PO.ET09.07 · 实验与分子治疗

CTPS1 as a metabolic vulnerability and novel therapeutic target in breast and ovarian cancer

海报缩略图:CTPS1 as a metabolic vulnerability and novel therapeutic target in breast and ovarian cancer
编号 4560 展板 3 时间 4/21 09:00–12:00 区域 Section 17 主讲 Xiyin Wang, MS
分会场 Novel Antitumor Agents 2
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作者与单位

Xiyin Wang1, Michael Emch1, Lauren Voll1, Rebecca Epp2, Esther Rodman3, Noa Odell1, Hannah Smith1, Nicole Pearson1, Xiaonan Hou4, Matthew Goetz4, Scott Kaufmann4, S. John Weroha4, Phillip Beer5, John Hawse1

1Department of Biochemistry and Molecular Biology, Mayo Clinic, Rochester, MN,2Case Western Reserve University, Cleveland, OH,3Vincent Center for Reproductive Biology, Mass General Brigham, Boston, MA,4Department of Oncology, Mayo Clinic, Rochester, MN,5Step Pharma, Saint-Genis-Pouilly, France

摘要 Abstract

Breast and ovarian cancers are major causes of cancer mortality in women with frequent relapse after curative intent treatment, underscoring the need for novel therapeutics. To this end, we identified CTPS1 as an essential gene in multiple breast and ovarian cancer models, including those resistant to chemotherapy and PARP inhibitors. CTPS1 and CTPS2 are responsible for de novo synthesis of cytidine triphosphate (CTP) which is required for DNA/RNA polymerization, phospholipid synthesis and protein glycosylation. We found CTPS1 to be the predominant isoform expressed in cancer cells, with significantly higher levels in advanced and resistant disease models compared to normal tissue, benign lesions and treatment naïve cancers. Using CTPS1 siRNAs and CTPS1-dTAG (degradation tag) cell lines, we discovered that depletion of CTPS1 induces S-phase cell cycle arrest followed by apoptosis. Leveraging a first-in-class, highly selective, and orally bioavailable CTPS1 inhibitor (STP938) developed by Step Pharma, we identified nanomolar IC50 values across a panel of cell lines, both in 2D and 3D culture systems, and potent anti-neoplastic activity ex vivo and in vivo using patient-derived xenograft (PDX) models. STP938 also synergized with standard-of-care chemotherapy agents and PARP inhibitors, including in therapy-resistant models. Given the essentiality of CTP for biosynthetic processes, we performed bulk and single cell RNA-seq, total and phospho-proteomics, metabolomics, and lipidomic strategies to examine changes induced by acute and chronic STP938 exposure. This revealed that cancer cells are able to overcome pharmacologic CTPS1 inhibition by rewiring of pyrimidine and purine synthesis pathways, upregulation of the pentose phosphate pathway, and extensive remodeling of lipid synthesis pathways including shifts in PC/PE content, increased lysophospholipid production, and altered mitochondrial lipid composition (decreased cardiolipin and increased PG). To identify genetic drivers of STP938 resistance and synthetic lethal vulnerabilities, we performed a genome-wide CRISPR knockout screen together with a PRISM drug sensitivity screen. Genes regulating dNTP biosynthesis, S-phase progression, and RNA processing were identified as primary escape mechanisms, while DHODH inhibitors, purine and nucleoside analogs, and mitosis modifiers were implicated as synthetic lethal opportunities. Notably, we discovered that 25% of ovarian tumors lack CTPS2 protein expression, suggesting near complete reliance on CTPS1 for survival. Thus, a Phase 1a/b clinical trial of STP938 (NCT06297525) has been initiated, including an expansion cohort for patients with CTPS2-null ovarian tumors. These laboratory discoveries and ongoing clinical efforts aim to enable broader uptake of this novel therapeutic approach to improve long-term outcomes in patients with CTPS1-dependent disease.
利益披露 Disclosure
X. Wang, None.. M. Emch, None.. L. Voll, None.. R. Epp, None.. E. Rodman, None.. N. Odell, None.. H. Smith, None.. N. Pearson, None.. X. Hou, None. M. Goetz, AXIS Other, personal fees for CME activities. BroadcastMed Other, personal fees for CME activities. DAVA Oncology Other, personal fees for CME activities. IDEOlogy Health Other, personal fees for CME activities. MJH Life Sciences Other, personal fees for CME activities. PeerView Other, personal fees for CME activities. Physicians' Education Resource Other, personal fees for CME activities. Research to Practice personal fees for CME activities. Total Health Conferencing Other, personal fees for CME activities. AstraZeneca Other, consulting fees and grant funding to Mayo Clinic. BeiGene USA Other, consulting fees to Mayo Clinic. Biotheranostics Other, consulting fees to Mayo Clinic. Biotheryx Other, consulting fees to Mayo Clinic. eChinaHealth Other, consulting fees to Mayo Clinic. EcoR1 Other, consulting fees to Mayo Clinic. Eli Lilly and Company ), Travel, Other, consulting fees and funding grant to Mayo Clinic. Engage Health Media Other, consulting fees to Mayo Clinic. Genentech Other, consulting fees to Mayo Clinic. Novartis Other, consulting fees to Mayo Clinic. ATOSSA Therapeutics ). S. Kaufmann, None.. S. Weroha, None. P. Beer, Step Pharma Employment. J. Hawse, None.

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