Publications by authors named "Glenn Merlino"

Cancer progression is an evolutionary process driven by the selection of cells adapted to gain growth advantage. We present a formal study on the adaptation of gene expression in subclonal evolution. We model evolutionary changes in gene expression as stochastic Ornstein-Uhlenbeck processes, jointly leveraging the evolutionary history of subclones and single-cell expression data.

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Despite the promising results of immune checkpoint blockade (ICB) therapy, outcomes for patients with brain metastasis (BrM) remain poor. Identifying resistance mechanisms has been hindered by limited access to patient samples and relevant preclinical models. Here, we developed two mouse melanoma BrM models that recapitulate the disparate responses to ICB seen in patients.

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Melanoma is the most severe and fatal form of skin cancer, resulting from multiple gene mutations with high intra-tumor and inter-tumor molecular heterogeneity. Treatment options for patients whose disease has progressed beyond the ability for surgical resection rely on currently accepted standard therapies, notably immune checkpoint inhibitors and targeted therapies. Acquired resistance to these therapies and treatment-associated toxicity necessitate exploring novel strategies, especially those that can be personalized for specific patients and/or populations.

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Article Synopsis
  • Cancer progression is an evolutionary process where certain cells adapt to grow better than others, leading to diverse subclones.
  • The study used advanced modeling to analyze how gene expression changes during this subclonal evolution, using data from mouse melanoma cells.
  • Findings showed that different sublines exhibited unique gene expression patterns; resistant sublines adapted genes related to invasion, while responsive sublines focused on proliferation, highlighting non-genetic aspects of cancer evolution.
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  • * Current treatments struggle due to genetic diversity in melanoma and the quick development of drug resistance, making innovative therapies critical for improving patient outcomes.
  • * CAR-NK cell immunotherapies show promise as a safer alternative to CAR-T therapies, with potential design innovations that could enhance their effectiveness against melanoma and overcome immunosuppressive barriers.
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  • Ezrin is an essential protein that helps organize the cytoskeleton, influencing cell shape, movement, and adhesion.
  • It is crucial for tumor metastasis as it interacts with other proteins and immune cells, enabling cancer cells to evade immune responses.
  • The text discusses Ezrin's functions, mechanisms, its involvement in metastasis, and its potential as a target for cancer treatment.
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Intratumoral heterogeneity (ITH) can promote cancer progression and treatment failure, but the complexity of the regulatory programs and contextual factors involved complicates its study. To understand the specific contribution of ITH to immune checkpoint blockade (ICB) response, we generated single cell-derived clonal sublines from an ICB-sensitive and genetically and phenotypically heterogeneous mouse melanoma model, M4. Genomic and single cell transcriptomic analyses uncovered the diversity of the sublines and evidenced their plasticity.

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  • Metastasis is a complicated process that leads to the majority of cancer-related deaths, highlighting the need for effective research models.
  • This text outlines protocols for creating mouse models specifically for studying melanoma metastasis, utilizing single-cell imaging and footpad injection techniques.
  • The single-cell imaging system allows researchers to track and measure the survival of metastatic cells early on, while footpad injection simulates elements of the metastatic process.
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Melanoma, the cancer of the melanocyte, is the deadliest form of skin cancer with an aggressive nature, propensity to metastasize and tendency to resist therapeutic intervention. Studies have identified that the re-emergence of developmental pathways in melanoma contributes to melanoma onset, plasticity, and therapeutic response. Notably, it is well known that noncoding RNAs play a critical role in the development and stress response of tissues.

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With the continued promise of immunotherapy for treating cancer, understanding how host genetics contributes to the tumor immune microenvironment (TIME) is essential to tailoring cancer screening and treatment strategies. Here, we study 1084 eQTLs affecting the TIME found through analysis of The Cancer Genome Atlas and literature curation. These TIME eQTLs are enriched in areas of active transcription, and associate with gene expression in specific immune cell subsets, such as macrophages and dendritic cells.

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encodes a tumor suppressor with lipid and protein phosphatase activities whose dysfunction has been implicated in melanomagenesis; less is known about how its phosphatases regulate melanoma metastasis. We demonstrate that PTEN expression negatively correlates with metastatic progression in human melanoma samples and a PTEN-deficient mouse melanoma model. Wildtype PTEN expression inhibited melanoma cell invasiveness and metastasis in a dose-dependent manner, behaviors that specifically required PTEN protein phosphatase activity.

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Melanoma evolution may recapitulate the embryonic development of its progenitor tissue, neural crest (NC), but the exact process is unclear. In a recent issue of Nature, Karras et al. (2022) demonstrate that melanoma expansion mirrors the hierarchic process of NC differentiation, generating cell subpopulations, each with distinct function, including growth and metastasis.

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Article Synopsis
  • HUNTRESS is a new computational tool designed to analyze the genetic diversity within tumors by using data from single-cell sequencing, operating efficiently with respect to both the number of cells and mutations.
  • * The method has been shown to accurately reconstruct the tumor's progression history under certain conditions, making it reliable for research purposes.
  • * In tests with both simulated and actual tumor data, HUNTRESS outperformed existing methods in speed and maintained high accuracy, aligning with the best-known evolutionary patterns of the tumors studied.
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PTEN is the second most highly mutated tumor suppressor in cancer, following only p53. The PTEN protein functions as a phosphatase with lipid- and protein-phosphatase activity. PTEN-lipid-phosphatase activity dephosphorylates PIP3 to form PIP2, and it then antagonizes PI3K and blocks the activation of AKT, while its protein-phosphatase activity dephosphorylates different protein substrates and plays various roles in tumorigenesis.

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  • - Brain metastases (MBM) are the most common type of brain cancer, and recent studies highlight advances in understanding and treating them, particularly from the Melanoma Research Foundation's annual meeting.
  • - Historically, patients with symptomatic MBM were often excluded from immunotherapy trials; however, new efforts have led to more inclusive clinical trials and discussions about effective treatments, including checkpoint inhibitors, steroids, radiotherapy, and targeted therapy.
  • - Advances in scientific techniques, like single-cell omics and multiplex imaging, are revealing new insights into the MBM environment, potentially leading to innovative treatments and improved outcomes for patients.
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  • Patients with congenital giant nevi (CGN) face challenges like reduced quality of life and potential development of melanoma, with few treatment options available.
  • Research by Choi et al. showed that using a topical proinflammatory treatment (SADBE), originally for alopecia, resulted in regression of nevi and prevention of melanoma in a mouse model with CGN.
  • The study highlights the potential of repurposing existing drugs for effective treatment of CGN through targeted approaches.
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Despite breakthroughs in cancer immunotherapy, most tumor-reactive T cells cannot persist in solid tumors due to an immunosuppressive environment. We developed Tres (tumor-resilient T cell), a computational model utilizing single-cell transcriptomic data to identify signatures of T cells that are resilient to immunosuppressive signals, such as transforming growth factor-β1, tumor necrosis factor-related apoptosis-inducing ligand and prostaglandin E2. Tres reliably predicts clinical responses to immunotherapy in melanoma, lung cancer, triple-negative breast cancer and B cell malignancies using bulk T cell transcriptomic data from pre-treatment tumors from patients who received immune-checkpoint inhibitors (n = 38), infusion products for chimeric antigen receptor T cell therapies (n = 34) and pre-manufacture samples for chimeric antigen receptor T cell or tumor-infiltrating lymphocyte therapies (n = 84).

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  • CAR-T cell therapy is effective for blood cancers but struggles with solid tumors due to specific challenges in targeting and an immunosuppressive environment.
  • Researchers developed anti-PD-L1 antibodies from a shark phage library, particularly focusing on B2, which can block PD-1/PD-L1 interactions.
  • The study found that PD-L1-targeted CAR-T cells could successfully attack breast and liver cancer cells, suggesting a promising new approach for future cancer treatments.
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Gut bacteria modulate the response to immune checkpoint blockade (ICB) treatment in cancer, but the effect of diet and supplements on this interaction is not well studied. We assessed fecal microbiota profiles, dietary habits, and commercially available probiotic supplement use in melanoma patients and performed parallel preclinical studies. Higher dietary fiber was associated with significantly improved progression-free survival in 128 patients on ICB, with the most pronounced benefit observed in patients with sufficient dietary fiber intake and no probiotic use.

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The relationship between cancer and autoimmunity is complex. However, the incidence of solid tumors such as melanoma has increased significantly among patients with previous or newly diagnosed systemic autoimmune disease (AID). At the same time, immune checkpoint blockade (ICB) therapy of cancer induces autoinflammation and exacerbates underlying AID, even without evident antitumor responses.

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Hepatocyte growth factor-overexpressing mice that harbor a deletion of the Ink4a/p16 locus (HP mice) form melanomas with low metastatic potential in response to UV irradiation. Here we report that these tumors become highly metastatic following hemizygous deletion of the Nme1 and Nme2 metastasis suppressor genes (HPN mice). Whole-genome sequencing of melanomas from HPN mice revealed a striking increase in lung metastatic activity that is associated with missense mutations in eight signature genes (Arhgap35, Atp8b4, Brca1, Ift172, Kif21b, Nckap5, Pcdha2, and Zfp869).

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