Departamento de Química Biológica, CIQUIBIC, Facultad de Ciencias Químicas, Universidad Nacional de Córdoba, Pabellón Argentina, Ciudad Universitaria, 5000 Córdoba, Argentina.
Neurochem Res. 2012 Jun;37(6):1364-71. doi: 10.1007/s11064-012-0763-8. Epub 2012 Apr 5.
Some 20 years ago c-Fos was identified as a member of the AP-1 family of inducible transcription factors (Angel and Karin in Biochim Biophys Acta 1072:129-157, 1991). More recently, an additional activity was described for this protein: it associates to the endoplasmic reticulum and activates the biosynthesis of phospholipids (Bussolino et al. in FASEB J 15:556-558, 2001), (Gil et al. in Mol Biol Cell 15:1881-1894, 2004), the quantitatively most important components of cellular membranes. This latter activity of c-Fos determines the rate of membrane genesis and consequently of growth in differentiating PC12 cells (Gil et al. in Mol Biol Cell 15:1881-1894, 2004). In addition, it has been shown that c-Fos is over-expressed both in PNS and CNS tumors (Silvestre et al. in PLoS One 5(3):e9544, 2010). Herein, it is shown that c-Fos-activated phospholipid synthesis is required to support membrane genesis during the exacerbated growth characteristic of brain tumor cells. Specifically blocking c-Fos-activated phospholipid synthesis significantly reduces proliferation of tumor cells in culture. Blocking c-Fos expression also prevents tumor progression in mice intra-cranially xeno-grafted human brain tumor cells. In NPcis mice, an animal model of the human disease Neurofibromatosis Type I (Cichowski and Jacks in Cell 104:593-604, 2001), animals spontaneously develop tumors of the PNS and the CNS, provided they express c-Fos (Silvestre et al. in PLoS One 5(3):e9544, 2010). Treatment of PNS tumors with an antisense oligonucleotide that specifically blocks c-Fos expression also blocks tumor growth in vivo. These results disclose cytoplasmic c-Fos as a new target for effectively controlling brain tumor growth.
大约 20 年前,c-Fos 被鉴定为诱导型转录因子 AP-1 家族的成员(Angel 和 Karin 在 Biochim Biophys Acta 1072:129-157, 1991)。最近,人们又描述了该蛋白的另一种活性:它与内质网结合并激活磷脂的生物合成(Bussolino 等人在 FASEB J 15:556-558, 2001),(Gil 等人在 Mol Biol Cell 15:1881-1894, 2004),这是细胞膜的最重要的组成部分。c-Fos 的这种后一种活性决定了细胞膜生成的速度,从而决定了分化 PC12 细胞的生长速度(Gil 等人在 Mol Biol Cell 15:1881-1894, 2004)。此外,已经表明 c-Fos 在周围神经系统和中枢神经系统肿瘤中均过度表达(Silvestre 等人在 PLoS One 5(3):e9544, 2010)。本文表明,在脑肿瘤细胞特征性的过度生长过程中,c-Fos 激活的磷脂合成对于支持膜生成是必需的。具体地说,阻断 c-Fos 激活的磷脂合成可显著降低肿瘤细胞在培养中的增殖。阻断 c-Fos 表达也可防止颅内移植人脑肿瘤细胞的小鼠肿瘤进展。在 NPcis 小鼠中,一种人类神经纤维瘤病 I 型(Cichowski 和 Jacks 在 Cell 104:593-604, 2001)的疾病模型动物,只要它们表达 c-Fos(Silvestre 等人在 PLoS One 5(3):e9544, 2010),就会自发地发展为周围神经系统和中枢神经系统的肿瘤。用一种特异性阻断 c-Fos 表达的反义寡核苷酸治疗周围神经系统肿瘤也可阻止体内肿瘤生长。这些结果揭示了细胞质 c-Fos 作为有效控制脑肿瘤生长的新靶标。
