Yali Xu scite author profile

SUMMARY The aberrant expression of squamous lineage markers in pancreatic ductal adenocarcinoma (PDA) has been correlated with poor clinical outcomes. However, the functional role of this putative transdifferentiation event in PDA pathogenesis remains unclear. Here, we show that expression of the transcription factor TP63 (∆Np63) is sufficient to install and sustain the enhancer landscape and transcriptional signature of the squamous lineage in human PDA cells. We also demonstrate that TP63-driven enhancer reprogramming promotes aggressive tumor phenotypes, including enhanced cell motility and invasion, and an accelerated growth of primary PDA tumors and metastases in vivo. This process ultimately leads to a powerful addiction of squamous PDA cells to continuous TP63 expression. Our study demonstrates the functional significance of squamous transdifferentiation in PDA and reveals TP63-based reprogramming as an experimental tool for investigating mechanisms and vulnerabilities linked to this aberrant cell fate transition.

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Targeting Cancer Cells with BET Bromodomain Inhibitors

Vakoc

2017

Cold Spring Harb Perspect Med

164

126

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Cancer cells are often hypersensitive to the targeting of transcriptional regulators, which may reflect the deregulated gene expression program that underlies malignant transformation. One of the most prominent transcriptional vulnerabilities in human cancer to emerge in recent years is the bromodomain and extraterminal (BET) family of proteins, which are coactivators that link acetylated transcription factors and histones to the activation of RNA polymerase II. Despite unclear mechanisms underlying the gene-specificity of BET protein function, small-molecules targeting these regulators will preferentially suppress transcription of cancer-promoting genes. As a consequence, BET inhibitors elicit anti-cancer activity in numerous malignant contexts at doses that can be tolerated by normal tissues, a finding supported by animal studies and by phase I clinical trials in human cancer patients. In this chapter, we will discuss the remarkable, and often perplexing, therapeutic effects of BET bromodomain inhibition in cancer.

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A TFIID-SAGA Perturbation that Targets MYB and Suppresses Acute Myeloid Leukemia

Milazzo

Somerville

et al. 2018

Cancer Cell

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Targeting of general coactivators is an emerging strategy to interfere with oncogenic transcription factors (TFs). However, coactivator perturbations often lead to pleiotropic effects by influencing numerous TFs. Here we identify TAF12, a subunit of TFIID and SAGA coactivator complexes, as a selective requirement for acute myeloid leukemia (AML) progression. We trace this dependency to a direct interaction between the TAF12/TAF4 histone-fold heterodimer and the transactivation domain of MYB, a TF with established roles in leukemogenesis. Ectopic expression of the TAF4 histone-fold fragment can efficiently squelch TAF12 in cells, suppress MYB, and regress AML in mice. Our study reveals a strategy for potent MYB inhibition in AML and highlights how an oncogenic TF can be selectively neutralized by targeting a general coactivator complex.

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Systemic lupus erythematosus and B-cell hematologic neoplasm

Wiernik

2001

Lupus

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The association of systemic lupus erythematosus (SLE) and B-cell malignancy is widely reported in the literature. Here we report nine cases of concurrent of SLE or discoid lupus erythematosus (DLE) and lymphoma or plasma cell disorder. A MEDLINE search was done using the keywords, 'SLE' and 'lymphoma' and the characteristics of all identified cases were summarized and analyzed, along with data from our own cases. Numerous variants of B-cell malignancies were encountered in these patients. B-cell malignancy occurs after the diagnosis and treatment of SLE in most reported cases, although it may precede SLE, or occur synchronously with it. The age at onset of the B-cell neoplasm in SLE patients is similar to that in the general population. Mortality in patients with both diseases is associated with progressive B-cell neoplasm, sepsis secondary to either disease, or both. B-cell malignancy and SLE seem to run independent clinical courses rather than being affected by each other. The use of immunosuppressive drugs is common in patients with SLE diagnosed prior to B-cell lymphoma, arguing that the effect of immunosuppression on the pathogenesis of lymphoma can not be excluded. Three areas worthy of study regarding the probable mechanisms for the occurrence of SLE and B-cell malignancies are discussed. A tumor suppressor gene PTEN may link the two disorders via a defective apoptosis pathway to eliminate hyperactive B and T cells in SLE. The accumulation of clonally expanded hyperactive B-cells that recognize self-antigens in the lymph nodes of SLE may predispose these B-cells to DNA breaks, facilitating tumorigenesis. Lastly, EBV infection, found to have a high prevalence in SLE patients, may serve as a common etiological factor in both disorders.

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Yali Xu

TP63-Mediated Enhancer Reprogramming Drives the Squamous Subtype of Pancreatic Ductal Adenocarcinoma

Targeting Cancer Cells with BET Bromodomain Inhibitors

A TFIID-SAGA Perturbation that Targets MYB and Suppresses Acute Myeloid Leukemia

Systemic lupus erythematosus and B-cell hematologic neoplasm

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