用功能化金纳米颗粒检测葡萄膜黑色素瘤细胞中的GNAQ突变并降低细胞活力。
Detection of GNAQ mutations and reduction of cell viability in uveal melanoma cells with functionalized gold nanoparticles.
作者信息
Posch Christian, Latorre Alfonso, Crosby Michelle B, Celli Anna, Latorre Ana, Vujic Igor, Sanlorenzo Martina, Green Gary A, Weier Jingly, Zekhtser Mitchell, Ma Jeffrey, Monico Gabriela, Char Devron H, Jusufbegovic Denis, Rappersberger Klemens, Somoza Álvaro, Ortiz-Urda Susana
机构信息
Department of Dermatology, Mount Zion Cancer Research Center, University of California San Francisco, 2340 Sutter Street N461, 94115, San Francisco, CA, USA,
出版信息
Biomed Microdevices. 2015 Feb;17(1):15. doi: 10.1007/s10544-014-9908-7.
BACKGROUND
Uveal melanoma (UM) is the most common primary intraocular malignancy in adults. Early treatment may improve any chances of preventing metastatic disease, but diagnosis of small UM is challenging. Up to 95 % of all UMs carry somatic mutations in the G-coupled proteins GNAQ and GNA11 promoting anchorage-independent growth and proliferation. About 50 % of UMs are fatal. Once metastatic, patients have limited options for successful therapy.
METHODS
We have developed functionalized gold nanoparticles (AuNPs) to visualize transcripts of mutant GNAQ mRNA in living cells. In addition to their suitability as a specific tool for GNAQ mutation detection, we have developed a novel linker that enables conjugation of siRNAs to AuNPs allowing for greater and more rapid intracellular release of siRNAs compared to previously described approaches.
RESULTS
Binding of modified AuNPs to matching target mRNA leads to conformational changes, resulting in a detectable fluorescent signal that can be used for mutation detection in living cells. Knockdown of GNAQ with siRNA-AuNPs effectively reduced downstream signals and decreased cell viability in GNAQ mutant uveal melanoma cells.
CONCLUSION
AuNPs may in future be developed to serve as sensors for mutations of vital importance. The new release system for siRNA-AuNP improves previous systems, which conceivably will be useful for future therapeutic gene regulatory approaches.
背景
葡萄膜黑色素瘤(UM)是成人中最常见的原发性眼内恶性肿瘤。早期治疗可能会提高预防转移性疾病的几率,但小的UM的诊断具有挑战性。所有UM中高达95%携带G偶联蛋白GNAQ和GNA11中的体细胞突变,促进不依赖贴壁的生长和增殖。约50%的UM是致命的。一旦发生转移,患者成功治疗的选择有限。
方法
我们开发了功能化金纳米颗粒(AuNP)以可视化活细胞中突变型GNAQ mRNA的转录本。除了适合作为GNAQ突变检测的特异性工具外,我们还开发了一种新型连接子,该连接子能够将siRNA与AuNP偶联,与先前描述的方法相比,可实现siRNA在细胞内更大且更快速的释放。
结果
修饰后的AuNP与匹配的靶mRNA结合会导致构象变化,产生可检测的荧光信号,可用于活细胞中的突变检测。用siRNA-AuNP敲低GNAQ可有效降低下游信号,并降低GNAQ突变型葡萄膜黑色素瘤细胞的细胞活力。
结论
未来AuNP可能会被开发用作具有至关重要意义的突变的传感器。新的siRNA-AuNP释放系统改进了先前的系统,这可能对未来的治疗性基因调控方法有用。
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