Publications by authors named "Adam D Durbin"

The quest for effective cancer therapeutics has traditionally centered on targeting mutated or overexpressed oncogenic proteins. However, challenges arise in cancers with low mutational burden or when the mutated oncogene is not conventionally targetable, which are common situations in childhood cancers. This obstacle has sparked large-scale unbiased screens to identify collateral genetic dependencies crucial for cancer cell growth.

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Chemical discovery efforts commonly target individual protein domains. Many proteins, including the EP300/CBP histone acetyltransferases (HATs), contain several targetable domains. EP300/CBP are critical gene-regulatory targets in cancer, with existing high potency inhibitors of either the catalytic HAT domain or protein-binding bromodomain (BRD).

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Neuroblastoma with MYCN amplification (MNA) is a high-risk disease that has a poor survival rate. Neuroblastoma displays cellular heterogeneity, including more differentiated (adrenergic) and more primitive (mesenchymal) cellular states. Here, we demonstrate that MYCN oncoprotein promotes a cellular state switch in mesenchymal cells to an adrenergic state, accompanied by induction of histone lysine demethylase 4 family members (KDM4A-C) that act in concert to control the expression of MYCN and adrenergic core regulatory circulatory (CRC) transcription factors.

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Anaplastic large cell lymphoma (ALCL) is an aggressive, CD30 T cell lymphoma of children and adults. ALK fusion transcripts or mutations in the JAK-STAT pathway are observed in most ALCL tumors, but the mechanisms underlying tumorigenesis are not fully understood. Here, we show that dysregulated STAT3 in ALCL cooccupies enhancers with master transcription factors BATF3, IRF4, and IKZF1 to form a core regulatory circuit that establishes and maintains the malignant cell state in ALCL.

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Neuroblastoma remains a formidable challenge in pediatric oncology, representing 15% of cancer-related mortalities in children. Despite advancements in combinatorial and targeted treatments improving survival rates, nearly 50% of patients with high-risk neuroblastoma will ultimately succumb to their disease. Dysregulation of the epithelial-mesenchymal transition (EMT) is a key mechanism of tumor cell dissemination, resulting in metastasis and poor outcomes in many cancers.

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Combination chemotherapy is crucial for successfully treating cancer. However, the enormous number of possible drug combinations means discovering safe and effective combinations remains a significant challenge. To improve this process, we conduct large-scale targeted CRISPR knockout screens in drug-treated cells, creating a genetic map of druggable genes that sensitize cells to commonly used chemotherapeutics.

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Transcriptional co-regulators have been widely pursued as targets for disrupting oncogenic gene regulatory programs. However, many proteins in this target class are universally essential for cell survival, which limits their therapeutic window. Here we unveil a genetic interaction between histone deacetylase 1 (HDAC1) and HDAC2, wherein each paralog is synthetically lethal with hemizygous deletion of the other.

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Article Synopsis
  • Researchers have developed a new mouse model that replicates key features of hepatoblastoma, enabling better understanding of the disease and potential treatments.
  • They used advanced techniques like single-cell RNA-sequencing to identify different types of cancer cells and mapped genes crucial for cancer dependency, revealing targets for therapy.
  • In testing chemotherapy responses, they found certain genetic factors that can enhance or diminish the effectiveness of doxorubicin, suggesting that targeting PRKDC could improve treatment outcomes.
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  • Childhood neuroblastomas can switch between two cell states: an undifferentiated mesenchymal state and a more mature sympathetic adrenergic state, influenced by specific genetic factors.
  • * The expression of the LMO1 gene, linked to neuroblastoma risk, is affected by a single nucleotide polymorphism (G/T) that alters its regulatory sequence.
  • * Research demonstrated that zebrafish with the GATA genotype developed neuroblastoma, while those with the protective TATA allele had lower tumor initiation rates, suggesting a conserved regulatory mechanism across species.
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Article Synopsis
  • Childhood neuroblastomas can shift between two cell states: an undifferentiated "mesenchymal" state and a more mature "adrenergic" state, influenced by core regulatory circuitries that aid in neural development.
  • LMO1 is crucial for establishing the adrenergic identity in neuroblastomas, with its expression levels linked to a specific genetic variation (G/T polymorphism) that alters an important motif in its gene.
  • Research using zebrafish shows that changing the G ATA genotype to a T ATA variant lowers the chance of neuroblastoma development by preventing the formation of the adrenergic cell state, indicating a preserved evolutionary mechanism between zebrafish and humans.
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Cell state is controlled by master transcription factors (mTFs) that determine the cellular gene expression program. Cancer cells acquire dysregulated gene expression programs by mutational and non-mutational processes. Intratumoral heterogeneity can result from cells displaying distinct mTF-regulated cell states, which co-exist within the tumor.

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Rhabdomyosarcoma (RMS) is a pediatric muscle sarcoma characterized by expression of the myogenic lineage transcription factors (TFs) MYOD1 and MYOG. Despite high expression of these TFs, RMS cells fail to terminally differentiate, suggesting the presence of factors that alter their functions. Here, we demonstrate that the developmental TF SIX1 is highly expressed in RMS and critical for maintaining a muscle progenitor-like state.

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Article Synopsis
  • Gene expression regulation in neuroblastoma is primarily influenced by the histone acetyltransferase EP300, while CBP plays a minimal role, especially in high-risk cases.
  • A novel compound, JQAD1, was developed to target and degrade EP300, leading to decreased enhancer acetylation and increased apoptosis of neuroblastoma cells.
  • JQAD1 shows limited toxicity to normal cells and its effectiveness is dependent on the expression of cereblon (CRBN) in neuroblastoma cells.
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Neuroblastoma cell identity depends on a core regulatory circuit (CRC) of transcription factors that collaborate with to drive the oncogenic gene expression program. For neuroblastomas dependent on the adrenergic CRC, treatment with retinoids can inhibit cell growth and induce differentiation. Here, we show that when -amplified neuroblastoma cells are treated with retinoic acid, histone H3K27 acetylation and methylation become redistributed to decommission super-enhancers driving the expression of and , together with the activation of new super-enhancers that drive high levels of and expression.

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Roughly half of all high-risk neuroblastoma patients present with MYCN amplification. The molecular consequences of MYCN overexpression in this aggressive pediatric tumor have been studied for decades, but thus far, our understanding of the early initiating steps of MYCN-driven tumor formation is still enigmatic. We performed a detailed transcriptome landscaping during murine TH-MYCN-driven neuroblastoma tumor formation at different time points.

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Lysine demethylase 5A (KDM5A) is a negative regulator of histone H3K4 trimethylation, a histone mark associated with activate gene transcription. We identify that KDM5A interacts with the P-TEFb complex and cooperates with MYC to control MYC targeted genes in multiple myeloma (MM) cells. We develop a cell-permeable and selective KDM5 inhibitor, JQKD82, that increases histone H3K4me3 but paradoxically inhibits downstream MYC-driven transcriptional output and .

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Article Synopsis
  • New therapeutic targets are being identified from CRISPR-based screens in adult cancers, raising questions about their applicability to pediatric cancers, which have fewer mutations.
  • Researchers created a pioneering pediatric cancer dependency map that included 13 types of pediatric solid and brain tumors, analyzing 82 cell lines with CRISPR-Cas9 to uncover essential genes for survival.
  • The study revealed that despite having fewer mutations, pediatric cancer cells exhibit similar complexity in genetic dependencies as adult cancer cells, suggesting that targeted treatments for childhood cancers will need to be developed separately from existing adult oncology drugs.
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We recently identified activated protein kinase B (PKB/AKT) as a tumorigenic driver in childhood ganglioneuroma. Inhibition of the mechanistic target of rapamycin (mTOR), a serine/threonine kinase downstream of AKT, effectively reduced the tumor burden in zebrafish with ganglioneuroma. We propose a clinical trial of mTOR inhibitors as a means to shrink large ganglioneuromas prior to surgical resection.

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Few therapies target the loss of tumor suppressor genes in cancer. We examine CRISPR-SpCas9 and RNA-interference loss-of-function screens to identify new therapeutic targets associated with genomic loss of tumor suppressor genes. The endosomal sorting complexes required for transport (ESCRT) ATPases VPS4A and VPS4B score as strong synthetic lethal dependencies.

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Mutations in genes encoding SWI/SNF chromatin remodeling complexes are found in approximately 20% of all human cancers, with being the most frequently mutated subunit. Here, we show that disruption of ARID1A homologs in a zebrafish model accelerates the onset and increases the penetrance of MYCN-driven neuroblastoma by increasing cell proliferation in the sympathoadrenal lineage. Depletion of ARID1A in human NGP neuroblastoma cells promoted the adrenergic-to-mesenchymal transition with changes in enhancer-mediated gene expression due to alterations in the genomic occupancies of distinct SWI/SNF assemblies, BAF and PBAF.

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Peripheral sympathetic nervous system tumors are the most common extracranial solid tumors of childhood and include neuroblastoma, ganglioneuroblastoma, and ganglioneuroma. Surgery is the only effective therapy for ganglioneuroma, which may be challenging due to the location of the tumor and involvement of surrounding structures. Thus, there is a need for well-tolerated presurgical therapies that could reduce the size and extent of ganglioneuroma and therefore limit surgical morbidity.

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LIN28B is highly expressed in neuroblastoma and promotes tumorigenesis, at least, in part, through inhibition of microRNA biogenesis. Here, we report that overexpression of either wild-type (WT) LIN28B or a LIN28B mutant that is unable to inhibit processing increases the penetrance of MYCN-induced neuroblastoma, potentiates the invasion and migration of transformed sympathetic neuroblasts, and drives distant metastases in vivo. Genome-wide chromatin immunoprecipitation coupled with massively parallel DNA sequencing (ChIP-seq) and coimmunoprecipitation experiments show that LIN28B binds active gene promoters in neuroblastoma cells through protein-protein interaction with the sequence-specific zinc-finger transcription factor ZNF143 and activates the expression of downstream targets, including transcription factors forming the adrenergic core regulatory circuitry that controls the malignant cell state in neuroblastoma as well as and that are involved in neuronal cell adhesion and migration.

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