NT157 通过靶向多发性骨髓瘤中的 IRS 和 STAT3/5 信号发挥抗肿瘤作用。

Gustavo Nery de Queiroz, Keli Lima, Livia Bassani Lins de Miranda, Eduardo Magalhães Rego, Fabiola Traina, João Agostinho Machado-Neto
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摘要

多发性骨髓瘤(MM)是一种普遍存在的血液恶性肿瘤,复发率高且无法根治。本研究重新审视了 IGF1/IGF1R 轴在 MM 中的作用,并引入了一种新型抑制剂 NT157。IGF1/IGF1R 通路在 MM 中起着关键作用,影响细胞的存活、增殖和迁移,并影响患者的生存结果。NT157 以 IRS 和 STAT 蛋白等细胞内蛋白为靶点,在血液恶性肿瘤和实体瘤中具有抗肿瘤潜力。在本研究中,我们评估了 MM 患者和健康供体中与 IGF1R 信号相关的基因表达,发现了显著的区别。MM 细胞系中 IGF1R 相关蛋白的表达模式各不相同。基因依赖性分析表明,靶向受体和细胞内元素比自分泌 IGF1 更为重要。NT157 对 MM 细胞的活力、克隆生长、细胞周期进展和存活都有抑制作用。此外,NT157 还能减少 IRS2 的表达、STAT3、STAT5 和 RPS6 的激活,并调节癌基因和肿瘤抑制因子,从而形成抑制肿瘤的分子特征。总之,我们的研究表明,IGF1/IGF1R/IRS 信号轴在 MM 细胞中被不同程度地激活,NT157 能够调节关键分子靶点,促进 MM 细胞的抗增殖效应和凋亡。NT157 可提供一种多方面的方法来加强 MM 的治疗。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
NT157 exhibits antineoplastic effects by targeting IRS and STAT3/5 signaling in multiple myeloma.

Multiple myeloma (MM) is a prevalent hematological malignancy with high recurrence and no definitive cure. The current study revisits the role of the IGF1/IGF1R axis in MM, introducing a novel inhibitor, NT157. The IGF1/IGF1R pathway is pivotal in MM, influencing cell survival, proliferation, and migration and impacting patient survival outcomes. NT157 targets intracellular proteins such as IRS and STAT proteins and demonstrates antineoplastic potential in hematological malignancies and solid tumors. In the present study, we assessed IGF1R signaling-related gene expression in MM patients and healthy donors, unveiling significant distinctions. MM cell lines displayed varying expression patterns of IGF1R-related proteins. A gene dependence analysis indicated the importance of targeting receptor and intracellular elements over autocrine IGF1. NT157 exhibited inhibitory effects on MM cell viability, clonal growth, cell cycle progression, and survival. Moreover, NT157 reduced IRS2 expression and STAT3, STAT5, and RPS6 activation and modulated oncogenes and tumor suppressors, fostering a tumor-suppressive molecular profile. In summary, our study demonstrates that the IGF1/IGF1R/IRS signaling axis is differentially activated in MM cells and the NT157's capacity to modulate crucial molecular targets, promoting antiproliferative effects and apoptosis in MM cells. NT157 may offer a multifaceted approach to enhance MM therapy.

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