Modulation of low-affinity nerve growth factor receptor in injured adult rat spinal cord motoneurons

Spinal and brainstem motoneurons of the adult rat reexpress low-affinity nerve growth factor receptor (LNGFR) and its mRNA after axotomy. We have previously reported the time courses of this reexpression after cut (no regeneration) or crush (followed by regeneration) of the sciatic nerve. We have shown that the length of the different phases of this reexpression (appearance, maintenance and disappearance) can vary according to the type of axotomy. With the present study we expand our previous data and describe and analyze the modulation the LNGFR expression in adult spinal cord motoneurons following different lesion paradigms. In one approach we have imposed three traumatic injuries that still allow regeneration of the sciatic nerve but with a different time course with respect to the crush injury (application of a silicone regeneration chamber, multiple crushes and delayed repair of ligated nerves). In a second approach, we have determined the capability of three toxic or metabolic injuries to induce LNGFR expression without any direct trauma of the nerve (experimental diabetogenesis, botulinum and alpha-bungarotoxin intoxication and 2,5-hexanedione intoxication). In a third approach, we have investigated the effect of the block of the axoplasmic transport on the LNGFR expression following different topical applications of vincristine combined with a nerve crush. The results we present are consistent with the idea that: (1) LNGFR immunoreactivity in adult motoneurons is expressed by motoneurons that are attending to an axonal outgrowth and not a generic signal of cellular damage or impairment of the motor function; (2) LNGFR expression in these motoneurons is related to and parallels the outgrowth process time frame, and (3) the signal/s that trigger and sustain this reexpression may be retrogradely transported from the periphery. © 1993 Wiley-Liss, Inc.     

5-HT3 receptor antagonists inhibit sensory neuropeptide release from the rat spinal cord.

5-HT3 receptors may be present on primary afferent neurons containing substance P (SP), neurokinin A (NKA) or calcitonin gene-related peptide (CGRP). We investigated the release of SP-, NKA- and CGRP-immunoreactivities (IR) from rat spinal cord slices. Thirty mM potassium chloride caused an increased outflow of all three peptides, i.e. 140-190% of spontaneous release. This release was slightly enhanced in the presence of 3 x 10(-5) M 5-hydroxytryptamine (5-HT). In contrast, a significant inhibition of potassium-evoked, but not of basal NKA-IR and CGRP-IR release was observed when 10(-7) M BRL 43694 or ICS 205-930, two specific 5-HT3 receptor antagonists, were superfused together with 5-HT. In conclusion, 5-HT may facilitate the evoked release of peptides from central terminals of primary sensory neurons via 5-HT3 receptors.     

Distribution of serotonin 5-HT2A and 5-HT7 receptors in the Onuf''s nucleus of the rat spinal cord

BACKGROUND: Motoneurons from the Onuf's nucleus of the spinal cord, which innervate the striated muscle of the pelvic floor, play an important role in erection, ejaculation, and urine control. Serotonin (5-hydroxytryptamine, 5-HT) regulates motoneuron activity from the Onuf's nucleus of the spinal cord.However, few studies exist that describe 5-HT receptor distribution in the Onuf's nucleus. In addition, the nature of the effects of 5-HT receptor on the innervating striated muscle of the pelvic floor is controversial.OBJECTIVE: To investigate the distribution of serotonin 5-HT2A and 5-HT7 receptors in motoneurons of Onuf's nucleus in the spinal cord of male rats, and to analyze the relationship of 5-HT2A and 5-H7 receptors to central modulation of urogenital function.DESIGN, TIME AND SETTING: The neural morphology experiment was performed at the Ultramicrostructure Laboratory of Reproductive Medicine, Basic Medical College, Chongqing Medical University, China from April to December 2007.MATERIALS: Ten adult, Sprague Dawley rats (eight males and two females) were randomly divided into a gender control group (n = 4,50% male and 50% female) and a retrograde tracing group (n = 6, 100% male).Recombinant pseudorabies virus (PRV-152) was provided by Professor LW Enquist from Princeton University, USA. Rabbit anti-5-HT2A and 5-HT7 receptor antibodies were purchased from Diasorin, France.METHODS: In the gender control group, the spinal L5-6segments were harvested, sliced, and then incubated antibodies specific against 5-HT2A or 5-HT7 receptors for immunohistochemical staining. In the retrograde tracing group, PRV-152 was separately injected into the right ischiocavernosus (ischiocavernosus subgroup,n = 3) and the fight external urethral sphincter (external urethral sphincter subgroup, n = 3). Four days after injection, L5-6 segments were harvested, sliced, and incubated with antibodies specific against 5-HT2A or 5-HT7 receptors for double-labeling immunofluoresccnce staining.MAIN OUTCOME MEASURES: Distribution analysis of 5-HT2A and 5-Ht7 receptors in Onuf's nucleus utilizing optical or laser confocal microscopy.RESULTS: 5-HT2A receptor immunoreactivity was revealed primarily in the medial region of the dorsolateral nucleus of Onuf's nucleus. 5-HT7 receptor expression was observed in the lateral part of the dorsolateral nucleus. 5-HT2A and 5-HT7 receptor expressions in the Onuf's nucleus were significantly greater in male rats, compared to female rats. Double-labeling immunofluorescence demonstrated that 5-HT2A receptors were distributed primarily in the surrounding motoneurons innervating the ischiocavernosus, and 5-HT7 receptors were primarily expressed in motoneurons innervating the external urethral sphincter.CONCLUSION: Motoneurons innervating the ischiocavernosus and external urethral sphincter are located primarily in the medial and lateral region of the dorsolateral nucleus of L5-6 segments. The 5-HT2A receptor-innervating ischincavernosus may be preferentially involved in the regulation of sexual reflex, and the 5-HT7 receptor-innervating external urethral sphincter may mainly join in regulating micturition reflex.     

Transplantation of fetal spinal cord tissue into the chronically injured adult rat spinal cord

Transplants of fetal central nervous system (CNS) tissue into the acutely injured rat spinal cord have been demonstrated to differentiate and partially integrate with the adjacent host neuropil. In the present study, we examined the potential for applying a transplantation approach to chronic spinal cord lesions. In particular, we were interested in learning whether host-graft fusion would be adversely affected by an advanced histopathology characterized in part by glial scar formation. Hemisection cavities were prepared at lumbar levels of the adult rat spinal cord 2-7 weeks prior to the transplantation of spinal cord tissue obtained from 14-day rat fetuses. Graft survival, differentiation, and integration with the host spinal cord were subsequently evaluated by light microscopic techniques at post-transplantation intervals of 1-6 months. Immunocytochemistry was also employed to examine the extent of astrocytic scar formation at the host-graft interface and serotoninergic innervation of the grafts. In some other cases, anterograde and retrograde transport of wheat germ agglutinin-conjugated horseradish peroxidase was used to determine whether axonal projections were formed between the host spinal cords and grafts. By 2 weeks after injury the initial lesion cavities were surrounded by a continuous astrocytic scar which remained intact for at least 7 weeks after injury in nongrafted control animals. In other animals, transplantation into these advanced lesions resulted in well-differentiated grafts with a 90% long-term survival rate. Although dense gliosis was still present along the lesion surfaces of the recipient spinal cord, foci of confluent host-graft neuropil were observed where interruptions in the scar had occurred. Donor tissue integrated most often with the host spinal cord at interfaces with host gray matter; however, some implants also exhibited sites of fusion with damaged host white matter. Thus, some regions of confluent graft and host neuropil could be routinely identified, despite the presence of a dense glial scar along the walls of the chronic lesion site at the time of transplantation. Anterograde and retrograde tract-tracing results suggested that some axonal projections into these grafts had originated from host neurons located immediately adjacent to the donor-recipient interface. In addition, immunocytochemistry revealed some host serotoninergic axons (presumably of supraspinal origin) traversing nongliotic interfaces. The results of this study raise the possibility that grafted fetal CNS tissue has a capacity for stimulating partial regression of an established glial scar.(ABSTRACT TRUNCATED AT 400 WORDS)     

大鼠脊髓内5-HT2C,5-HT3,5-HT6和5-HT7受体亚型mRNAs的表达

目的:观察5-HT2C,5-HT3,5-HT6和5-HT7受体亚型mRNAs在大鼠脊髓不同节段的表达.方法:反转录PCR方法.结果:5-HT2C受体亚型mRNA在颈、胸、腰、骶段脊髓的背角(DH)和前角(VH)均有较强的表达;5-HT3受体mRNA在各节段脊髓DH的表达水平较高,而在VH则较低;与5-HT3受体亚型相反,5-HT6受体亚型mR-NA在脊髓VH的表达水平高于DH;5-HT7受体mRNA在脊髓的表达则与5-HT3受体相似,在各节段的DH均有较高水平的表达.不同的受体亚型在脊髓同一节段以及同一受体亚型在不同脊髓节段的表达水平存在差异.结论:本研究结果表明,上述四种5-HT受体亚型在脊髓具有不同的表达特点,提示它们在脊髓水平可能发挥着不同的生理作用,并为深入探讨5-HT受体参与伤害性感受和运动的调节机制提供了依据.     

Distribution of serotonin 5-HT2A and 5-HT7 receptors in the Onuf’s nucleus of the rat spinal cord*★

BACKGROUND：Motoneurons from the Onuf’s nucleus of the spinal cord, which innervate the striated muscle of the pelvic floor, play an important role in erection, ejaculation, and urine control. Serotonin （5-hydroxytryptamine, 5-HT） regulates motoneuron activity from the Onuf’s nucleus of the spinal cord. However, few studies exist that describe 5-HT receptor distribution in the Onuf’s nucleus. In addition, the nature of the effects of 5-HT receptor on the innervating striated muscle of the pelvic floor is controversial. OBJECTIVE： To investigate the distribution of serotonin 5-HT2A and 5-HT7 receptors in motoneurons of Onuf’s nucleus in the spinal cord of male rats, and to analyze the relationship of 5-HT2A and 5-HT7 receptor to central modulation of urogenital function. DESIGN, TIME AND SETTING： The neural morphology experiment was performed at the Ultramicro-structure Laboratory of Reproductive Medicine, Basic Medical College, Chongqing Medical University, China from April to December 2007. MATERIALS： Ten adult, Sprague Dawley rats （eight males and two females） were randomly divided into gender control group （n = 4, 50% male and 50% female） and a retrograde tracing group （n = 6, 100% male） Recombinant pseudorabies virus （PRV-152） was provided by Professor LW Enquist from Princeton University, USA. Rabbit anti-5-HT2A and 5-HT7 receptor antibodies were purchased from Diasorin, France. METHODS： In the gender control group, the spinal L5-6 segments were harvested, sliced, and then incubate antibodies specific against 5-HT2A or 5-HT7 receptors for immunohistochemical staining. In the retrograde tracing group, PRV-152 was separately injected into the right ischiocavernosus （ischiocavernosus subgroup, n = 3） and the right external urethral sphincter （external urethral sphincter subgroup, n = 3）. Four days after injection, L5-6 segments were harvested, sliced, and incubated with antibodies specific against 5-HT2A or 5-HT7 receptors for double-labeling immunofluorescence stain     

Androgen regulates synaptic input to motoneurons of the adult rat spinal cord

Adult male rats (Sprague-Dawley) were castrated and implanted subcutaneously with Silastic capsules containing testosterone or nothing. Sham-castrated males served as controls. Four weeks following castration, cholera toxin-horseradish peroxidase (CT-HRP) was injected bilaterally into the bulbocavernosus muscles and animals were sacrificed 2 d later. The spinal cords containing the spinal nucleus of the bulbocavernosus (SNB) were dissected, processed with a modified tetramethylbenzidine (TMB) method for visualization of retrogradely transported CT-HRP, and examined at the ultrastructural level. Neuronal structures apposing the membranes of 150 TMB-labeled SNB neurons were analyzed by measuring the percentage of somatic and proximal dendritic membranes covered by synaptic contacts, synaptoid contacts, and neuron-neuron contacts. Most of the neuronal structures in the control and experimental SNB motoneurons consisted of synaptic contacts. The mean percentage of somatic and proximal dendritic membranes covered by synapses 4 weeks after castration was reduced to approximately 30% of those in control animals. However, treatment with testosterone for 4 weeks after castration prevented this decline. Castration and testosterone treatment also influenced the size and number of synaptic contacts per unit length of somatic and proximal dendritic membranes, and the incidence of neuron-neuron contacts and double synapses onto SNB motoneurons. These results indicate that androgen is critical for maintaining the organization of synaptic inputs to these spinal motoneurons in adult male rats.     

5-HT precursor loading, but not 5-HT receptor agonists, increases motor function after spinal cord contusion in adult rats

Serotonergic (5-HT) receptors are upregulated following spinal cord transection. Stimulation by administration of serotonergic receptor agonists has been successful in improving hindlimb function. We tested whether this strategy would be successful in incomplete injury models (moderate or severe thoracic contusion) where descending projections are partially spared which should produce less denervation-induced receptor upregulation. Adult rats received midthoracic moderate (MOD: 25 mm drop) or severe (SEV: 50 mm drop) contusion injuries. Distribution of 5-HT and its transporter and expression of 5-HT_2C receptors were evaluated in lumbar spinal cord and motor response to 5-HT receptor activation was assessed using open field locomotion (BBB) score, percent weight supported treadmill stepping (%WS) and evaluation of hindlimb muscle activation (tremor and serotonin syndrome).5-HT immunostaining 3 months post-contusion revealed few 5-HT fibers caudal to the severe contusion, and more spared caudal to the moderate contusion. The distribution of 5-HT transporter paralleled 5-HT staining, but was more greatly reduced. Thus serotonin reuptake may be less efficient in the injured spinal cord. Immunostaining for the 5-HT_2C receptor in the dorsal and ventral horns at L5 showed significant upregulation in SEV, compared to sham or MOD rats.Neither 5-HT_2C nor 5-HT_1A receptor agonists, alone or in combination, nor the serotonin transporter inhibitor d-fenfluramine modified BBB scores or %WS in either group. Despite the increased sensitivity of post-synaptic targets, agonist treatment did not improve function in SEV rats. We conclude that selective 5-HT_2C or 5-HT_1A receptor activation was not effective in improving hindlimb function after incomplete lesions. In contrast, the 5-HT precursor 5-hydroxytryptophan (l-5-HTP), which leads to activation of all classes of 5-HT receptors, increased both %WS and hindlimb activity in the MOD group. While no side effects were observed in normal or MOD rats, SEV rats displayed hindlimb tremors and 33% mortality, indicating hypersensitivity to the precursor.     

Changes in 5-HT(7) serotonin receptor mRNA expression with aging in rat brain

We examined 5-HT(7) receptor mRNA expression with in situ hybridization histochemistry in the brains of young (3 months), middle-aged (12 months) and old rats (24 months). In the ventral CA3 area of the hippocampus 5-HT(7) mRNA expression is reduced by approximately 30% between young and middle age without further decline between middle and old age. In other brain areas 5-HT(7) mRNA expression is unaffected by age.     

Adenoviral gene transfer to the injured spinal cord of the adult rat

We have investigated gene transfer to the injured adult rat spinal cord by the use of a recombinant adenovirus. 105 or 5 x 106 plaque-forming units (pfu) of a replication-defective adenoviral vector carrying the green fluorescent protein (GFP) reporter gene were injected into a dorsal hemisection lesion at spinal level T8. Gene expression and inflammatory responses were studied 4, 8 and 21 days after surgery. Numerous cells within 3 mm on each side of the lesion were found to express high levels of GFP at 4 days after infection as shown by GFP fluorescence and immunohistochemistry. At 8 days, expression was still strong although weaker than at 4 days. After 21 days, transgene expression had almost ceased. Expression was neither higher nor more prolonged in animals that had received the higher vector dose. Delayed injection 1 week after spinal injury also did not increase transgene expression. Infected cell types were identified immunohistochemically. The most prominent transduced cells were spinal motoneurons. Additionally, we could identify other neurons, astrocytes, oligodendrocytes and peripheral cells infiltrating the lesion site. The glial and inflammatory reaction at and around the lesion was studied by cresyl violet histology, alpha-GFAP, OX42 and alpha-CD-8 immunohistochemistry. No significant differences from controls were found in the low virus group; in the high virus group a strong invasion of CD-8-positive lymphocytes was found. Open-field locomotion analysis showed virus-infected animals performing as well as control animals. Adenoviral gene transfer may be an efficient way to introduce factors to the injured spinal cord in paradigms of research or therapy.     

VGLUT1 and GLYT2 labeling of sacrocaudal motoneurons in the spinal cord injured spastic rat

Spasticity of the midline (axial) musculature may hinder (1) performing transfers, (2) efficient extremity and head movements, and (3) efficient respiration. Currently, gaps exist in our knowledge of the pathophysiology involved in spasticity development within the axial musculature. The goals of this study were (1) to study the effects of S(2) transection on the number and distribution of glutamatergic inputs, arising from primary afferents, and glycinergic inputs to sacrocaudal motoneurons; and (2) to correlate changes in these synaptic inputs with the development of spasticity within the tail musculature, which are the caudal counterparts to the trunk axial musculature. Animals with S(2) spinal transection were tested behaviorally using our established system. At 1, 2, 4, and 12 weeks post-injury, sacrocaudal motoneurons were retrogradely labeled with cholera toxin beta-subunit (CTB), and temporal changes in vesicular glutamate transporter 1 (VGLUT1) and glycine transporter 2 (GlyT2) inputs to CTB-labeled motoneurons were visualized using antibodies specific for each synaptic type and confocal microscopy. These time points correspond to each of 4 stages of spasticity development. There was no significant change in either VGLUT1 or GlyT2 labeling of sacrocaudal motoneurons at any of the time points examined. Spinal cord injury-induced spasticity, in the tail musculature, does not appear to involve either an increase in monosynaptic glutamatergic inputs from myelinated afferents or a decrease in glycinergic inputs to sacrocaudal motoneurons.     

Depletion of spinal 5-HT accelerates mechanosensory recovery in the deafferented rat spinal cord

Dorsal root injuries (DRIs), resulting in the permanent disconnection of nerve roots from the spinal cord, lead to sensory impairments, including both the loss of sensation and the development of neuropathic pain in the affected limb. DRI results in axonal sprouting of intraspinal serotonergic fibers, but the functional consequences of this response to spinal deafferentation remains unclear. Here we aimed to clarify the role of descending serotonergic projections in both mechanosensation and pain following DRI. By ablating serotonergic input to the spinal cord via 5,7-dihydroxytryptamine (5,7-DHT) prior to DRI in rats, we found that serotonergic input to the dorsal horn normally inhibits the recovery of mechanosensation but has no effect on the development or resolution of cold pain. Endogenous brain-derived neurotrophic factor (BDNF) is upregulated by activated microglia, is required for sprouting of serotonergic axons and neuropeptide tyrosine (NPY)-positive interneurons, and suppresses mechanosensory recovery following DRI. Intriguingly, we found that the density of activated microglia, the amount of BDNF protein, and density of NPY-positive processes were all significantly reduced in 5,7-DHT-treated rats, suggesting that serotonergic input to the deafferented dorsal horn is required for all of these consequences of spinal deafferentation. These results indicate that BDNF-dependent serotonergic and/or increases in NPY-positive fiber density slows, and ultimately halts, mechanosensory recovery following DRI.     

大鼠脊髓损伤后Nogo-A表达变化的免疫组织化学研究

目的观察大鼠脊髓损伤后不同时间点Nogo—A蛋白在脊髓的表达变化。方法大鼠分脊髓损伤组、假手术组和正常对照组。损伤动物存活1d、3d、7d后，分别进行Nogo—A抗体的免疫组织化学染色。结果损伤部位的灰质神经元和白质少突胶质细胞均呈明显的Nogo—A免疫阳性反应，随着损伤后存活时间的延长，两者的阳性反应细胞相对染色强度及数量均逐渐下降。结论脊髓损伤后，Nogo—A在灰质神经元有表达，其表达相对强度和表达细胞数量先明显增加，随后逐渐减少，与少突胶质细胞的表达变化相似。     

Differential expression of serotonin 5-HT2 receptors during rat embryogenesis

Serotonin (5-HT) is a neurotransmitter that also functions as a hormone and a growth factor. 5-HT is involved in numerous physiological actions and displays complex pharmacological properties. As a growth factor, 5-HT plays a role in cell proliferation and differentiation of neuronal and nonneuronal tissue and it transduces its signals through more than fourteen subtypes of 5-HT receptors. Since determination of the expression and distribution is important for understanding the role of the 5-HT receptors, we have developed an RNase protection assay (RPA) that allows the simultaneous analysis of 5-HT2AR, 5-HT2BR, and 5-HT2CR per sample of RNA. This multiprobe set also comprises probes for two house-keeping genes, L32 and GAPDH, which control for sample-loading errors. Using this RPA probe set, we have examined the relative expression of 5-HT2AR, 5-HT2BR, and 5-HT2CR in rat embryos inclusively from embryonic day (ED) 9 to 21 of development. Our data indicate that 5-HT2AR levels gradually increased from ED11 to ED21. The expression of 5-HT2BR was decreased between ED9 to ED11 then remained relatively constant through ED21. 5-HT2CR was initially expressed at residual levels between ED9 and ED12 but dramatically increased to a peak level at ED13, then decreased by ED17. Expression of the 5-HT2 receptors in these tissues was confirmed independently by RT-PCR indicating that there is developmental regulation in the expression of these receptors. The 5-HT2R multiprobe assay will be useful for detecting relative changes in the expression of these receptors in developmental, normal and pathological tissues as well as for monitoring relative changes in expression resulting from the use of pharmaceutical agents.     

Syngeneic grafting of adult rat DRG-derived schwann cells to the injured spinal cord

A subdural inflatable microballoon was used to induce closed traumatic contusion to adult rat spinal cord. This spinal cord injury model was associated with reproducible and graded neurological deficits and histopathological alterations. At various delays after injury, transplantations of syngeneic adult cultured dorsal root ganglion-derived Schwann cells were performed into the spinal cord lesion. The transplants were well integrated and reduced the microcystic posttraumatic cavitation as well as the gliosis. Schwann cells transplants were invaded by numerous regenerating neurites most of which, based upon their neurotransmitter contents, seem to originate from the dorsal root ganglion.     

5-HT(1A) and 5-HT(2A) serotonin receptor turnover in adult rat offspring prenatally exposed to cocaine

This study investigated the effects of prenatal exposure to cocaine on the intracellular kinetics (i.e. rate constant of receptor production and degradation) that govern the maintenance and regulation of cortical 5-HT(1A) and 5-HT(2A) receptor densities in offspring. Adult male rat offspring, prenatally exposed to saline or (-) cocaine (15 mg/kg, s.c., b.i.d, from gestational day 13 through 20), were injected with either vehicle or the irreversible receptor antagonist, EEDQ (10 mg/kg, s.c.), and sacrificed at various post-injection times to monitor the recovery of receptor densities in cerebral cortex. In both saline and cocaine exposed offspring, initial EEDQ-induced reductions (>80%) in 5-HT(1A) and 5-HT(2A) receptor densities were followed by a time-dependent repopulation that reached steady state ([B(max)](ss)) densities comparable to non-EEDQ treated controls by day 10 post-treatment. Calculation of 5-HT(1A) receptor kinetic parameters indicated that prenatal exposure to cocaine did not significantly alter: (1) the receptor production rate (saline: 0.809 fmol/mg protein/h; cocaine: 0.724 fmol/mg protein/h), (2) the receptor degradation rate constant (saline: 0.0063 h(-1); cocaine: 0.0062 h(-1)) or (3) the half-life (t(1/2)) of receptor repopulation (saline: 109.2 h; cocaine: 111.5 h). Similarly, 5-HT(2A) receptor rate constants for production (1. 550 fmol/mg protein/h) and degradation (0.0061 h(-1)) and consequently, t(1/2) (113.2 h), were not significantly altered by prenatal exposure to cocaine. These data suggest that within homogenates of cerebral cortex, prenatal exposure to cocaine did not alter the overall intracellular processes that underlie receptor production or degradation and determine steady state densities of 5-HT(1A) or 5-HT(2A) receptors.     

Properties of NMDA receptors in rat spinal cord motoneurons

Postnatal development and properties of N-methyl-d-aspartate (NMDA) receptors were studied with whole-cell and outside-out patch-clamp techniques in interneurons and fluorescence-labelled motoneurons in rat spinal cord slices. Both the absolute amplitude of NMDA-induced currents and currents normalized with respect to the motoneuron capacitance increased significantly at postnatal days 10-13 when compared to the responses evoked at postnatal days 2-3. The mean amplitude of the responses to kainate also increased in motoneurons of postnatal days 10-13. Single-channel currents induced by low concentrations of glutamate, exhibited four distinct amplitude levels corresponding to 19.2 +/- 2.4 pS, 38.4 +/- 3.5 pS, 56.3 +/- 2. 4 pS and 69.6 +/- 3.7 pS. In contrast, the conductance of single channels, recorded under identical conditions, in rat spinal cord interneurons was less, 15.3 +/- 3.2 pS, 29.9 +/- 5.4 pS, 46.7 +/- 4. 8 pS and 62.4 +/- 3.9 pS. The high (56/70 pS) conductance single-channel openings in motoneuron patches were sensitive to NMDA receptor inhibitors D-2-amino-5-phosphonovalerate, 7-chlorokynurenic acid and ifenprodil. Whole-cell NMDA-evoked currents were blocked in a voltage-dependent manner by extracellular Mg2+ with an apparent dissociation constant for Mg2+ binding at 0 mV of 1.8 +/- 0.5 mm. The conductance and relative distribution of NMDA receptor channel openings induced by 1 micrometer glutamate in patches isolated from the motoneurons were independent of age from postnatal day 4 to 14. The results suggest that the properties of NMDA receptor channels in motoneurons differ from those in spinal cord interneurons and cells transfected with NR1/NR2 subunits.     

Growth inhibitory factor prevents degeneration of injured adult rat motoneurons

We examined neuroprotective effects of growth inhibitory factor (GIF) on injured adult rat facial motoneurons. The right facial nerves of adult rats were avulsed and removed from the stylomastoid foramen, and an adenoviral vector encoding rat GIF and Myc epitope (AxCArGIFM) were injected into the facial canal. Animals treated with AxCArGIFM showed intense immunolabeling for GIF/Myc in injured facial motoneurons. Treatment with AxCArGIFM after avulsion significantly prevented the loss of injured facial motoneurons, improved choline acetyltransferase immunoreactivity and prevented the induction of nitric oxide synthase activity in these neurons. These results indicate that GIF may have therapeutic potential against degeneration of motoneurons in adult humans with motoneuron injury and motor neuron diseases.     

Metalloproteinase increases in the injured rat spinal cord

Up-regulation of matrix metalloproteinases MMP-9 and MMP-2 after injury to the spinal cord (SCI) is demonstrated. MMP-9 activity maximized at 12-24 h, and MMP-2 rose at 5 days post-injury. MMP-3 was not detectable by zymographic analysis, so its level of expression was, at most, very low. The level of tissue inhibitor of metalloproteinases in the spinal cord was not altered by injury, perhaps permitting increased MMP-9 and MMP-2 activities in situ. Ablating them with an antibody demonstrated that infiltrating neutrophils were the principal source of MMP-9 activity after spinal cord injury, suggesting that neutrophils utilize that proteinase in responding to spinal cord injury. MMP-9 and MMP-2 probably contribute to breakdown of the extracellular matrix following SCI.