Semaphorin 3C促进前列腺癌症细胞中的新甾体生成。

Endocrine-related cancer Pub Date : 2023-11-06 Print Date: 2023-12-01 DOI:10.1530/ERC-23-0010
Parvin Yenki, Satyam Bhasin, Liang Liu, Noushin Nabavi, Chi Wing Cheng, Kevin J Tam, James W Peacock, Hans H Adomat, Tabitha Tombe, Ladan Fazli, Larissa Ivanova, Christopher Dusek, Shahram Khosravi, Emma S Tomlinson Guns, Yuzhuo Wang, Ralph Buttyan, Martin E Gleave, Christopher J Ong
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引用次数: 0

摘要

在接受雄激素剥夺治疗的患者中,肿瘤内雄激素生物合成有助于去势耐受性前列腺癌症的进展。抗去势前列腺癌症获得雄激素生物合成能力以绕过雄激素剥夺治疗的分子机制尚不完全清楚。在这里,我们发现Semaphorin 3C,一种在去势抵抗性前列腺癌症中高度表达的分泌信号蛋白,可以通过改变关键甾体生成酶的表达谱来促进甾体生成。Semaphorin 3C不仅上调脱氢表雄酮或胆固醇从头合成雄激素所需的酶,而且同时下调参与雄激素失活途径的酶。这些基因表达的变化与三宝莲3C在前列腺癌症模型细胞中诱导的雄激素产生增加相关。此外,Semaphorin 3C上调LNCaP细胞衍生的异种移植物肿瘤中的雄激素合成,可能有助于去势后体内肿瘤生长率的提高。此外,Semaphorin 3C激活甾醇调节元件结合蛋白,这是一种上调参与胆固醇合成的酶的转录因子,胆固醇是新甾体生成的唯一前体。Semaphorin 3C促进肿瘤内雄激素合成的能力可能是有助于去势耐药前列腺癌症中雄激素受体通路重新激活的关键机制,在雄激素剥夺治疗下使其持续生长。这些发现确定Semaphorin 3C是抑制肿瘤内类固醇生成的潜在治疗靶点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Semaphorin 3C promotes de novo steroidogenesis in prostate cancer cells.

Intratumoral androgen biosynthesis contributes to castration-resistant prostate cancer progression in patients treated with androgen deprivation therapy. The molecular mechanisms by which castration-resistant prostate cancer acquires the capacity for androgen biosynthesis to bypass androgen deprivation therapy are not entirely known. Here, we show that semaphorin 3C, a secreted signaling protein that is highly expressed in castration-resistant prostate cancer, can promote steroidogenesis by altering the expression profile of key steroidogenic enzymes. Semaphorin 3C not only upregulates enzymes required for androgen synthesis from dehydroepiandrosterone or de novo from cholesterol but also simultaneously downregulates enzymes involved in the androgen inactivation pathway. These changes in gene expression correlate with increased production of androgens induced by semaphorin 3C in prostate cancer model cells. Moreover, semaphorin 3C upregulates androgen synthesis in LNCaP cell-derived xenograft tumors, likely contributing to the enhanced in vivo tumor growth rate post castration. Furthermore, semaphorin 3C activates sterol regulatory element-binding protein, a transcription factor that upregulates enzymes involved in the synthesis of cholesterol, a sole precursor for de novo steroidogenesis. The ability of semaphorin 3C to promote intratumoral androgen synthesis may be a key mechanism contributing to the reactivation of the androgen receptor pathway in castration-resistant prostate cancer, conferring continued growth under androgen deprivation therapy. These findings identify semaphorin 3C as a potential therapeutic target for suppressing intratumoral steroidogenesis.

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