S期激酶相关蛋白2(SKP2)介导的细胞周期调节在肺癌和其他RB相关癌症中的靶向药理学抑制:现状和未来展望

Q1 Biochemistry, Genetics and Molecular Biology
Abul H. Elahi , Cordelia S. Morales , Xiaoliang L. Xu , Alexia Eliades , Philippos C. Patsalis , David H. Abramson , Suresh C. Jhanwar
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引用次数: 0

摘要

癌症小细胞癌(SCLC)常表现为Rb缺乏、TRβ和p130缺失以及SKP2扩增,提示TRβ失活和SKP2活化。据报道,SKP2靶向治疗在体外和体内对某些癌症有效,但对小细胞肺癌和视网膜母细胞瘤的治疗尚无报道。SKP2是小细胞肺癌和视网膜母细胞瘤的合成致死基因,因此SKP2可用于小细胞肺癌或视网膜母细胞癌的靶向治疗。RB1敲除小鼠会发展出几种肿瘤,但RB1和SKP2双敲除小鼠是健康的,这表明SKP2靶向治疗可能对Rb缺乏型癌症有显著影响,副作用较小,如果在体外和动物模型中成功治疗SCLC和视网膜母细胞瘤,这些化合物可能有希望用于SCLC、,以及各种Rb缺乏型癌症。此前我们的研究表明,视网膜母细胞瘤表现出视网膜视锥前体特性,并依赖于视锥特异性甲状腺激素受体β2(TRβ2)和SKP2信号传导。在这项研究中,我们试图通过SKP2抑制剂抑制SCLC和视网膜母细胞瘤细胞的生长,作为体外和体内靶向治疗的前奏。我们在SCLC和视网膜母细胞瘤细胞系中敲低TRβ2和SKP2或过表达p27,以研究SKP2和p27信号的改变。用不同浓度的SKP2抑制剂C1处理SCLC细胞系H209以及视网膜母细胞瘤细胞系Y79、WERI和RB177,随后进行蛋白质印迹、免疫染色和细胞周期动力学研究,以研究SKP2和p27表达的泛素化,以确定对细胞周期调节和生长抑制的影响。Y79、RB177和H209中的TRβ2敲低导致SKP2下调和降解、p27上调和S期阻滞,而SKP2敲低或p27过表达导致p27积累和G1-S期阻滞。在细胞系Y79、WERI、RB177和H209中,用C1处理引起SKP2泛素化和降解、p27去泛素化与积累以及细胞生长停滞。SKP2抑制剂C1通过SKP2降解和p27积累显著抑制视网膜母细胞瘤以及SCLC细胞生长。体内研究还显示C1治疗对肿瘤生长的抑制作用。简要讨论了这种治疗方法成功的潜在局限性及其在人类原发性肿瘤中的转化应用,以及克服这种局限性的替代方法用于治疗视网膜母细胞瘤、小细胞肺癌和其他RB相关癌症。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Targeted pharmacologic inhibition of S-phase kinase-associated protein 2 (SKP2) mediated cell cycle regulation in lung and other RB-Related cancers: A brief review of current status and future prospects

Small cell lung cancer (SCLC) often exhibits Rb deficiency, TRβ and p130 deletion, and SKP2 amplification, suggesting TRβ inactivation and SKP2 activation. It is reported that SKP2 targeted therapy is effective in some cancers in vitro and in vivo, but it is not reported for the treatment of SCLC and retinoblastoma. SKP2 is the synthetic lethal gene in SCLC and retinoblastoma, so SKP2 can be used for targeted therapy in SCLC and retinoblastoma. RB1 knockout mice develop several kinds of tumors, but Rb1 and SKP2 double knockout mice are healthy, suggesting that SKP2 targeted therapy may have significant effects on Rb deficient cancers with less side effects, and if successful in SCLC and retinoblastoma in vitro and in animal model, such compounds may be promising for the clinical treatment of SCLC, retinoblastoma, and variety of Rb deficient cancers.

Previously our studies showed that retinoblastomas exhibit retinal cone precursor properties and depend on cone-specific thyroid hormone receptor β2 (TRβ2) and SKP2 signaling. In this study, we sought to suppress SCLC and retinoblastoma cell growth by SKP2 inhibitors as a prelude to targeted therapy in vitro and in vivo.

We knocked down TRβ2 and SKP2 or over-expressed p27 in SCLC and retinoblastoma cell lines to investigate SKP2 and p27 signaling alterations. The SCLC cell lines H209 as well as retinoblastoma cell lines Y79, WERI, and RB177 were treated with SKP2 inhibitor C1 at different concentrations, following which Western blotting, Immunostaining, and cell cycle kinetics studies were performed to study SKP2 and p27 expression ubiquitination, to determine impact on cell cycle regulation and growth inhibition.

TRβ2 knockdown in Y79, RB177 and H209 caused SKP2 downregulation and degradation, p27 up-regulation, and S phase arrest, whereas, SKP2 knockdown or p27 over-expression caused p27 accumulation and G1-S phase arrest. In the cell lines Y79, WERI, RB177, and H209 treatment with C1 caused SKP2 ubiquitination and degradation, p27 de-ubiquitination and accumulation, and cell growth arrest. SKP2 inhibitor C1 significantly suppressed retinoblastoma as well as SCLC cell growth by SKP2 degradation and p27 accumulation. In vivo study also showed inhibition of tumor growth with C1 treatment. Potential limitations of the success of such a therapeutic approach and its translational application in human primary tumors, and alternative approaches to overcome such limitations are briefly discussed for the treatment of retinoblastoma, SCLC and other RB-related cancers.

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Advances in biological regulation
Advances in biological regulation Biochemistry, Genetics and Molecular Biology-Molecular Medicine
CiteScore
8.90
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17 days
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