Viola Heinzelmann‐Schwarz scite author profile

A better understanding of the features that define the interplay between cancer cells and immune cells is key to identify new cancer therapies 1 . Yet, focus is often given to those interactions that occur within the primary tumor and its microenvironment, while the role of immune cells during cancer dissemination in patients remains largely uncharacterized 2,3 . Circulating tumor cells (CTCs) are precursors of metastasis in several cancer types [4][5][6] , and are occasionally found within the bloodstream in association with non-malignant cells such as white blood cells (WBCs) 7,8 . The identity and function of these CTC-associated WBCs, as well as the molecular features that define the interaction between WBCs and CTCs are unknown. Here, we achieve the isolation and interrogation of individual CTC-associated WBCs, alongside with corresponding cancer cells within each CTC-WBC cluster, from multiple breast cancer patients and mouse models. Single-cell RNA sequencing reveals a specific pattern of WBCs attached to CTCs, with neutrophils representing the majority of the cases. When comparing the transcriptome profiles of CTCs that were associated to neutrophils with that of CTCs alone, we detect a number of differentially expressed genes that outline cell cycle progression, leading to a higher ability to efficiently seed metastasis. Additionally, we identify cell-cell junction and cytokine-receptor pairs that define CTC-neutrophil clusters, representing key vulnerabilities of the metastatic process. Thus, the association between neutrophils and CTCs fuels cell cycle progression within the bloodstream and expands the metastatic potential of CTCs, providing a rationale for targeting this interaction in breast cancer. 3/28 Main TextCirculating tumor cells (CTCs) are precursors of metastasis in various solid cancers including breast cancer 6 , and are occasionally found in association to white blood cells (WBCs) 7 . The role of CTC-WBC clusters in metastasis development as well as the principles that govern the interplay between CTCs and WBCs during blood-borne metastasis are largely uncharacterized.We first sought to determine the number and composition of CTC-WBC clusters in breast cancer patients and mouse models. We obtained blood samples from 70 patients with invasive breast cancer that discontinued their treatment due to progressive disease, as well as from five different breast cancer mouse models, and we enriched for CTCs using the Parsortix microfluidic device 9 (Extended Data Fig. 1a-e). Live CTCs were stained for cancer-associated cell surface markers EpCAM, HER2, and EGFR or imaged directly for the expression of GFP, as well as labeled for CD45 to identify WBCs (Fig. 1a and Extended Data Fig. 1f). Among 70 patients, 34 (48.6%) had detectable CTCs, with a mean number of 22 CTCs per 7.5ml of blood (Supplementary Tables 1 and 2). While the majority of CTCs were single (88.0%), we also detected CTC clusters (8.6%) and CTC-WBC clusters (3.4%) (Fig. 1b and Extended Data Fig. 1g,h). Similarly, we observed that CTC-...

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Circulating Tumor Cell Clustering Shapes DNA Methylation to Enable Metastasis Seeding

Gkountela

Castro-Giner

Szczerba

et al. 2019

Cell

663

606

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SummaryThe ability of circulating tumor cells (CTCs) to form clusters has been linked to increased metastatic potential. Yet biological features and vulnerabilities of CTC clusters remain largely unknown. Here, we profile the DNA methylation landscape of single CTCs and CTC clusters from breast cancer patients and mouse models on a genome-wide scale. We find that binding sites for stemness- and proliferation-associated transcription factors are specifically hypomethylated in CTC clusters, including binding sites for OCT4, NANOG, SOX2, and SIN3A, paralleling embryonic stem cell biology. Among 2,486 FDA-approved compounds, we identify Na+/K+ ATPase inhibitors that enable the dissociation of CTC clusters into single cells, leading to DNA methylation remodeling at critical sites and metastasis suppression. Thus, our results link CTC clustering to specific changes in DNA methylation that promote stemness and metastasis and point to cluster-targeting compounds to suppress the spread of cancer.

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ESMO–ESGO consensus conference recommendations on ovarian cancer: pathology and molecular biology, early and advanced stages, borderline tumours and recurrent disease

Banerjee²,

et al. 2019

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These consensus statements were developed by the European Society for Medical Oncology (ESMO) and the European Society of Gynaecological Oncology (ESGO) and are published jointly in the Annals of Oncology and the International Journal of Gynecological Cancer. The two societies nominated participants who attended the consensus conference and co-authored the final manuscript. ‡ See Appendix for members of the ESMO-ESGO Ovarian Cancer Consensus Conference Working Group. The development of guidelines recommendations is one of the core activities of the European Society for Medical Oncology (ESMO) and European Society of Gynaecologial Oncology (ESGO), as part of the mission of both societies to improve the quality of care for patients with cancer across Europe. ESMO and ESGO jointly developed clinically relevant and evidence-based recommendations in several selected areas in order to improve the quality of care for women with ovarian cancer. The ESMO-ESGO consensus conference on ovarian cancer was held on 12-14 April 2018 in Milan, Italy, and comprised a multidisciplinary panel of 40 leading experts in the management of ovarian cancer. Before the conference, the expert panel worked on five clinically relevant questions regarding ovarian cancer relating to each of the following four areas: pathology and molecular biology, early-stage and borderline tumours, advanced stage disease and recurrent disease. Relevant scientific literature, as identified using a systematic search, was reviewed in advance. During the consensus conference, the panel developed recommendations for each specific question and a consensus was reached. The recommendations presented here are thus based on the best available evidence and expert agreement. This article presents the recommendations of this ESMO-ESGO consensus conference, together with a summary of evidence supporting each recommendation.

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Self-associated molecular patterns mediate cancer immune evasion by engaging Siglecs on T cells

Stanczak¹,

Siddiqui²,

Trefny³

et al. 2018

238

264

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Tumor-targeted 4-1BB agonists for combination with T cell bispecific antibodies as off-the-shelf therapy

et al. 2019

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Endogenous costimulatory molecules on T cells such as 4-1BB (CD137) can be leveraged for cancer immunotherapy. Systemic administration of agonistic anti–4-1BB antibodies, although effective preclinically, has not advanced to phase 3 trials because they have been hampered by both dependency on Fcγ receptor–mediated hyperclustering and hepatotoxicity. To overcome these issues, we engineered proteins simultaneously targeting 4-1BB and a tumor stroma or tumor antigen: FAP–4-1BBL (RG7826) and CD19–4-1BBL. In the presence of a T cell receptor signal, they provide potent T cell costimulation strictly dependent on tumor antigen–mediated hyperclustering without systemic activation by FcγR binding. We could show targeting of FAP–4-1BBL to FAP-expressing tumor stroma and lymph nodes in a colorectal cancer–bearing rhesus monkey. Combination of FAP–4-1BBL with tumor antigen–targeted T cell bispecific (TCB) molecules in human tumor samples led to increased IFN-γ and granzyme B secretion. Further, combination of FAP– or CD19–4-1BBL with CEA-TCB (RG7802) or CD20-TCB (RG6026), respectively, resulted in tumor remission in mouse models, accompanied by intratumoral accumulation of activated effector CD8+T cells. FAP– and CD19–4-1BBL thus represent an off-the-shelf combination immunotherapy without requiring genetic modification of effector cells for the treatment of solid and hematological malignancies.

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