Trailblazers in cancer research: the next generation - the British Association of Cancer Research early-career conference.

The inaugural 'British Association of Cancer Research (BACR) Early Career Conference, Trailblazers in Cancer Research 2023', was a 2-day meeting held in Manchester, UK. Recognising the disruption caused by the COVID-19 pandemic to early-career researchers (ECRs), the BACR executive committee organised an in-person conference to address the lack of network and training opportunities during this time. The conference brought together PhD students and post-doctoral researchers from across the UK and beyond, who shared their outstanding contributions to cancer research. The meeting incorporated several cutting-edge cancer themes, including 'Cancer Cell Signalling and The Tumour Microenvironment'; 'Emerging Approaches in Cancer Treatment'; 'Cancer Omics and Lifestyle', and 'Nutrition and Cancer'. Alongside showcasing world-class cancer research, the meeting included a career-focused session which allowed industrial and non-academic speakers to provide vital insight into alternative career paths aside from the familiar 'academic' route. Importantly, the conference also introduced delegates to Patient Public Involvement in cancer research, an area of limited experience for many. Overall, the BACR Trailblazers Conference was hugely successful and presented an excellent platform for collaboration and networking among ECRs in cancer research.

The CDK7 inhibitor CT7001 (Samuraciclib) targets proliferation pathways to inhibit advanced prostate cancer.

BACKGROUND: Current strategies to inhibit androgen receptor (AR) are circumvented in castration-resistant prostate cancer (CRPC). Cyclin-dependent kinase 7 (CDK7) promotes AR signalling, in addition to established roles in cell cycle and global transcription, providing a rationale for its therapeutic targeting in CRPC. METHODS: The antitumour activity of CT7001, an orally bioavailable CDK7 inhibitor, was investigated across CRPC models in vitro and in xenograft models in vivo. Cell-based assays and transcriptomic analyses of treated xenografts were employed to investigate the mechanisms driving CT7001 activity, alone and in combination with the antiandrogen enzalutamide. RESULTS: CT7001 selectively engages with CDK7 in prostate cancer cells, causing inhibition of proliferation and cell cycle arrest. Activation of p53, induction of apoptosis, and suppression of transcription mediated by full-length and constitutively active AR splice variants contribute to antitumour efficacy in vitro. Oral administration of CT7001 represses growth of CRPC xenografts and significantly augments growth inhibition achieved by enzalutamide. Transcriptome analyses of treated xenografts indicate cell cycle and AR inhibition as the mode of action of CT7001 in vivo. CONCLUSIONS: This study supports CDK7 inhibition as a strategy to target deregulated cell proliferation and demonstrates CT7001 is a promising CRPC therapeutic, alone or in combination with AR-targeting compounds.

Transcription associated cyclin-dependent kinases as therapeutic targets for prostate cancer.

Transcriptional deregulation has emerged as a hallmark of several cancer types. In metastatic castration-resistant prostate cancer, a stage in which systemic androgen deprivation therapies fail to show clinical benefit, transcriptional addiction to the androgen receptor is maintained in most patients. This has led to increased efforts to find novel therapies that prevent oncogenic transactivation of the androgen receptor. In this context, a group of druggable protein kinases, known as transcription associated cyclin-dependent kinases (tCDKs), show great potential as therapeutic targets. Despite initial reservations about targeting tCDKs due to their ubiquitous and prerequisite nature, preclinical studies showed that selectively inhibiting such kinases could provide sufficient therapeutic window to exert antitumour effects in the absence of systemic toxicity. As a result, several highly specific inhibitors are currently being trialled in solid tumours, including prostate cancer. This article summarises the roles of tCDKs in regulating gene transcription and highlights rationales for their targeting in prostate cancer. It provides an overview of the most recent developments in this therapeutic area, including the most recent clinical advances, and discusses the utility of tCDK inhibitors in combination with established cancer agents.