Ma Jianjun, Shen Jian, Garrett Jeffrey P, Lee Cassandra A, Li Zhongyu, Elsaidi Gamal A, Ritting Andrew, Hick Jeffrey, Tan Kim H, Smith Thomas L, Smith Beth P, Koman L Andrew
Department of Orthopaedic Surgery, Wake Forest University Health Sciences, Medical Center Boulevard, Winston Salem, North Carolina 27157, USA.
J Orthop Res. 2007 Nov;25(11):1498-505. doi: 10.1002/jor.20414.
Neuromuscular junction destabilization following nerve injury contributes to irreversible functional impairment. Myogenic Regulatory Factors (MRF's) including myoblast determination factor (MyoD), MRF-4, Myogenin, and myogenic factors-5 (myf-5), and Growth-associated protein 43 KDa (GAP43) regulate gene expression of nicotinic acetylcholine receptor (nAChR) subunits (alpha, beta, delta, gamma, and epsilon). We hypothesized that nerve injury induces altered gene expression of MRF's, nAChRs, and GAP-43 in the skeletal muscle which destabilize neuromuscular junctions. The tibial nerve was transected in 42 juvenile male Sprague-Dawley rats. Denervated and contralateral control gastrocnemius m. mRNA for nAChR subunits, MRF's, and GAP-43 were determined by real time reverse transcription polymerase chain reaction (real time RT-PCR). After transection, muscle mass decreased for 1 year with a nadir of 75% at 3 months. Alpha, gamma, and epsilon subunit genes increased by 3 and peaked at 7 days before returning to control levels (P < 0.05). Beta subunits and GAP-43 tended to increase. Delta subunits peaked at 3 days returning to control levels by 30 days. By one month, most of the nAChR subunits had returned to control levels. Alpha, beta, gamma, and delta subunit expression remained significantly lower than control up to 1 year later (P < 0.05). MRF4, Myogenin, and MyoD expression paralleled that of alpha, gamma, and epsilon nAChR subunits (P < 0.05). Gene expression of nAChR alpha, gamma, delta and epsilon subunits was biphasic in the first month after nerve injury, similar to that of MRF's. nAChR subunits and MRF's may play a critical role in neuromuscular junction stability.
神经损伤后神经肌肉接头的不稳定会导致不可逆的功能损害。包括成肌细胞决定因子(MyoD)、MRF-4、生肌调节因子和生肌因子-5(myf-5)在内的生肌调节因子(MRF)以及生长相关蛋白43千道尔顿(GAP43)调节烟碱型乙酰胆碱受体(nAChR)亚基(α、β、δ、γ和ε)的基因表达。我们推测神经损伤会诱导骨骼肌中MRF、nAChR和GAP-43的基因表达改变,从而使神经肌肉接头不稳定。在42只幼年雄性Sprague-Dawley大鼠中切断胫神经。通过实时逆转录聚合酶链反应(实时RT-PCR)测定去神经支配侧和对侧对照腓肠肌中nAChR亚基、MRF和GAP-43的mRNA。切断神经后,肌肉质量在1年内下降,3个月时降至最低点,为75%。α、γ和ε亚基基因在3天时增加,并在7天时达到峰值,然后恢复到对照水平(P<0.05)。β亚基和GAP-43有增加的趋势。δ亚基在3天时达到峰值,30天时恢复到对照水平。到1个月时,大多数nAChR亚基已恢复到对照水平。直到1年后,α、β、γ和δ亚基的表达仍显著低于对照水平(P<0.05)。MRF4、生肌调节因子和MyoD的表达与α、γ和ε nAChR亚基的表达平行(P<0.05)。神经损伤后的第一个月,nAChRα、γ、δ和ε亚基的基因表达呈双相变化,与MRF的变化相似。nAChR亚基和MRF可能在神经肌肉接头稳定性中起关键作用。
