Protective effects of ciliary neurotrophic factor on denervated skeletal muscle

Huang Shilong; Wang Fabin; Hong Guangxiang; Wan Shengxiang; Kang Hao

doi:10.1007/BF02857680

Current Medical Science ›› 2002, Vol. 22 ›› Issue (20) : 148 -151. DOI: 10.1007/BF02857680

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Protective effects of ciliary neurotrophic factor on denervated skeletal muscle

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Abstract

To study the effects of ciliary neurotrophic factor (CNTF) on denervated skeletal muscle atrophy and to find a new approach to ameliorate atrophy of denervated muscle, a model was established by cutting the right sciatic nerve in 36 Wistar mice, with the left side serving as control. Then they were divided into two groups randomly. CNTF (1 U/ml) 0.1 ml was injected into the right tibial muscle every day in experimental group, and saline was used into another group for comparison. The muscle wet weight, muscle total protein, Ca²⁺, physiological response and morphology were analyzed on the 7th, 14th and 28th day after operation. Our results showed that compared to control group, there was a significant increase in muscle wet weight, total protein, Ca²⁺, muscle fiber cross-section area in CNTF group (P<0.05). CNTF could ameliorate the decrease of tetanic tension (PO), post-tetanic twitch potentiation (PTP), and the prolonged muscle relaxation time (RT) caused by denervation (P<0.05). The motor end-plate areas 7 days and 14 days after denervation was similar (P>0.05), but significantly larger 28 days after the denervation (P<0.05). Our results suggest that CNTF exerts myotrophic effects by attenuating the morphological and functional changes associated with denervation of rat muscles and has protective effects on denervated muscle and motor end plate.

Keywords

peripheral nerve / skeletal muscle / atrophy

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Huang Shilong, Wang Fabin, Hong Guangxiang, Wan Shengxiang, Kang Hao. Protective effects of ciliary neurotrophic factor on denervated skeletal muscle. Current Medical Science, 2002, 22(20): 148-151 DOI:10.1007/BF02857680

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References

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[1]	GurneyM E, YamamotoH, KwonY. Induction of motor neuron sprouting in vivo by ciliary neurotrophic factor and basic fibroblast growth factor. J Neurosci, 1992, 12324-324

[2]	DavisS, AldrichT H, ValenzuelaD M. The receptor for ciliary neurotrophic factor. Science, 1991, 25359-59

[3]	WeisJ, LieD C, RagossU. Increased expression of CNTF receptor alpha in denervated human skeletal muscle. J Neuropathol Neurol, 1998, 57850-850

[4]	CardD J. Denervation: sequence of neuromuscular degenerative changes in rats and the effects of stimulation. Exp Neurol, 1997, 54251-251

[5]	BrimijoinS. FernandezHL, DonosoJA. Trophic roles of axoplasmic transport in nerve-muscle cell trophic communication, 1991, Boca Raton, Florida, CRC Press: 23-29

[6]	WheelerE F, BothwellM. Spatiotemporal patterns of expression of NGF receptor in rat embryos suggest functional roles in tissue morphogenesis and myogemesis. J Neurosci, 1992, 12930-930

[7]	FunakoshiH, BelluardoN, ArenasE, et al. . Muscle-derived neurotrophin-4 as an activity-dependent trophic signal for adult motor neurons. Science, 1995, 2681495-1495

[8]	FinkelsteinD I, BartlettP F, HorneM K. Leukemia inhibitory factor is a myotrophic and neurotrophic agent that enhance the reinnervation of muscle in the rat. J Neurosci Res, 1996, 46(1): 122-122

[9]	DavisS, AldrichT H, StahlN, et al. . LIFR beta and gp¹³⁰ as heterodimerizing singal transducers of the tripartite CNTF receptor. Science, 1993, 260(5115): 1805-1805

[10]	DavisH L, KiernanJ A. Effect of nerve extract on atrophy of denervated or immobilized muscles. Exp Neurol, 1981, 72582-582

[11]	DavisH L. Myotrophic effects on denervation atrophy of hindlimb muscles of mice with systemic administration of nerve extract. Brain Res, 1985, 343176-176