A Compound That Inhibits Glycolysis in Prostate Cancer Controls Growth of Advanced Prostate Cancer.

IF 5.3 2区 医学 Q1 ONCOLOGY Molecular Cancer Therapeutics Pub Date : 2024-07-02 DOI:10.1158/1535-7163.MCT-23-0540
Takuma Uo, Kayode K Ojo, Cynthia C T Sprenger, Kathryn S Epilepsia, B Gayani K Perera, Mamatha Damodarasamy, Shihua Sun, Soojin Kim, Hannah H Hogan, Matthew A Hulverson, Ryan Choi, Grant R Whitman, Lynn K Barrett, Samantha A Michaels, Linda H Xu, Vicky L Sun, Samuel L M Arnold, Haley J Pang, Matthew M Nguyen, Anna-Lena B G Vigil, Varun Kamat, Lucas B Sullivan, Ian R Sweet, Ram Vidadala, Dustin J Maly, Wesley C Van Voorhis, Stephen R Plymate
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Abstract

Metastatic castration-resistant prostate cancer remains incurable regardless of recent therapeutic advances. Prostate cancer tumors display highly glycolytic phenotypes as the cancer progresses. Nonspecific inhibitors of glycolysis have not been utilized successfully for chemotherapy, because of their penchant to cause systemic toxicity. This study reports the preclinical activity, safety, and pharmacokinetics of a novel small-molecule preclinical candidate, BKIDC-1553, with antiglycolytic activity. We tested a large battery of prostate cancer cell lines for inhibition of cell proliferation, in vitro. Cell-cycle, metabolic, and enzymatic assays were used to demonstrate their mechanism of action. A human patient-derived xenograft model implanted in mice and a human organoid were studied for sensitivity to our BKIDC preclinical candidate. A battery of pharmacokinetic experiments, absorption, distribution, metabolism, and excretion experiments, and in vitro and in vivo toxicology experiments were carried out to assess readiness for clinical trials. We demonstrate a new class of small-molecule inhibitors where antiglycolytic activity in prostate cancer cell lines is mediated through inhibition of hexokinase 2. These compounds display selective growth inhibition across multiple prostate cancer models. We describe a lead BKIDC-1553 that demonstrates promising activity in a preclinical xenograft model of advanced prostate cancer, equivalent to that of enzalutamide. BKIDC-1553 demonstrates safety and pharmacologic properties consistent with a compound that can be taken into human studies with expectations of a good safety margin and predicted dosing for efficacy. This work supports testing BKIDC-1553 and its derivatives in clinical trials for patients with advanced prostate cancer.

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抑制前列腺癌糖酵解的化合物可控制晚期前列腺癌的生长
无论最近的治疗手段如何进步,转移性抗性前列腺癌仍然无法治愈。随着癌症的发展,前列腺癌肿瘤显示出高度糖酵解表型。由于非特异性糖酵解抑制剂容易引起全身毒性,因此尚未成功用于化疗。本研究报告了具有抗糖酵解活性的新型小分子候选药物 BKIDC-1553 的临床前活性、安全性和药代动力学。我们在体外对大量前列腺癌细胞系进行了抑制细胞增殖的测试。我们使用细胞周期、代谢和酶测定来证明其作用机制。我们还研究了植入小鼠体内的人类 PDX 模型和人类类器官对 BKIDC 临床前候选药物的敏感性。我们还进行了一系列药代动力学实验、吸收、分布、代谢和排泄实验,以及体外和体内毒理学实验,以评估临床试验的准备情况。我们展示了一类新的小分子抑制剂,它们在前列腺癌细胞系中的抗糖酵解活性是通过抑制己糖激酶 2 来介导的。这些化合物在多种前列腺癌模型中显示出选择性生长抑制作用。我们介绍的先导化合物 BKIDC-1553 在晚期前列腺癌的临床前异种移植模型中显示出与恩杂鲁胺相当的活性。BKIDC-1553 所表现出的安全性和药理特性与可用于人体研究的化合物相一致,具有良好的安全边际和疗效预测剂量。这项研究支持在晚期前列腺癌患者的临床试验中测试 BKIDC-1553 及其衍生物。
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来源期刊
CiteScore
11.20
自引率
1.80%
发文量
331
审稿时长
3 months
期刊介绍: Molecular Cancer Therapeutics will focus on basic research that has implications for cancer therapeutics in the following areas: Experimental Cancer Therapeutics, Identification of Molecular Targets, Targets for Chemoprevention, New Models, Cancer Chemistry and Drug Discovery, Molecular and Cellular Pharmacology, Molecular Classification of Tumors, and Bioinformatics and Computational Molecular Biology. The journal provides a publication forum for these emerging disciplines that is focused specifically on cancer research. Papers are stringently reviewed and only those that report results of novel, timely, and significant research and meet high standards of scientific merit will be accepted for publication.
期刊最新文献
Development and Characterization of a Lysosome-Targeting SLC3A2/PD-L1 Bispecific Antibody-Drug Conjugate for Enhanced Anti-Tumor Efficacy in Solid Tumors. Response to systemic therapies in patient-derived cell lines from primary and recurrent adult granulosa cell tumors. Targeting CDK7 enhances the antitumor efficacy of enzalutamide in androgen receptor-positive triple-negative breast cancer by inhibiting c-MYC-mediated tumorigenesis. STAT5 activation enhances adoptive therapy combined with peptide vaccination by preventing PD-1 inhibition. A novel designed anti-PD-L1/OX40 bispecific antibody augments both peripheral and tumor-associated immune responses for boosting anti-tumor immunity.
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