Basu Dipanjan, Salgado Cláudia M, Bauer Bruce S, Johnson Donald, Rundell Veronica, Nikiforova Marina, Khakoo Yasmin, Gunwaldt Lorelei J, Panigrahy Ashok, Reyes-Múgica Miguel
Department of Pathology, Children's Hospital of Pittsburgh, Pittsburgh, Pennsylvania (D.B., C.M.S., M.R.M.); Department of Plastic Surgery, Children's Hospital of Pittsburgh, Pittsburgh, Pennsylvania (L.J.G.); Department of Radiology, Children's Hospital of Pittsburgh, Pittsburgh, Pennsylvania (A.P.); Division of Plastic and Reconstructive Surgery, NorthShore University HealthSystem, Northbrook, Illinois (B.S.B., D.J., V.R.); Division of Molecular Genomic Pathology, University of Pittsburgh School of Medicine, Pittsburgh, Pennsylvania (M.N.); Department of Pediatrics and Neurology, Memorial Sloan Kettering Cancer Center, New York, New York (Y.K.); Department of Pediatrics, Weill Cornell Medical College, New York, New York (Y.K.).
Neuro Oncol. 2016 Apr;18(4):528-37. doi: 10.1093/neuonc/nov184. Epub 2015 Sep 9.
Neurocutaneous melanocytosis (NCM) is characterized by clonal nevomelanocytic proliferations in the CNS and skin. Given the scarcity of effective therapeutic targets, testing new drugs requires a reliable and reproducible in vitro cellular model of the disease.
We generated nevomelanocytic spheroids in vitro from lesions of the spinal cord, brain, and skin from 4 NCM patients. Nevomelanocytic cells were grown as monolayers or spheroids and their growth characteristics were evaluated. Cultured cell identity was confirmed by demonstration of the same NRAS mutation found in the original lesions and by immunophenotyping. Nevomelanocytic spheroids were treated with inhibitors of specific mediators of the NRAS signaling pathway (vemurafenib, MEK162, GDC0941, and GSK2126458). Drug sensitivity and cell viability were assessed.
Cultured cells were growth-factor dependent, grew as spheroids on Geltrex matrix, and maintained their clonogenicity in vitro over passages. Skin-derived cells formed more colonies than CNS-derived cells. Inhibitors of specific mediators of the NRAS signaling pathway reduced viability of NRAS mutated cells. The highest effect was obtained with GSK2126458, showing a viability reduction below 50%.
NRAS mutated cells derived from clinical NCM samples are capable of continuous growth as spheroid colonies in vitro and retain their genetic identity. Drugs targeting the NRAS signaling pathway reduce in vitro viability of NCM cells. NCM lesional spheroids represent a new and reliable experimental model of NCM for use in drug testing and mechanistic studies.
神经皮肤黑素细胞增多症(NCM)的特征是中枢神经系统和皮肤中出现克隆性痣黑素细胞增殖。鉴于有效治疗靶点稀缺,测试新药需要一种可靠且可重复的该疾病体外细胞模型。
我们从4例NCM患者的脊髓、脑和皮肤病变中体外培养出痣黑素细胞球体。将痣黑素细胞培养成单层或球体,并评估其生长特性。通过证明在原始病变中发现的相同NRAS突变以及免疫表型分析来确认培养细胞的身份。用NRAS信号通路的特定介质抑制剂(维莫非尼、MEK162、GDC0941和GSK2126458)处理痣黑素细胞球体。评估药物敏感性和细胞活力。
培养的细胞依赖生长因子,在Geltrex基质上形成球体生长,并在传代过程中在体外保持其克隆性。皮肤来源的细胞比中枢神经系统来源的细胞形成更多的集落。NRAS信号通路特定介质的抑制剂降低了NRAS突变细胞的活力。GSK2126458的效果最为显著,细胞活力降低至50%以下。
源自临床NCM样本的NRAS突变细胞能够在体外作为球体集落持续生长,并保留其基因特征。靶向NRAS信号通路的药物降低了NCM细胞的体外活力。NCM病变球体代表了一种用于药物测试和机制研究的新型可靠的NCM实验模型。