract

Background: Radiofrequency ablation (RFA) is an effective treatment for dysplastic Barrett's esophagus (BE), but recurrence can occur after initial response. Currently there is uncertainty about how to best define histological remission. A DNA methylation panel on esophageal samples was previously shown to have high diagnostic accuracy for BE. We aimed to investigate this biomarker panel in the assessment of response to RFA treatment. Methods: We retrospectively analyzed esophageal and gastroesophageal junction (GEJ) biopsies from patients with BE before and after RFA treatment. We quantified the extent of intestinal metaplasia (IM) based on number of glands with goblet cells (IM-Score) and expression of the intestinal factor trefoil factor-3 (TFF3-Score). Promoter methylation of 3 genes (ZNF345, TFP12, ZNF569) was measured by methylight (Meth-Score) throughout the RFA treatment pathway. Findings: We included 45 patients (11 non-dysplastic BE, 14 low-grade dysplasia, 20 high-grade dysplasia/intramucosal cancer). Meth-Scores were significantly higher in BE with and without dysplasia and GEJ with IM compared to GEJ without IM (P

Published

2020