Emily R. Kansler scite author profile

Metastasis is the defining feature of advanced malignancy, yet remains challenging to study in laboratory environments. Here we describe a high-throughput zebrafish system for comprehensive, in vivo assessment of metastatic biology. First, we generated several stable cell lines from melanomas of transgenic mitfa-BRAFV600E;p53−/− fish. We then transplanted the melanoma cells into the transparent casper strain to enable highly quantitative measurement of the metastatic process at single cell resolution. Using computational image analysis of the resulting metastases, we generated a metastasis score, μ, that can be applied to quantitative comparison of metastatic capacity between experimental conditions. Furthermore, image analysis also provided estimates of the frequency of metastasis-initiating cells (~1/120,000 cells). Finally, we determined that the degree of pigmentation is a key feature defining cells with metastatic capability. The small size and rapid generation of progeny combined with superior imaging tools make zebrafish ideal for unbiased high-throughput investigations of cell-intrinsic or microenvironmental modifiers of metastasis. The approaches described here are readily applicable to other tumor types and thus serve to complement studies also employing murine and human cell culture systems.

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Microenvironment-derived factors driving metastatic plasticity in melanoma

Kim

et al. 2017

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Cellular plasticity is a state in which cancer cells exist along a reversible phenotypic spectrum, and underlies key traits such as drug resistance and metastasis. Melanoma plasticity is linked to phenotype switching, where the microenvironment induces switches between invasive/MITFLO versus proliferative/MITFHI states. Since MITF also induces pigmentation, we hypothesize that macrometastatic success should be favoured by microenvironments that induce a MITFHI/differentiated/proliferative state. Zebrafish imaging demonstrates that after extravasation, melanoma cells become pigmented and enact a gene expression program of melanocyte differentiation. We screened for microenvironmental factors leading to phenotype switching, and find that EDN3 induces a state that is both proliferative and differentiated. CRISPR-mediated inactivation of EDN3, or its synthetic enzyme ECE2, from the microenvironment abrogates phenotype switching and increases animal survival. These results demonstrate that after metastatic dissemination, the microenvironment provides signals to promote phenotype switching and provide proof that targeting tumour cell plasticity is a viable therapeutic opportunity.

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Cytotoxic granzyme C–expressing ILC1s contribute to antitumor immunity and neonatal autoimmunity

et al. 2022

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Innate lymphocytes are integral components of the cellular immune system that can coordinate host defense against a multitude of challenges and trigger immunopathology when dysregulated. Natural killer (NK) cells and innate lymphoid cells (ILCs) are innate immune effectors postulated to functionally mirror conventional cytotoxic T lymphocytes and helper T cells, respectively. Here, we showed that the cytolytic molecule granzyme C was expressed in cells with the phenotype of type 1 ILCs (ILC1s) in mouse liver and salivary gland. Cell fate-mapping and transfer studies revealed that granzyme C–expressing innate lymphocytes could be derived from ILC progenitors and did not interconvert with NK cells, ILC2s, or ILC3s. Granzyme C defined a maturation state of ILC1s. These granzyme C–expressing ILC1s required the transcription factors T-bet and, to a lesser extent, Eomes and support from transforming growth factor–β (TGF-β) signaling for their maintenance in the salivary gland. In a transgenic mouse breast cancer model, depleting ILC1s caused accelerated tumor growth. ILC1s gained granzyme C expression following interleukin-15 (IL-15) stimulation, which enabled perforin-mediated cytotoxicity. Constitutive activation of STAT5, a transcription factor regulated by IL-15, in granzyme C–expressing ILC1s triggered lethal perforin-dependent autoimmunity in neonatal mice. Thus, granzyme C marks a cytotoxic effector state of ILC1s, broadening their function beyond “helper-like” lymphocytes.

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Cytotoxic innate lymphoid cells sense cancer cell-expressed interleukin-15 to suppress human and murine malignancies

et al. 2022

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Programme of self-reactive innate-like T cell-mediated cancer immunity

Chou

Zhang

Krishna

et al. 2022

Nature

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Tumor-associated macrophages expressing the transcription factor IRF8 promote T cell exhaustion in cancer

Nixon

Kuo

et al. 2022

Immunity

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Innate lymphocytes—lineage, localization and timing of differentiation

Kansler

2019

Cell Mol Immunol

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Innate lymphocytes are a diverse population of cells that carry out specialized functions in steady-state homeostasis and during immune challenge. While circulating cytotoxic natural killer (NK) cells have been studied for decades, tissue-resident innate lymphoid cells (ILCs) have only been characterized and studied over the past few years. As ILCs have been largely viewed in the context of helper T-cell biology, models of ILC lineage and function have been founded within this perspective. Notably, tissueresident innate lymphocytes with cytotoxic potential have been described in an array of tissues, yet whether they are derived from the NK or ILC lineage is only beginning to be elucidated. In this review, we aim to shed light on the identities of innate lymphocytes through the lenses of cell lineage, localization, and timing of differentiation.

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Emily R. Kansler

Single-cell sequencing links multiregional immune landscapes and tissue-resident T cells in ccRCC to tumor topology and therapy efficacy

A Quantitative System for Studying Metastasis Using Transparent Zebrafish

Microenvironment-derived factors driving metastatic plasticity in melanoma

Cytotoxic granzyme C–expressing ILC1s contribute to antitumor immunity and neonatal autoimmunity

Cytotoxic innate lymphoid cells sense cancer cell-expressed interleukin-15 to suppress human and murine malignancies

Programme of self-reactive innate-like T cell-mediated cancer immunity

Tumor-associated macrophages expressing the transcription factor IRF8 promote T cell exhaustion in cancer

Innate lymphocytes—lineage, localization and timing of differentiation

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