Effects of Long-term Conduction Block on Membrane Properties of Reinnervated and Normally Innervated Rat Skeletal Muscle

Overview

Journal J Physiol

Specialty Physiology

Date 1996 Dec 1

PMID 8961187

Citations 11

Authors

E Pasino

M Buffelli

O Arancio

G Busetto

A Salviati

A Cangiano

Affiliations

Soon will be listed here.

Abstract

1. Do motoneurons regulate muscle extrajunctional membrane properties through chemical (trophic) factors in addition to evoked activity? We addressed this question by comparing the effects of denervation and nerve conduction block by tetrodotoxin (TTX) on extrajunctional acetylcholine (ACh) sensitivity and action potential resistance to TTX in adult rats. 2. We applied TTX to sciatic or tibial nerves for up to 5 weeks using an improved blocking technique which completely suppresses conduction but avoids nerve damage. 3. Reinnervation by TTX-blocked axons had no effect on the high ACh sensitivity and TTX resistance induced by nerve crush. 4. Long-lasting block of intact nerves (up to 38 days) induced extrajunctional changes as pronounced as after denervation. At shorter times (3 days), however, denervation induced much larger changes than TTX block; such a difference is thus only transiently present in muscle. 5. The effects of long-lasting block were dose dependent. Dose levels (6.6 micrograms day-1) corresponding to those used in the literature to block the rat sciatic nerve induced muscle effects much smaller than those induced by denervation, confirming published data. Our novel finding is that equal effects are obtained using doses substantially higher (up to 10.5 micrograms day-1). For the soleus it was necessary in addition to apply the TTX directly to the smaller tibial nerve. 6. The TTX-blocked nerves were normal in their histological appearance and capacity to transport anterogradely 3H-labelled proteins, to release ACh in quantal and non-quantal form or cluster ACh receptors and induce functional ectopic junctions on denervated soleus muscles. 7. We conclude that muscle evoked activity is the physiological regulator of extrajunctional membrane properties. Chemical factors from the nerve do not appear to participate in this regulation. The stronger response to denervation at short times only is best accounted for by factors produced by degenerating nerves.

Citing Articles

The Response of Denervated Muscle to Long-Term Stimulation (1985, Revisited here in 2014).

Lomo T Eur J Transl Myol. 2016; 24(1):3294.

PMID: 26913126 PMC: 4749002. DOI: 10.4081/ejtm.2014.3294.

Spike timing plays a key role in synapse elimination at the neuromuscular junction.

Favero M, Busetto G, Cangiano A Proc Natl Acad Sci U S A. 2012; 109(25):E1667-75.

PMID: 22619332 PMC: 3382556. DOI: 10.1073/pnas.1201147109.

Activity-dependent modulation of glutamatergic signaling in the developing rat dorsal horn by early tissue injury.

Li J, Walker S, Fitzgerald M, Baccei M J Neurophysiol. 2009; 102(4):2208-19.

PMID: 19675290 PMC: 2775379. DOI: 10.1152/jn.00520.2009.

Expression of small-conductance calcium-activated potassium channels (SK3) in skeletal muscle: regulation by muscle activity.

Favero M, Jiang D, Chiamulera C, Cangiano A, Fumagalli G J Physiol. 2008; 586(19):4763-74.

PMID: 18703580 PMC: 2614046. DOI: 10.1113/jphysiol.2008.156588.

Rat motoneuron properties recover following reinnervation in the absence of muscle activity and evoked acetylcholine release.

Bichler E, Carrasco D, Rich M, Cope T, Pinter M J Physiol. 2007; 585(Pt 1):47-56.

PMID: 17884931 PMC: 2375469. DOI: 10.1113/jphysiol.2007.135541.

References

Spector S . Trophic effects on the contractile and histochemical properties of rat soleus muscle. J Neurosci. 1985; 5(8):2189-96. PMC: 6565289. View

Brown M, Hopkins W, Keynes R . Comparison of effects of denervation and botulinum toxin paralysis on muscle properties in mice. J Physiol. 1982; 327:29-37. PMC: 1225094. DOI: 10.1113/jphysiol.1982.sp014217. View

St-Pierre D, Gardiner P . Effect of "disuse" on mammalian fast-twitch muscle: joint fixation compared with neurally applied tetrodotoxin. Exp Neurol. 1985; 90(3):635-51. DOI: 10.1016/0014-4886(85)90161-x. View

Koenig J, Oren M, Melone M . Establishment of neuromuscular contacts in cultures of rat embryonic cells: effect of tetrodotoxin on maturation of muscle fibers and on formation and maintenance of acetylcholinesterase and acetylcholine receptor clusters. Dev Neurosci. 1982; 5(4):314-25. DOI: 10.1159/000112691. View

Taxt T . Local and systemic effects of tetrodotoxin on the formation and elimination of synapses in reinnervated adult rat muscle. J Physiol. 1983; 340:175-94. PMC: 1199204. DOI: 10.1113/jphysiol.1983.sp014757. View

Cohen M, Greschner M, Tucci M . In vivo development of cholinesterase at a neuromuscular junction in the absence of motor activity in Xenopus laevis. J Physiol. 1984; 348:57-66. PMC: 1199391. DOI: 10.1113/jphysiol.1984.sp015099. View

Cangiano A, Magherini P, Pasino E, Pellegrino M, Risaliti R . Interaction of inactivity and nerve breakdown products in the origin of acute denervation changes in rat skeletal muscle. J Physiol. 1984; 355:345-65. PMC: 1193495. DOI: 10.1113/jphysiol.1984.sp015423. View

Sun Y, Poo M . Non-quantal release of acetylcholine at a developing neuromuscular synapse in culture. J Neurosci. 1985; 5(3):634-42. PMC: 6565028. View

Cangiano A . Denervation supersensitivity as a model for the neural control of muscle. Neuroscience. 1985; 14(4):963-71. DOI: 10.1016/0306-4522(85)90268-4. View

10.

Lomo T, Pockett S, Sommerschild H . Control of number and distribution of synapses during ectopic synapse formation in adult rat soleus muscles. Neuroscience. 1988; 24(2):673-86. DOI: 10.1016/0306-4522(88)90360-0. View

11.

Tsujimoto T, Kuno M . Calcitonin gene-related peptide prevents disuse-induced sprouting of rat motor nerve terminals. J Neurosci. 1988; 8(10):3951-7. PMC: 6569617. View

12.

Grinnell A, Gundersen C, Meriney S, Young S . Direct measurement of ACh release from exposed frog nerve terminals: constraints on interpretation of non-quantal release. J Physiol. 1989; 419:225-51. PMC: 1190006. DOI: 10.1113/jphysiol.1989.sp017871. View

13.

Gundersen K . Spontaneous activity at long-term silenced synapses in rat muscle. J Physiol. 1990; 430:399-418. PMC: 1181744. DOI: 10.1113/jphysiol.1990.sp018298. View

14.

Witzemann V, Brenner H, Sakmann B . Neural factors regulate AChR subunit mRNAs at rat neuromuscular synapses. J Cell Biol. 1991; 114(1):125-41. PMC: 2289058. DOI: 10.1083/jcb.114.1.125. View

15.

Yang J, Sladky J, Kallen R, Barchi R . TTX-sensitive and TTX-insensitive sodium channel mRNA transcripts are independently regulated in adult skeletal muscle after denervation. Neuron. 1991; 7(3):421-7. DOI: 10.1016/0896-6273(91)90294-a. View

16.

Brown M, Booth C, Lunn E, Perry V . Delayed response to denervation in muscles of C57BL/Ola mice. Neuroscience. 1991; 43(1):279-83. DOI: 10.1016/0306-4522(91)90435-q. View

17.

Betz W, Mao F, Bewick G . Activity-dependent fluorescent staining and destaining of living vertebrate motor nerve terminals. J Neurosci. 1992; 12(2):363-75. PMC: 6575621. View

18.

Arancio O, Buffelli M, Cangiano A, Pasino E . Nerve stump effects in muscle are independent of synaptic connections and are temporally correlated with nerve degeneration phenomena. Neurosci Lett. 1992; 146(1):1-4. DOI: 10.1016/0304-3940(92)90157-3. View

19.

Hall Z, Sanes J . Synaptic structure and development: the neuromuscular junction. Cell. 1993; 72 Suppl:99-121. DOI: 10.1016/s0092-8674(05)80031-5. View

20.

Ribchester R . Co-existence and elimination of convergent motor nerve terminals in reinnervated and paralysed adult rat skeletal muscle. J Physiol. 1993; 466:421-41. PMC: 1175486. View