Daryl Thompson scite author profile

Daryl Thompson

3Publications

3Citation Statements Received

241Citation Statements Given

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172

240

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Austin Health, University of Melbourne

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New approaches to targeting epigenetic regulation in prostate cancer

Thompson

Choo

Bolton

et al. 2022

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Purpose of reviewMany clinical trials are currently underway to target the epigenome of castration-resistant prostate cancer. In this review, we summarize the major epigenetic alterations that occur during prostate cancer progression, describe their biological consequences, and highlight potential of therapies that target epigenetic regulators for use in patients.Recent findingsEpigenetic alterations frequently occur in tumour suppressor genes, DNA repair genes, and genes that regulate cell proliferation and differentiation. Unlike genetic alterations, epigenetic changes are reversible, making them promising targets for cancer therapy. Epigenetic regulators can be divided into three broad groups: writers, readers, and erasers, each with specific drug targets that are being assessed in phase I and II clinical trials for prostate cancer. CBP/p300, and BRD4 are coregulators of the androgen receptor and inhibit androgen signalling, making bromodomain extra-terminal inhibitors and CBP/p300 inhibitors attractive targets in prostate cancer. Enhancer of zeste homolog 2, a histone methyltransferase, is also a potential target in castrate-resistant prostate cancer. An emerging direction is to combine epigenetic inhibitors with other compounds to enhance their efficacy.SummaryPreclinical studies indicate that the epigenome is a potential target in prostate cancer, and clinical trials are testing multiple agents that target the epigenome in different ways. However, the process of translating these therapies into the clinic is ongoing and none have yet been approved for castrate-resistant prostate cancer.

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New Approaches to Targeting Epigenetic Regulation in Bladder Cancer

Thompson

Lawrentschuk

Bolton

2023

Cancers

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Epigenetics is a growing field and in bladder cancer, it is of particular interest in advanced or metastatic disease. As opposed to genetic mutations in which the nucleotide sequence itself is altered, epigenetic alterations refer to changes to the genome that do not involve nucleotides. This is of great interest in cancer research because epigenetic alterations are reversible, making them a promising target for pharmacological agents. While chemoimmunotherapy is the mainstay for metastatic disease, there are few alternatives for patients who have progressed on first- or second-line treatment. By targeting reversible epigenetic alterations, novel epigenetic therapies are important potential treatment options for these patients. A search of clinical registries was performed in order to identify and collate epigenetic therapies currently in human trials. A literature search was also performed to identify therapies that are currently in preclinical stages, whether this be in vivo or in vitro models. Twenty-five clinical trials were identified that investigated the use of epigenetic inhibitors in patients with bladder cancer, often in combination with another agent, such as platinum-based chemotherapy or pembrolizumab. The main classes of epigenetic inhibitors studied include DNA-methyltransferase (DNMT) inhibitors, histone deacetylase (HDAC) inhibitors, and histone methyltransferase (HMT) inhibitors. At present, no phase 3 clinical trials have been registered. Few trials have published results, though DNMT inhibitors have shown the most promise thus far. Many patients with advanced or metastatic bladder cancer have limited treatment options, particularly when first- or second-line chemoimmunotherapy fails. Epigenetic alterations, which are common in bladder cancer, are potential targets for drug therapies, and these epigenetic agents are already in use for many cancers. While they have shown promise in pre-clinical trials for bladder cancer, more research is needed to assess their benefit in clinical settings.

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Laser eyewear: broadening the focus on eye safety in endourology

Mondschein

Thompson

Bolton

2023

ANZ Journal of Surgery

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Daryl Thompson

New approaches to targeting epigenetic regulation in prostate cancer

New Approaches to Targeting Epigenetic Regulation in Bladder Cancer

Laser eyewear: broadening the focus on eye safety in endourology

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