Guthrie O'neil W
Department of Communication Science and Disorders, University of Pittsburgh, Forbes Tower 4033, Pittsburgh, PA 15260, USA.
J Mol Histol. 2008 Dec;39(6):617-25. doi: 10.1007/s10735-008-9202-1. Epub 2008 Nov 1.
The excision nuclease reaction defends the genome from endogenous and exogenous mutagens. The rate-limiting step in the reaction is facilitated by preincision complex-1 (PIC-1). PIC-1 is maintained by xeroderma pigmentosum A and C (XPA and XPC) through protein-protein interactions and DNA binding. XPA and XPC exhibit high-affinity for DNA adducts from the anticancer molecule, cisplatin. Systemic cisplatin treatment results in ubiquitous DNA adducts in the cochlea. Cochleae harvested from patients treated with cisplatin reveal dead outer hair cells among normal spiral limbus cells. Such discrepancy, suggest differences in genome defense repertoire among cochlear cells. The purpose of this study was to use cisplatin as a stimulus to examine XPA and XPC immunoreactivity among outer hair cells and spiral limbus cells. Fischer344 rats were treated with either one or two cycles of cisplatin, where each cycle lasted four days and separated by a 10 day rest period. Cochleae were harvested after each treatment cycle and four days after the second treatment cycle then processed for immunohistochemistry. Unlike spiral limbus cells, outer hair cells failed to acclimate to the cisplatin treatment cycles by regulating XPA and XPC immunoreactivity. These results imply that outer hair cells may have a limited capacity to mobilize PIC-I beyond basal demand.
切除核酸酶反应可保护基因组免受内源性和外源性诱变剂的影响。反应中的限速步骤由切割前复合物1(PIC-1)促进。PIC-1由着色性干皮病A和C(XPA和XPC)通过蛋白质-蛋白质相互作用和DNA结合来维持。XPA和XPC对来自抗癌分子顺铂的DNA加合物具有高亲和力。全身顺铂治疗会导致耳蜗中普遍存在DNA加合物。从接受顺铂治疗的患者身上获取的耳蜗显示,在正常的螺旋缘细胞中有死亡的外毛细胞。这种差异表明耳蜗细胞之间的基因组防御机制存在差异。本研究的目的是使用顺铂作为刺激物,检查外毛细胞和螺旋缘细胞中XPA和XPC的免疫反应性。将Fischer344大鼠用一个或两个周期的顺铂进行治疗,每个周期持续四天,中间间隔10天的休息期。在每个治疗周期后以及第二个治疗周期后四天采集耳蜗,然后进行免疫组织化学处理。与螺旋缘细胞不同,外毛细胞无法通过调节XPA和XPC的免疫反应性来适应顺铂治疗周期。这些结果表明,外毛细胞动员PIC-1超出基础需求的能力可能有限。
