Ex vivo tissue modelling informs drug selection for rare cancers.
Abstract The identification and therapeutic targeting of actionable gene mutations across many cancer types has resulted in improved response rates in a minority of patients. The identification of actionable mutations is usually not sufficient to ensure complete nor durable responses, and in rare cancers, where no therapeutic standard of care exists, precision medicine indications are often based on pan-cancer data. The inclusion of functional data, however, can provide evidence of oncogene dependence and guide treatment selection based on tumour genetic data. We applied an ex vivo cancer explant modelling approach, that can be embedded in routine clinical care and [...]
Single-cell RNA sequencing in melanoma: what have we learned so far?
Abstract Over the past decade, there have been remarkable improvements in the treatment and survival rates of melanoma patients. Treatment resistance remains a persistent challenge, however, and is partly attributable to intratumoural heterogeneity. Melanoma cells can transition through a series of phenotypic and transcriptional cell states that vary in invasiveness and treatment responsiveness. The diverse stromal and immune contexture of the tumour microenvironment also contributes to intratumoural heterogeneity and disparities in treatment response in melanoma patients. Recent advances in single-cell sequencing technologies have enabled a more detailed understanding of melanoma heterogeneity and the underlying transcriptional programs that regulate melanoma [...]
Checkpoint kinase 1 inhibitor + low-dose hydroxyurea efficiently kills BRAF inhibitor- and immune checkpoint inhibitor-resistant melanomas
Treatment of melanomas with targeted and immunotherapies has proven effective, but resistance to both treatments is a common outcome leaving a high proportion of patients without effective alternative treatment options. Replication stress is a common feature of melanomas, and this is effectively targeted using a combination of checkpoint kinase 1 (CHK1) inhibitor and low-dose hydroxyurea (LDHU). This combination also promotes inflammatory and anti-tumour immune responses in vivo. Melanoma cell lines resistant to BRAF inhibitor (BRAFi) or immune checkpoint inhibitors (ICI) retain their sensitivity to CHK1i + LDHU, with sensitivity similar to that of parental tumours. In vivo, BRAFi-resistant and [...]
Single cell profiling of tumour biopsies and heterogeneity in response of dedifferentiated melanoma
Abstract Background: Patients with advanced BRAFV600-mutant melanoma can be treated with immune checkpoint inhibitors or combination BRAF/MEK inhibitors. The sequence of these therapies can influence response to second-line treatment. Patients who progress on first-line PD1 blockade have poorer outcomes on BRAF/MEK inhibitors compared to patients who are treatment-naïve. Thus, defining the molecular features that are modified by therapy and that influence subsequent treatment responses require thorough characterization. Methods: In this study, tumor biopsies from five BRAF-mutant melanoma patients progressing on anti-PD1 (PROG) and five BRAF-mutant treatment-naïve (NAÏVE) patients were dissociated and treated ex vivo with BRAF/MEK inhibitors (dabrafenib+trametinib (DT)) before flow cytometry profiling [...]
The molecular and functional landscape of resistance to immune checkpoint blockade in melanoma.
Abstract Resistance to immune checkpoint inhibitor therapies in melanoma is common and remains an intractable clinical challenge. In this study, we comprehensively profile immune checkpoint inhibitor resistance mechanisms in short-term tumor cell lines and matched tumor samples from melanoma patients progressing on immune checkpoint inhibitors. Combining genome, transcriptome, and high dimensional flow cytometric profiling with functional analysis, we identify three distinct programs of immunotherapy resistance. Here we show that resistance programs include (1) the loss of wild-type antigen expression, resulting from tumor-intrinsic IFNγ signaling and melanoma de-differentiation, (2) the disruption of antigen presentation via multiple independent mechanisms affecting MHC [...]
Intratumoral CD16+ macrophages are associated with clinical outcomes of patients with metastatic melanoma treated with combination anti-PD-1 and anti-CTLA-4 therapy.
Abstract Purpose: This study characterizes intratumoural macrophage populations within baseline melanoma biopsies from patients with advanced melanoma who received either anti-PD-1 monotherapy or combination with anti-CTLA-4. Particularly, FcγRIIIa (CD16) expressing macrophage densities were investigated for associations with response and progression-free survival. Experimental design: Patients with advanced melanoma who received either anti-PD-1 monotherapy or combination anti-PD-1 and anti-CTLA-4 were retrospectively identified. Macrophage populations were analyzed within baseline melanoma biopsies via multiplex immunohistochemistry in relation to treatment outcomes. Results: Patients who responded to combination ICI contained higher CD16+ macrophage densities than those who did not respond (196 vs 7 cells/mm2; p [...]
IFNγ signaling sensitizes melanoma cells to BH3 Mimetics.
Abstract Immunotherapy targeting PD-1 and/or CTLA4 leads to durable responses in a proportion of patients with melanoma. However, many patients will not respond to these immune checkpoint inhibitors, and up to 60% of responding patients will develop treatment resistance. We describe a vulnerability in melanoma driven by immune cell activity that provides a pathway towards additional treatment options. This study evaluated short-term melanoma cell lines (referred to as PD1 PROG cells) derived from melanoma metastases that progressed on PD-1 inhibitor–based therapy. We show that the cytokine IFN-γ primes melanoma cells for apoptosis by promoting changes in the accumulation and [...]
Protein-based classification of melanoma differentiation subtypes.
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MHC Class I Deficiency in Solid Tumors and Therapeutic Strategies to Overcome It
Abstract It is now well accepted that the immune system can control cancer growth. However, tumors escape immune-mediated control through multiple mechanisms and the downregulation or loss of major histocompatibility class (MHC)-I molecules is a common immune escape mechanism in many cancers. MHC-I molecules present antigenic peptides to cytotoxic T cells, and MHC-I loss can render tumor cells invisible to the immune system. In this review, we examine the dysregulation of MHC-I expression in cancer, explore the nature of MHC-I-bound antigenic peptides recognized by immune cells, and discuss therapeutic strategies that can be used to overcome MHC-I deficiency in [...]
Repurposing Melanoma Chemotherapy to Activate Inflammasomes in the Treatment of BRAF/MAPK Inhibitor Resistant Melanoma.
Abstract The development of resistance to treatments of melanoma is commonly associated with an upregulation of the MAPK pathway and the development of an undifferentiated state. Previous studies have suggested that melanoma with these resistance characteristics may be susceptible to innate death mechanisms such as pyroptosis triggered by the activation of inflammasomes. In this study, we have taken cell lines from patients before and after the development of resistance to BRAF V600 inhibitors and exposed the resistant melanoma to temozolomide (a commonly used chemotherapy) with and without chloroquine to inhibit autophagy. It was found that melanoma with an inflammatory [...]