Journal of neurocytology
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Journal of neurocytology · Apr 2000
Calcitonin gene-related peptide, substance P and protein gene product 9.5 immunoreactive axonal fibers in the rat footpad skin following partial sciatic nerve injuries.
Chronic constriction injury (CCI) and partial ligation (PSNL) of the sciatic nerve induce a similar neuropathic pain syndrome in rats. We examined calcitonin gene-related peptide (CGRP), substance P (SP) and protein gene product (PGP) 9.5 immunoreactive (IR) axons in the footpad skin after the two types of injury. Four and 14 days after CCI, CGRP- and SP-IR axons in the ipsilateral footpad skin disappeared in most rats, but in one third, sparse CGRP- and SP-IR fibers remained. ⋯ In contrast, 4 days after PSNL, CGRP-, SP-, and PGP-IR axons in the ipsilateral footpad skin were present, though significantly reduced in density, in all rats, and by 14 days all IR fiber densities in the footpad skin partially recovered. The loss of CGRP and SP axons in the footpad skin of the CCI model suggests that sensory nerves containing neuropeptides are not essential in transducing stimuli applied to the footpad skin into neuropathic pain, but the abnormal PGP-IR unmyelinated axons in thick fiber fascicles might play a role. The partial loss and rapid recovery of IR axons in the footpad skin after PSNL shows that the two injury models, causing similar behaviors, are associated with very different patterns of cutaneous innervation at the time when the pain syndrome is well developed.
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Journal of neurocytology · Aug 1999
Tooth pulp tissue promotes neurite outgrowth from rat trigeminal ganglia in vitro.
The mammalian tooth pulp becomes innervated by nociceptive and sympathetic axons relatively late during development, when part of the root has formed. In the adult, regenerating axons from an injured tooth nerve or sprouting axons from uninjured nerves in the vicinity rapidly reinnervate denervated tooth pulps. These observations indicate that tooth pulp tissue can use molecular factors to attract pulpal axons from local nerve trunks. ⋯ Unexpectedly, application of antibodies against NGF, BDNF and/or GDNF to co-cultures of ganglionic and pulpal explants did not inhibit neuritogenesis. Control experiments showed that IgG molecules readily penetrate the gel used for culture and that even very high concentrations of NGF and GDNF antibodies in combination failed to block neurite growth. On the basis of these data we suggest that other as yet unknown neurite-promoting factors might be present and active in TG/pulpal co-cultures.
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Journal of neurocytology · Mar 1997
Presynaptic terminals in hyaline cells of normal and overstimulated chick inner ears.
Hyaline cells are non-sensory epithelial cells of the vibrating part of the basilar membrane of chicks; they receive an extensive efferent innervation. Although these anatomical features suggest roles in auditory transduction, very little is known about the function of these cells. One possible way to understand function is by lesion experiments. ⋯ Using neurofilament-specific antibodies we found little or no trauma-induced change in the density of nerve fibres that cross the basilar papilla and reach the hyaline cell region. This finding suggested that trauma to the hair cells does not necessarily lead to changes in the efferent fibres that cross the papilla and extend into the hyaline cell region. Using the trauma and the morphological parameters studied here, it appears that a moderate lesion in the hair cell region in the avian inner ear does not influence the hyaline cells or their innervation.
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Journal of neurocytology · May 1996
Alterations in neuromuscular junction morphology during fast-to-slow transformation of rabbit skeletal muscles.
Chronic low frequency stimulation of motor nerves results in transformation of muscle fibre phenotype from fast- to slow-twitch. We examined the light and electron microscopic structure of neuromuscular junctions in normally fast twitch muscles, tibialis anterior and extensor digitorum longus of rabbit after 3 weeks of stimulation to determine whether synaptic structure is also modified during fibre type transformation. Neuromuscular junctions of stimulated and unstimulated (control) tibialis anterior and extensor digitorum longus muscles and unstimulated slow twitch soleus muscle were visualized with rhodamine-conjugated alpha-bungarotoxin. ⋯ Neuromuscular junctions of stimulated tibialis anterior and extensor digitorum longus muscles exhibit some features characteristic of normal soleus neuromuscular junctions, indicating structural adaptations consistent with the altered muscle fibre phenotype. On the other hand, neuromuscular junctions of 3 week stimulated tibialis anterior and extensor digitorum longus and their synaptic branches remain as thin and continuous as those of unstimulated controls, suggesting that the transformation of neuromuscular junctions towards a morphology characteristic of slow muscle, is only partial. These results demonstrate that an altered pattern of impulse activity cause significant synaptic remodelling in adult rabbit skeletal muscles.
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Journal of neurocytology · Feb 1996
Peripheral nerve explants grafted into the vitreous body of the eye promote the regeneration of retinal ganglion cell axons severed in the optic nerve.
We have conducted experiments in the adult rat visual system to assess the relative importance of an absence of trophic factors versus the presence of putative growth inhibitory molecules for the failure of regeneration of CNS axons after injury. The experiments comprised three groups of animals in which all optic nerves were crushed intra-orbitally: an optic nerve crush group had a sham implant-operation on the eye; the other two groups had peripheral nerve tissue introduced into the vitreous body; in an acellular peripheral nerve group, a frozen/thawed teased sciatic nerve segment was grafted, and in a cellular peripheral nerve group, a predegenerate teased segment of sciatic nerve was implanted. The rats were left for 20 days and their optic nerves and retinae prepared for immunohistochemical examination of both the reaction to injury of axons and glia in the nerve and also the viability of Schwann cells in the grafts. ⋯ In the optic nerves of all groups the astrocyte, microglia and macrophage reactions were similar. Moreover, oligodendrocytes and myelin debris were also uniformly distributed throughout all nerves. Our results suggest either that none of the above elements inhibit CNS regeneration after perineuronal neurotrophin delivery, or that the latter, in addition to mobilising and maintaining regeneration, also down regulates the expression of axonal growth cone-located receptors, which normally mediate growth arrest by engaging putative growth inhibitory molecules of the CNS neuropil.