Multiomics in primary and metastatic breast tumors from the AURORA US network finds microenvironment and epigenetic drivers of metastasis

García-Recio, Susana; Hinoue, Toshinori; Wheeler, Gregory L.; Kelly, Benjamin J.; Garrido-Castro, Ana C.; Pascual, Tomás; Xia, Youli; Felsheim, Brooke; McClure, Marni B.; Rajkovic, Andrei; Karaesmen, Ezgi; Smith, Markia A.; Fan, Cheng; Gonzalez-Ericsson, Paula I.; Sanders, Melinda E.; Creighton, Chad J.; Leraas, Kristen; Burns, Robyn; Coppens, Sara; Wheless, Amy; Rezk, Salma; Garrett, Amy; Parker, Joel S.; Foy, Kelly K.; Shen, Hui; Park, Ben Ho; Krop, Ian E.; Anders, Carey K.; Gastier‐Foster, Julie M.; Rimawi, Mothaffar F.; Nanda, Rita; Lin, Nancy U.; Isaacs, Claudine; Marcom, P. Kelly; Storniolo, Anna Maria; Couch, Fergus J.; Chandran, Uma; Davis, Michael A.; Silverstein, Jonathan C.; Ropelewski, Alexander J.; Liu, Minetta C.; Hilsenbeck, Susan G.; Norton, Larry; Richardson, Andrea L.; Symmans, W. Fraser; Wolff, Antonio C.; Davidson, Nancy E.; Carey, Lisa A.; Lee, Adrian V.; Balko, Justin M.; Hoadley, Katherine A.; Laird, Peter W.; Mardis, Elaine R.; King, Tari A.; Cubas, Aguirre A. de; Perou, Charles M.

doi:10.1038/s43018-022-00491-x

Cited by 38 publications

(49 citation statements)

References 73 publications

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“…To determine whether NAT10 contributes to breast cancer metastasis, publicly available human breast cancer patient expression datasets were analyzed. Expression analysis of the primary tumor and metastases from the AURORA US Metastasis Project 39 revealed that NAT10 expression was significantly higher in breast cancer metastases compared to the primary tumor (Fig. 1a, b).…”

Section: Resultsmentioning

confidence: 99%

Loss of NAT10 disrupts enhancer organization via p300 mislocalization and suppresses transcription of genes necessary for metastasis progression

Amin,

Ha,

Qiu

et al. 2024

Preprint

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Acetylation of protein and RNA represent a critical event for development and cancer progression. NAT10 is the only known RNA acetylase that catalyzes the N4-actylcytidine (ac4C) modification of RNAs. Here, we show that the loss of NAT10 significantly decreases lung metastasis in allograft and genetically engineered mouse models of breast cancer. NAT10 interacts with a mechanosensitive, metastasis susceptibility protein complex at the nuclear pore. In addition to its canonical role in RNA acetylation, we find that NAT10 interacts with p300 at gene enhancers. NAT10 loss is associated with p300 mislocalization into heterochromatin regions. NAT10 depletion disrupts enhancer organization, leading to alteration of gene transcription necessary for metastatic progression, including reduced myeloid cell-recruiting chemokines that results in a less metastasis-prone tumor microenvironment. Our study uncovers a distinct role of NAT10 in enhancer organization of metastatic tumor cells and suggests its involvement in the tumor-immune crosstalk dictating metastatic outcomes.

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Section: Resultsmentioning

confidence: 99%

Loss of NAT10 disrupts enhancer organization via p300 mislocalization and suppresses transcription of genes necessary for metastasis progression

Amin,

Ha,

Qiu

et al. 2024

Preprint

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“…10 Comparison of primary tumors and metastatic lesions also revealed that synchronous metastases have a more similar genomic architecture to the primary tumors, presumably due to shorter divergence time and lack of therapeutic selective pressure, whereas asynchronous metastases show a larger number of genomic differences compared with the primary tumor. [7][8][9][10][11] This observation raises the possibility that synchronous metastases have similar treatment sensitivities to the primary tumor. This hypothesis is supported by clinical observations including high rates of pathologic complete response (pCR) in biopsy-proven synchronous lymph node metastases in patients who achieve pCR in the breast with neoadjuvant chemotherapy 12,13 and longer progression-free survival (PFS) with initial therapy in patients with de novo compared with recurrent metastatic disease.…”

Section: Molecular Evolution Of Metastatic Breast Cancermentioning

confidence: 97%

“…Phylogenetic analysis of primary tumors and metastatic lesions from the same individual revealed three distinct paths to metastatic dissemination with clinical implications. [7][8][9] First, metastatic spread can occur early from a common ancestor of both the primary tumor and distant metastases, resulting in lesions evolving simultaneously. This phenomenon may explain why small primary tumors could present as micrometastatic disease.…”

Section: Molecular Evolution Of Metastatic Breast Cancermentioning

confidence: 99%

De Novo Oligometastatic Breast Cancer

Pusztai,

Rozenblit,

Dubsky

et al. 2023

JCO

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“…Regions with consistent methylation show enrichment for cancer-related genes [47] Metastatic lesions within patients and between patients with urothelial carcinoma shared actionable mutations [48] Many of the genetic changes conferring treatment resistance were shared between metastases in the same patient with melanoma [49] No correlation between ERG and expression of PSA or androgen receptor in individual metastases in prostate cancer [71] Prognostic and predictive biomarker expression differs between primary breast cancer and matched metastases and might depend on the organ of metastasis. Immune profiles were heterogeneous too [77] Characterisation and comparison of non-ossified bone metastases to non-osseous metastases from the same prostate cancer patients [78] Immune activation varies by organ site of involvement in metastatic breast cancer [79] Multi-omic analyses on primary breast tumours versus during-life (mostly liver) and after-death (many other soft tissues) metastases reveal events that may explain metastatic tumour behaviours [79] Mechanisms of metastatic evolution and spread, including phylogenetic reconstruction Almost all targetable drivers in metastases in patients with breast cancer are already present in the primary tumour. Multiclonal seeding is often seen [50] Two possible scenarios of dissemination patterns of breast cancer (monoclonal and multiclonal) are observed, as well as cross-seeding between metastases [51] While some patients with metastatic breast cancer presented with predominantly monoclonal seeding patterns, others showed predominantly multiclonal seeding [52] Clonal dynamics as assessed on multiple metastases at autopsy confirms different modes of metastatic dissemination in clear-cell renal cell carcinoma [53] Phylogenetic trees in metastatic pancreatic cancer show organ-specific branches [54] Copy number and cell ploidy changes drive evolution to end-stage disease in melanoma (compared with SNVs driving transformation in early disease) [55] Most genetic drivers in metastases in breast cancer were already established in the primary tumour.…”

Section: Intra-patient Inter-lesion Heterogeneity In Genomic and Phen...mentioning

confidence: 99%

Research autopsy programmes in oncology: shared experience from 14 centres across the world

Geukens,

Maetens,

Hooper

et al. 2024

The Journal of Pathology

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While there is a great clinical need to understand the biology of metastatic cancer in order to treat it more effectively, research is hampered by limited sample availability. Research autopsy programmes can crucially advance the field through synchronous, extensive, and high‐volume sample collection. However, it remains an underused strategy in translational research. Via an extensive questionnaire, we collected information on the study design, enrolment strategy, study conduct, sample and data management, and challenges and opportunities of research autopsy programmes in oncology worldwide. Fourteen programmes participated in this study. Eight programmes operated 24 h/7 days, resulting in a lower median postmortem interval (time between death and start of the autopsy, 4 h) compared with those operating during working hours (9 h). Most programmes (n = 10) succeeded in collecting all samples within a median of 12 h after death. A large number of tumour sites were sampled during each autopsy (median 15.5 per patient). The median number of samples collected per patient was 58, including different processing methods for tumour samples but also non‐tumour tissues and liquid biopsies. Unique biological insights derived from these samples included metastatic progression, treatment resistance, disease heterogeneity, tumour dormancy, interactions with the tumour micro‐environment, and tumour representation in liquid biopsies. Tumour patient‐derived xenograft (PDX) or organoid (PDO) models were additionally established, allowing for drug discovery and treatment sensitivity assays. Apart from the opportunities and achievements, we also present the challenges related with postmortem sample collections and strategies to overcome them, based on the shared experience of these 14 programmes. Through this work, we hope to increase the transparency of postmortem tissue donation, to encourage and aid the creation of new programmes, and to foster collaborations on these unique sample collections. © 2024 The Authors. The Journal of Pathology published by John Wiley & Sons Ltd on behalf of The Pathological Society of Great Britain and Ireland.

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Multiomics in primary and metastatic breast tumors from the AURORA US network finds microenvironment and epigenetic drivers of metastasis

Cited by 38 publications

References 73 publications

Loss of NAT10 disrupts enhancer organization via p300 mislocalization and suppresses transcription of genes necessary for metastasis progression

Loss of NAT10 disrupts enhancer organization via p300 mislocalization and suppresses transcription of genes necessary for metastasis progression

De Novo Oligometastatic Breast Cancer

Research autopsy programmes in oncology: shared experience from 14 centres across the world

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