Transcription factors in spinal dorsal root ganglion in rats recurrently infected with respiratory syncytial virus
- VernacularTitle:呼吸道合胞病毒感染大鼠脊髓背根节信号转录因子的研究
- Author:
Hongyi TAN
;
Pinhua PAN
;
Ranran ZHAO
;
Qingwu QIN
;
Hui WANG
;
Chengping HU
- Publication Type:Journal Article
- Keywords:
respiratory syncytial virus;
airway;
neuronal plasticity;
transcription factor;
protein/DNA array
- From:
Journal of Central South University(Medical Sciences)
2009;34(12):1189-1195
- CountryChina
- Language:Chinese
-
Abstract:
Objective To elucidate intracellular transcription factor activation of C_7~T_5 dorsal root ganglia in rats recurrently infected with respiratory syncytial virus (RSV). Methods Eighty 1~2 weeks old Sprague-Dawley rats were randomly divided into 2 groups: a control group and a RSV-infection group. The rats in the RSV-infection group were infected with 5 ×10~5 U/mL RSV once a week and the rats in the control group were treated with culture medium without RSV. Airway response was measured after 8 weeks. Lung tissue was submitted for HE staining and in situ hybridization. The C_7~T_5 dorsal root ganglia were obtained for the preliminary screening of the intracellular transcription factors by TranSignal~(TM) protein/DNA combo array. Nuclear protein of C_7~T_5 dorsal root ganglia were extracted and submitted to Western blot. Results Airway response in the RSV-infection group was higher than that in the control group (P<0.05). HE staining showed inflammatory cell infiltration, and in situ hybridization demonstrated positive RSV RNA in the RSV-infection rat lung which was not present in the control group, thus validating the efficacy of our model. TranSignalTM protein/DNA combo array screening showed that 55 transcription factors increased by at least 2 folds in the C_7~T_5 DRG cells of the RSV-infection group. The transcription factors Smad and interferon regulatory factor (1 or 2) were the 2 most upregulated transcription factors identified by combo array screening (59 and 43 fold increase compared with the control, respectively). Western blot confirmed Smad(1/2/3) and IRF-1 upregulate while IRF-2 remained unchanged. Conclusion Respiratory syncytial virus infection results in airway hyperresponsiveness and transcription factor activation in C7~T5 spinal adorsal root ganglia in rats, which may contribute to airway nerve network dysfunction and airway hyperresponsiveness.
