{"title":"雄激素受体通过调节分泌催乳素的垂体腺瘤细胞内活性氧(ROS)介导多巴胺激动剂的抗药性","authors":"Linpeng Xu, Zhuowei Lei, Quanji Wang, Qian Jiang, Biao Xing, Xingbo Li, Xiang Guo, Zihan Wang, Sihan Li, Yimin Huang, Ting Lei","doi":"10.1089/ars.2024.0611","DOIUrl":null,"url":null,"abstract":"<p><p><b><i>Aims:</i></b> Dopamine agonists (DAs) are the first-line treatment for patients with prolactin-secreting pituitary adenoma (PRL adenoma). However, a subset of individuals exhibits poor responses, known as DA resistance. Previous studies have reported that DA resistance is more prevalent in male patients. This study aims to investigate the relationship between androgen receptor (AR) expression and DA resistance, as well as to explore underlying mechanisms of AR-mediated DA resistance. <b><i>Results:</i></b> Our results demonstrated that patients with higher AR expression exhibit greater resistance to DA in our cohort of DA-resistant PRL adenoma. Furthermore, AR was found to be involved in cell proliferation, PRL secretion, and resistance to bromocriptine (BRC) both <i>in vitro</i> and <i>in vivo</i>. Mechanistically, we demonstrated that intracellular reactive oxygen species (ROS) function as upstream mediators of apoptosis and ferroptosis following BRC treatment. As a ligand-dependent transcription factor, AR could translocate to the nucleus and transcriptionally promote NFE2-like bZIP transcription factor 2 (NRF2) expression, which regulates intracellular ROS levels, thereby enhancing cell viability and conferring DA resistance to pituitary adenoma (PA) cells. Finally, AR targeting agents were used to inhibit AR signaling, downregulate NRF2 transcription, and sensitize PA cells to BRC treatment. <b><i>Conclusion and Innovation:</i></b> We demonstrated that AR plays a crucial role in mediating DA resistance in PRL adenoma. Mechanistically, AR promotes cell proliferation and PRL secretion and confers drug resistance by transcriptionally regulating NRF2 expression to maintain redox homeostasis in PA cells. Finally, combining AR targeting agents with BRC shows promise as a therapeutic strategy for treating PRL adenomas. <i>Antioxid. Redox Signal.</i> 00, 000-000.</p>","PeriodicalId":8011,"journal":{"name":"Antioxidants & redox signaling","volume":" ","pages":""},"PeriodicalIF":5.9000,"publicationDate":"2024-11-06","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Androgen Receptor Mediates Dopamine Agonist Resistance by Regulating Intracellular Reactive Oxygen Species in Prolactin-Secreting Pituitary Adenoma.\",\"authors\":\"Linpeng Xu, Zhuowei Lei, Quanji Wang, Qian Jiang, Biao Xing, Xingbo Li, Xiang Guo, Zihan Wang, Sihan Li, Yimin Huang, Ting Lei\",\"doi\":\"10.1089/ars.2024.0611\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p><b><i>Aims:</i></b> Dopamine agonists (DAs) are the first-line treatment for patients with prolactin-secreting pituitary adenoma (PRL adenoma). However, a subset of individuals exhibits poor responses, known as DA resistance. Previous studies have reported that DA resistance is more prevalent in male patients. This study aims to investigate the relationship between androgen receptor (AR) expression and DA resistance, as well as to explore underlying mechanisms of AR-mediated DA resistance. <b><i>Results:</i></b> Our results demonstrated that patients with higher AR expression exhibit greater resistance to DA in our cohort of DA-resistant PRL adenoma. Furthermore, AR was found to be involved in cell proliferation, PRL secretion, and resistance to bromocriptine (BRC) both <i>in vitro</i> and <i>in vivo</i>. Mechanistically, we demonstrated that intracellular reactive oxygen species (ROS) function as upstream mediators of apoptosis and ferroptosis following BRC treatment. As a ligand-dependent transcription factor, AR could translocate to the nucleus and transcriptionally promote NFE2-like bZIP transcription factor 2 (NRF2) expression, which regulates intracellular ROS levels, thereby enhancing cell viability and conferring DA resistance to pituitary adenoma (PA) cells. Finally, AR targeting agents were used to inhibit AR signaling, downregulate NRF2 transcription, and sensitize PA cells to BRC treatment. <b><i>Conclusion and Innovation:</i></b> We demonstrated that AR plays a crucial role in mediating DA resistance in PRL adenoma. Mechanistically, AR promotes cell proliferation and PRL secretion and confers drug resistance by transcriptionally regulating NRF2 expression to maintain redox homeostasis in PA cells. Finally, combining AR targeting agents with BRC shows promise as a therapeutic strategy for treating PRL adenomas. <i>Antioxid. 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引用次数: 0
摘要
目的:多巴胺激动剂(DA)是治疗分泌催乳素垂体腺瘤(PRL腺瘤)患者的一线药物。然而,有一部分患者对多巴胺受体激动剂反应不佳,即所谓的多巴胺受体激动剂耐药性。以往的研究表明,DA抵抗在男性患者中更为普遍。本研究旨在探讨雄激素受体(AR)表达与DA抵抗之间的关系,以及AR介导的DA抵抗的潜在机制:结果:我们的研究结果表明,在我们的DA耐药PRL腺瘤队列中,AR表达较高的患者对DA的耐药性更强。此外,我们还发现 AR 在体外和体内都参与了细胞增殖、PRL 分泌和对 BRC 的抵抗。从机理上讲,我们证实细胞内的 ROS 是 BRC 治疗后细胞凋亡和铁凋亡的上游介质。作为配体依赖性转录因子,AR可转位至细胞核并转录促进NRF2的表达,而NRF2可调节细胞内ROS水平,从而提高细胞活力,并赋予PA细胞对DA的抗性。最后,AR靶向药物被用来抑制AR信号转导,下调NRF2转录,并使PA细胞对BRC治疗敏感。结论与创新:我们证明了AR在介导PRL-腺瘤的DA耐药性中起着至关重要的作用。从机理上讲,AR促进细胞增殖和PRL分泌,并通过转录调节NRF2的表达来维持PA细胞的氧化还原平衡,从而产生耐药性。最后,将AR靶向药物与BRC相结合有望成为治疗PRL腺瘤的一种治疗策略。
Androgen Receptor Mediates Dopamine Agonist Resistance by Regulating Intracellular Reactive Oxygen Species in Prolactin-Secreting Pituitary Adenoma.
Aims: Dopamine agonists (DAs) are the first-line treatment for patients with prolactin-secreting pituitary adenoma (PRL adenoma). However, a subset of individuals exhibits poor responses, known as DA resistance. Previous studies have reported that DA resistance is more prevalent in male patients. This study aims to investigate the relationship between androgen receptor (AR) expression and DA resistance, as well as to explore underlying mechanisms of AR-mediated DA resistance. Results: Our results demonstrated that patients with higher AR expression exhibit greater resistance to DA in our cohort of DA-resistant PRL adenoma. Furthermore, AR was found to be involved in cell proliferation, PRL secretion, and resistance to bromocriptine (BRC) both in vitro and in vivo. Mechanistically, we demonstrated that intracellular reactive oxygen species (ROS) function as upstream mediators of apoptosis and ferroptosis following BRC treatment. As a ligand-dependent transcription factor, AR could translocate to the nucleus and transcriptionally promote NFE2-like bZIP transcription factor 2 (NRF2) expression, which regulates intracellular ROS levels, thereby enhancing cell viability and conferring DA resistance to pituitary adenoma (PA) cells. Finally, AR targeting agents were used to inhibit AR signaling, downregulate NRF2 transcription, and sensitize PA cells to BRC treatment. Conclusion and Innovation: We demonstrated that AR plays a crucial role in mediating DA resistance in PRL adenoma. Mechanistically, AR promotes cell proliferation and PRL secretion and confers drug resistance by transcriptionally regulating NRF2 expression to maintain redox homeostasis in PA cells. Finally, combining AR targeting agents with BRC shows promise as a therapeutic strategy for treating PRL adenomas. Antioxid. Redox Signal. 00, 000-000.
期刊介绍:
Antioxidants & Redox Signaling (ARS) is the leading peer-reviewed journal dedicated to understanding the vital impact of oxygen and oxidation-reduction (redox) processes on human health and disease. The Journal explores key issues in genetic, pharmaceutical, and nutritional redox-based therapeutics. Cutting-edge research focuses on structural biology, stem cells, regenerative medicine, epigenetics, imaging, clinical outcomes, and preventive and therapeutic nutrition, among other areas.
ARS has expanded to create two unique foci within one journal: ARS Discoveries and ARS Therapeutics. ARS Discoveries (24 issues) publishes the highest-caliber breakthroughs in basic and applied research. ARS Therapeutics (12 issues) is the first publication of its kind that will help enhance the entire field of redox biology by showcasing the potential of redox sciences to change health outcomes.
ARS coverage includes:
-ROS/RNS as messengers
-Gaseous signal transducers
-Hypoxia and tissue oxygenation
-microRNA
-Prokaryotic systems
-Lessons from plant biology