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1.
Partial sciatic nerve ligation in mice caused a marked and persistent decrease in the latency of paw withdrawal from a thermal stimulus only on the ipsilateral side. This thermal hyperalgesia was abolished by repeated intrathecal pretreatment with a specific antibody to brain-derived neurotrophic factor (BDNF), but not neurotrophin-4, just before and after the nerve ligation. These results provide direct evidence that BDNF within the spinal cord may contribute to the development of thermal hyperalgesia caused by nerve injury in mice. We previously reported that protein level of full-length TrkB, which contains the cytoplasmic protein tyrosine kinase domain, were clearly increased on the ipsilateral side of spinal cord membranes obtained from sciatic nerve-ligated mice. In the present study, we further demonstrated that the increased in the protein level of full-length TrkB is completely reversed by concomitant intrathecal injection of BDNF antibody. Furthermore, thermal hyperalgesia induced by nerve ligation was completely suppressed by repeated intrathecal injection of a specific antibody to full-length TrkB and an inhibitor of the protein tyrosine kinase activity for the neurotrophin receptor, K-252a. However, repeated intrathecal injection of a specific antibody to truncated TrkB, which lacks the cytoplasmic protein tyrosine kinase domain, failed to reverse thermal hyperalgesia observed in nerve-ligated mice. These findings suggest the possibility that the binding of BDNF to full-length TrkB and subsequent its activation may play a critical role in the development of neuropathic pain-like thermal hyperalgesia induced by nerve injury in mice.  相似文献   

2.
Several lines of evidence have shown that in some brain regions brain-derived neurotrophic factor (BDNF) is important for long-term potentiation (LTP), a synaptic model of memory storage. In the present work we evaluate the role of BDNF in LTP of C-fiber evoked field potentials in spinal dorsal horn, a synaptic model of pain memory. We found that spinal application of BDNF-induced LTP of C-fiber evoked field potentials with a long latency, lasting for > 8 h, and the effect was blocked by either tyrosine kinase inhibitor (K252a) or BNDF scavenger (TrkB-Fc). The potentiation produced by BDNF was occluded by late-phase LTP (L-LTP) but not by early-phase LTP (E-LTP) induced by electrical stimulation. Pretreatment of K252a or TrkB-Fc selectively blocked spinal L-LTP induced by low-frequency stimulation (LFS) but not E-LTP. BDNF-induced LTP was completely abolished by the protein synthesis inhibitor (anisomycin), by N-methyl-D-aspartate (NMDA) receptor blocker (MK-801), by extracellular signal-regulated protein kinase (ERK) inhibitor (PD98059) or by p38 mitogen-activated protein kinase (MAPK) inhibitor (SB203580) but not by c-Jun N-terminal kinase (JNK) inhibitor (SP600125). Nuclear factor-kappaB (NF-κB) inhibitor (PDTC) also suppressed spinal BDNF-LTP. The results suggest that BDNF play a crucial role in protein synthesis-dependent L-LTP in spinal dorsal horn via activation of ERK, p38 MAPK and NF-κB signal pathways.  相似文献   

3.
Xu JT  Xin WJ  Wei XH  Wu CY  Ge YX  Liu YL  Zang Y  Zhang T  Li YY  Liu XG 《Experimental neurology》2007,204(1):355-365
Compelling evidence shows that the adjacent uninjured primary afferents play an important role in the development of neuropathic pain after nerve injury. The underlying mechanisms, however, are largely unknown. In the present study, the selective motor fiber injury was performed by L5 ventral root transection (L5 VRT), and p38 activation in dorsal root ganglia (DRG) and L5 spinal dorsal horn was examined. The results showed that phospho-p38 immunoreactivity (p-p38-IR) was increased in both L4 and L5 DRGs, starting on day 1 and persisting for nearly 3 weeks (P<0.05) following L5 VRT and that the activated p38 was confined in neurons, especially in IB4 positive C-type neurons. L5 VRT also induced p38 activation in L5 spinal dorsal horn, occurred at the first day after the lesion and lasted for 2 weeks (P<0.05). The activated p38 is restricted entirely in spinal microglia. In contrast, selective injury of sensory neurons by L5 dorsal root transection (L5 DRT) failed to induce behavioral signs of neuropathic pain and activated p38 only in L5 DRG but not in L4 DRG and L5 spinal dorsal horn. Intraperitoneal injection of thalidomide, an inhibitor of TNF-alpha synthesis, prevented p38 activation in DRG and spinal cord. Intrathecal injection of p38 inhibitor SB203580, starting before L5 VRT, inhibited the abnormal pain behaviors. Post-treatment with SB203580 performed at the 1st day or at the 8th day after surgery also reduced established neuropathic pain. These data suggest that p38 activation in uninjured DRGs neurons and in spinal microglia is necessary for the initiation and maintenance of neuropathic pain induced by L5 VRT.  相似文献   

4.
C-fiber-evoked field potentials in response to electrical stimulation of the sciatic nerve were recorded in the dorsal horn of the rat lumbar spinal cord, and their long-term potentiation (LTP) was induced by high-frequency stimulation applied on the sciatic nerve as a synaptic model of hypersensitivity underlying an increased efficacy of nociceptive transmission. We evaluated the effect of gabapentin on the basal C-fiber-evoked field potentials and their established LTP. Intravenously administered gabapentin (10 and 30 mg/kg, i.v.) reduced the LTP of C-fiber-evoked field potentials in a dose-dependent manner when applied 60 min after establishment of the LTP. However, gabapentin did not affect the basal C-fiber-evoked field potentials or induction of the LTP. Thus, gabapentin was effective only in sensitized conditions. By contrast, morphine HCl (1 and 3 or 10 mg/kg, i.v.) reduced both the basal responses and their established LTP. The combination of gabapentin and morphine at lower doses of each drug appeared to result in a stronger reduction on the established LTP than that of each drug alone, suggesting that combination therapy can generate better analgesia in the treatment of chronic pain.  相似文献   

5.
Neuropathic pain is an expression of pathological operation of the nervous system, which commonly results from nerve injury and is characterized by pain hypersensitivity to innocuous stimuli, a phenomenon known as tactile allodynia. The mechanisms by which nerve injury creates tactile allodynia have remained largely unknown. We report that the development of tactile allodynia following nerve injury requires activation of p38 mitogen-activated protein kinase (p38MAPK), a member of the MAPK family, in spinal microglia. We found that immunofluorescence and protein levels of the dually phosphorylated active form of p38MAPK (phospho-p38MAPK) were increased in the dorsal horn ipsilateral to spinal nerve injury. Interestingly, the phospho-p38MAPK immunofluorescence in the dorsal horn was found exclusively in microglia, but not in neurons or astrocytes. The level of phospho-p38MAPK immunofluorescence in individual microglial cells was much higher in the hyperactive phenotype in the ipsilateral dorsal horn than the resting one in the contralateral side. Intrathecal administration of the p38MAPK inhibitor, 4-(4-fluorophenyl)-2-(4-methylsulfonylphenyl)-5-(4-pyridyl)-1H-imidazole (SB203580), suppresses development of the nerve injury-induced tactile allodynia. Taken together, our results demonstrate that nerve injury-induced pain hypersensitivity depends on activation of the p38MAPK signaling pathway in hyperactive microglia in the dorsal horn following peripheral nerve injury.  相似文献   

6.
Using the antibody microprobe method, the sites of spinal release of immunoreactive brain-derived neurotrophic factor (BDNF) was studied in normal rats, and rats with prior sciatic nerve transection. In normal rats, a significant basal release of immunoreactive BDNF was found in the superficial dorsal horn. Following sciatic nerve transection (performed 14 days previously), release of BDNF was found throughout the whole of the dorsal horn, extending into deeper laminae. Electrical stimulation of the ipsilateral sciatic nerve at a strength adequate to excite either A fibres (20 Hz at 2x threshold voltage) or A and C fibres (2 Hz at 20x threshold voltage) did not alter the basal release of immunoreactive BDNF in normal or in nerve-injured rats. The results suggest that BDNF is released from the central terminals of primary afferent fibres, but such release is not solely dependent upon action potential invasion of these terminals. The increased extent of release following nerve transection is consistent with the hypothesis that BDNF plays a role in the central response to peripheral nerve injury.  相似文献   

7.
Xing GG  Liu FY  Qu XX  Han JS  Wan Y 《Experimental neurology》2007,208(2):323-332
Our previous study has reported that electroacupuncture (EA) at low frequency of 2 Hz had greater and more prolonged analgesic effects on mechanical allodynia and thermal hyperalgesia than that EA at high frequency of 100 Hz in rats with neuropathic pain. However, how EA at different frequencies produces distinct analgesic effects on neuropathic pain is unclear. Neuronal plastic changes in spinal cord might contribute to the development and maintenance of neuropathic pain. In the present study, we investigated changes of spinal synaptic plasticity in the development of neuropathic pain and its modulation by EA in rats with neuropathic pain. Field potentials of spinal dorsal horn neurons were recorded extracellularly in sham-operated rats and in rats with spinal nerve ligation (SNL). We found for the first time that the threshold for inducing long-term potentiation (LTP) of C-fiber-evoked potentials in dorsal horn was significantly lower in SNL rats than that in sham-operated rats. The threshold for evoking the C-fiber-evoked field potentials was also significantly lower, and the amplitude of the field potentials was higher in SNL rats as compared with those in the control rats. EA at low frequency of 2 Hz applied on acupoints ST 36 and SP 6, which was effective in treatment of neuropathic pain, induced long-term depression (LTD) of the C-fiber-evoked potentials in SNL rats. This effect could be blocked by N-methyl-d-aspartic acid (NMDA) receptor antagonist MK-801 and by opioid receptor antagonist naloxone. In contrast, EA at high frequency of 100 Hz, which was not effective in treatment of neuropathic pain, induced LTP in SNL rats but LTD in sham-operated rats. Unlike the 2 Hz EA-induced LTD in SNL rats, the 100 Hz EA-induced LTD in sham-operated rats was dependent on the endogenous GABAergic and serotonergic inhibitory system. Results from our present study suggest that (1) hyperexcitability in the spinal nociceptive synaptic transmission may occur after nerve injury, which may contribute to the development of neuropathic pain; (2) EA at low or high frequency has a different effect on modulating spinal synaptic plasticities in rats with neuropathic pain. The different modulation on spinal LTD or LTP by low- or high-frequency EA may be a potential mechanism of different analgesic effects of EA on neuropathic pain. LTD of synaptic strength in the spinal dorsal horn in SNL rats may contribute to the long-lasting analgesic effects of EA at 2 Hz.  相似文献   

8.
Mitogen-activated protein kinase (MAPK) plays an important role in the induction and maintenance of neuropathic pain. Transforming growth factor-activated kinase 1 (TAK1), a member of the MAPK kinase kinase family, is indispensable for the activation of c-Jun N-terminal kinase (JNK) and p38 MAPK. We now show that TAK1 induced in spinal cord astrocytes is crucial for mechanical hypersensitivity after peripheral nerve injury. Nerve injury induced a striking increase in the expression of TAK1 in the ipsilateral dorsal horn, and TAK1 was increased in hyperactive astrocytes, but not in neurons or microglia. Intrathecal administration of TAK1 antisense oligodeoxynucleotide (AS-ODN) prevented and reversed nerve injury-induced mechanical, but not heat hypersensitivity. Furthermore, TAK1 AS-ODN suppressed the activation of JNK1, but not p38 MAPK, in spinal astrocytes. In contrast, there was no change in TAK1 expression in primary sensory neurons, and TAK1 AS-ODN did not attenuate the induction of transient receptor potential ion channel TRPV1 in sensory neurons. Taken together, these results demonstrate that TAK1 upregulation in spinal astrocytes has a substantial role in the development and maintenance of mechanical hypersensitivity through the JNK1 pathway. Thus, preventing the TAK1/JNK1 signaling cascade in astrocytes might provide a fruitful strategy for treating intractable neuropathic pain.  相似文献   

9.
Our recent study showed that peripheral inflammation induced an increased expression of brain-derived neurotrophic factor (BDNF) mRNA which was mediated by nerve growth factor (NGF) in the dorsal root ganglion (DRG). In the present study, we evaluated the change of BDNF immunoreactivity in the DRG and spinal cord following peripheral inflammation by means of immunohistochemistry. Significant increases in the percentage of BDNF-immunoreactive (IR) neuron profiles in the L5 DRG and marked elevation in the expression of BDNF-IR terminals in the spinal dorsal horn were observed following peripheral tissue inflammation produced by an intraplantar injection of Freund's adjuvant into the rat paws. These findings suggest that peripheral tissue inflammation induces an increased BDNF synthesis in the DRG and an elevated anterograde transport of BDNF to the spinal dorsal horn. The functional role of this increased BDNF was discussed briefly.  相似文献   

10.
11.
Activation of N-methyl-d-aspartate (NMDA) receptors in the spinal dorsal horn has been shown to be essential for the initiation of central sensitization and the hyperexcitability of dorsal horn neurons in chronic pain. However, whether the spinal NR2B-containing NMDA (NMDA-2B) receptors are involved still remains largely unclear. Using behavioral test and in vivo extracellular electrophysiological recording in L5 spinal nerve-ligated (SNL) neuropathic rats, we investigate the roles of spinal cord NMDA-2B receptors in the development of neuropathic pain. Our study showed that intrathecal (i.t.) injection of Ro 25-6981, a selective NMDA-2B receptor antagonist, had a dose-dependent anti-allodynic effect without causing motor dysfunction. Furthermore, i.t. application of another NMDA-2B receptor antagonist ifenprodil prior to SNL also significantly inhibited the mechanical allodynia but not the thermal hyperalgesia. These data suggest that NMDA-2B receptors at the spinal cord level play an important role in the development of neuropathic pain, especially at the early stage following nerve injury. In addition, spinal administration of Ro 25-6981 not only had a dose-dependent inhibitory effect on the C-fiber responses of dorsal horn wide dynamic range (WDR) neurons in both normal and SNL rats, but also significantly inhibited the long-term potentiation (LTP) in the C-fiber responses of WDR neurons induced by high-frequency stimulation (HFS) applied to the sciatic nerve. These results indicate that activation of the dorsal horn NMDA-2B receptors may be crucial for the spinal nociceptive synaptic transmission and for the development of long-lasting spinal hyperexcitability following nerve injury. In conclusion, the spinal cord NMDA-2B receptors play a role in the development of central sensitization and neuropathic pain via the induction of LTP in dorsal horn nociceptive synaptic transmission. Therefore, the spinal cord NMDA-2B receptor is likely to be a target for clinical pain therapy.  相似文献   

12.
Spinal cord injury (SCI) impairs sensory systems causing chronic allodynia. Mechanisms underlying neuropathic pain have been more extensively studied following peripheral nerve injury (PNI) than after central trauma. Microglial activation, pro-inflammatory cytokine production and activation of p38 MAP kinase pathways may induce at-level allodynia following PNI. We investigated whether midthoracic SCI elicits similar behavioral and cellular responses below the level of injury (lumbar spinal cord; L5). Importantly, we show that anatomical connections between L5 and supraspinal centers remain intact after moderate SCI allowing direct comparison to a well-established model of peripheral nerve injury. We found that SCI elicits below-level allodynia of similar magnitude to at-level pain caused by a peripheral nerve injury. Moreover, the presence of robust microglial activation in L5 cord predicted allodynia in 86% of rats. Also increased phosphorylation of p38 MAP kinase occurred in the L5 dorsal horn of allodynic rats. For below-level allodynia after SCI, TNF-α and IL-1β increased in the L5 dorsal horn by 7 dpo and returned to baseline by 35 dpo. Interestingly, IL-6 remains at normal levels early after SCI and increases at chronic time points. Increased levels of pro-inflammatory cytokines also occurred in the thalamus after SCI-induced allodynia. These data suggest that remote microglial activation is pivotal in the development and maintenance of below-level allodynia after SCI. Fractalkine, a known activator of microglia, and astrocytes were not primary modulators of below-level pain. Although the mechanisms of remote microglial activation are unknown, this response may be a viable target for limiting or preventing neuropathic pain after SCI in humans.  相似文献   

13.
The firing of neurones in spinal segments adjacent to a contusive T13 spinal cord injury was characterised in anaesthetised rats. Three groups of rats were examined: (1) allodynic spinally injured, (2) non-allodynic spinally injured and (3) normal, uninjured. Spinal cord field potentials evoked by electrical dorsal root stimulation and the responses of 207 dorsal horn neurones to mechanical stimuli applied to the skin were studied. Within the lesioned spinal segment few active neurones were encountered and field potentials were absent. Depolarising field potentials recorded rostral to the lesion were reduced in both allodynic and non-allodynic animals compared to uninjured controls, while those recorded in caudal segments were enhanced in allodynic animals. Neuronal recordings revealed that allodynia was associated with exaggerated responses, including afterdischarges, to innocuous and noxious mechanical stimuli in a proportion of wide dynamic range, but not low threshold, neurones. These changes were observed both rostral and caudal to the site of injury. The results suggest that an increased responsiveness of some dorsal horn neurones in segments neighbouring a contusive spinal cord injury may contribute to the expression of mechanical allodynia. It is proposed that a relative lack of inhibition underlies altered cell responses.  相似文献   

14.
Previous studies have shown that activation of p38 mitogen-activating kinase (MAPK) in spinal microglia participates in the generation of inflammatory and neuropathic pain in various rodent models. However, these studies focused on male mice to avoid confounding effects of the estrous cycle of females. Recent studies have shown that some spinal pro-inflammatory signaling such as Toll-like receptor 4-mediated signaling contributes to pain hypersensitivity only in male mice. In this study we investigated the distinct role of spinal p38 in inflammatory and neuropathic pain using a highly selective p38 inhibitor skepinone. Intrathecal injection of skepinone prevented formalin induced inflammatory pain in male but not female mice. Furthermore, intrathecal skepinone reduced chronic constriction injury (CCI) induced neuropathic pain (mechanical allodynia) in male mice on CCI-day 7 but not CCI-day 21. This male-dependent inhibition of neuropathic pain also occurred in rats following intrathecal skepinone. Nerve injury induced spinal p38 activation (phosphorylation) in CX3CR1-GFP+ microglia on CCI-day 7, and this activation was more prominent in male mice. In contrast, CCI induced comparable microgliosis and expression of the microglial markers CX3CR1 and IBA-1 in both sexes. Notably, intraperitoneal or local perineural administration of skepinone inhibited CCI-induced mechanical allodynia in both sexes of mice. Finally, skepinone only reduced the frequency of spontaneous excitatory postsynaptic currents (sEPSCs) in lamina IIo neurons of spinal cord slices of males 7 days post CCI. Therefore, the sex-specific p38 activation and signaling is confined to the spinal cord in inflammatory and neuropathic pain conditions.  相似文献   

15.
Studies have shown that retreatment of the distal stoma after nerve grafting can stimulate nerve regeneration. The present study attempted to verify the effects of reanastomosis of the distal stoma, after nerve grafting, on nerve regeneration by assessing brain-derived neurotrophic factor expression in 2-month-old rats. Results showed that brain-derived neurotrophic factor expression in L 2-4 dorsal root ganglia began to increase 3 days after autologous nerve grafting post sciatic nerve injury, peaked at 14 days, decreased at 28 days, and reached similar levels to the sham-surgery group at 56 days. Brain-derived neurotrophic factor expression in L 2-4 dorsal root ganglia began to increase 3 days after reanastomosis of the distal stoma, 59 days after autologous nerve grafting post sciatic nerve injury, significantly increased at 63 days, peaked at 70 days, and gradually decreased thereafter, but remained higher compared with the sham-surgery group up to 112 days. The results of this study indicate that reanastomosis of the distal stoma after orthotopic nerve grafting stimulated brain-derived neurotrophic factor expression in L 2-4 dorsal root ganglia.  相似文献   

16.
目的研究驽药针刺在大鼠脊髓损伤后运动功能变化以及BDNF表达的变化。方法采用脊髓半横断损伤模型。100只SD大鼠随机分为对照组、假手术组、脊髓损伤组、单纯针刺组、驽药针刺组,每组分为3天、7天、14天、21天共4个亚组,每组5只。BBB法评定大鼠后肢运动功能变化,免疫组化法检测大鼠脊髓中BDNF的表达变化。结果 BBB评分显示驽药针刺组的各时间点评分均高于脊髓损伤组(P0.05),驽药针刺组7、14、21d的BDNF表达均高于脊髓损伤组(P0.05),且与BBB评分呈正相关(r=0.717,P0.05)。结论驽药针刺可明显改善脊髓损伤大鼠的运动功能,并可明显促进大鼠脊髓损伤后BDNF的表达。  相似文献   

17.
Objective: A recent study showed that brain-derived neurotrophic factor (BDNF) may play a role in the development of the neuropathic pain resulting from injury to motor efferent fibres, such as that in the ventral root transection (VRT) model. Capsaicin stimulation of afferent fibres was also shown to result in the release of BDNF into the spinal cord. Here, the effects of ablation of capsaicin-sensitive primary afferents (CSPAs) by local application of capsaicin on the sciatic nerve on VRT-induced mechanical hyperalgesia were observed.

Methods: The paw withdrawal mechanical threshold (PWMT) was measured before and then 1 and 3 days and 1, 2, 3, 4 and 6 weeks after VRT.

Results: The results showed that local application of capsaicin significantly inhibited the decrease in the PWMT induced by VRT, suggesting the inhibitory effect of locally delivered capsaicin. Furthermore, intrathecal administration of exogenous BDNF not only produced mechanical hyperalgesia but also significantly blocked the inhibitory effect of capsaicin.

Conclusion: Taken together, the results of this study suggest that CSPA fibres may contribute to mechanical hyperalgesia in the VRT model.  相似文献   

18.
In the present study, we examined whether activation of p-38α MAPK modulates mechanical allodynia and neuronal hyperexcitability, and if propentofylline (PPF, a glial modulator) modulates specifically localized activated p-38α MAPK expression in caudal regions remote from a low thoracic hemisection injury in rats. T13 spinal hemisection produces bilateral mechanical allodynia in hindpaws with evoked (in response to mechanical stimuli) neuronal hyperexcitability in lumbar spinal wide dynamic range (WDR) neurons compared to sham controls. The mechanical allodynia and the evoked activity of WDR neurons is attenuated by intrathecal and topical administration of SB203580, an inhibitor of p-38 MAPK activation, dose dependently (p < 0.05); however, the spontaneous activity showed no significant differences compared to sham controls. After T13 spinal hemisection, significantly increased phosphorylated (activated form) p-38α MAPK expression was present in both superficial and deep dorsal horn neurons as well as in microglia, but not in astrocytes, in the lumbar spinal cord compared to sham controls (p < 0.05). Intrathecal application of PPF significantly attenuated the expression of phosphorylated p-38α MAPK in superficial dorsal horn neurons (10 mM) and in microglia (1 and 10 mM) in the lumbar spinal cord compared to the hemisection group (p < 0.05). In conclusion, our present data demonstrate that activated neuronal and microglial, but not astrocytic, p-38α MAPK contributes to the maintenance of neuronal hyperexcitability in caudal regions following spinal cord injury.  相似文献   

19.
Brain-derived neurotrophic factor (BDNF) released within the spinal cord induces phosphorylation of N-methyl-D-aspartate (NMDA) receptors on the spinal cord neurons. This process is necessary for maintaining pain hypersensitivity after nerve injury. However, little is known about the role of BDNF and NMDA receptors in cancer-induced bone pain (CIBP), whose features are unique. This study demonstrates a critical role of the BDNF-modulated NMDA subunit 1 (NR1) in the induction and maintenance of behavioral hypersensitivity in a rat model of CIBP, both in the spinal cord and in the dorsal root ganglia (DRG). We selectively suppressed BDNF expression by RNA interference (RNAi) using intrathecal administration of BDNF small interfering RNA (siRNA). Then, we assessed mechanical threshold and spontaneous pain in CIBP rats. Real-time PCR, Western blotting, and fluorescent immunohistochemical staining were used to detect BDNF or NR1 both in vivo and in vitro. BDNF and phospho-NR1 were expressed under CIBP experimental conditions, with expression levels peaking at day 6 (BDNF) or 9 (NR1). Intrathecal BDNF siRNA prevented CIBP at an early stage of tumor growth (days 4-6). However, at later stages (days 10-12), intrathecal BDNF siRNA only attenuated, but did not completely block, the established CIBP. BDNF-induced NMDA receptor activation in the spinal cord or DRG leads to central sensitization and behavioral hypersensitivity. Thus, BDNF might provide a targeting opportunity for alleviating CIBP.  相似文献   

20.
To elucidate the role of the degeneration of motor and sensory fibers in neuropathic pain, we examined the pain-related behaviors and the changes of brain-derived neurotrophic factor (BDNF) in the L4/5 dorsal root ganglion (DRG) and the spinal cord after L5 ventral rhizotomy. L5 ventral rhizotomy, producing a selective lesion of motor fibers, produced thermal hyperalgesia and increased BDNF expression in tyrosine kinase A-containing small- and medium-sized neurons in the L5 DRG and their central terminations within the spinal cord, but not in the L4 DRG. Furthermore, L5 ventral rhizotomy up-regulated nerve growth factor (NGF) protein in small to medium diameter neurons in the L5 DRG and also in ED-1-positive cells in the L5 spinal nerve, suggesting that NGF synthesized in the degenerative fibers is transported to the L5 DRG and increases BDNF synthesis. On the other hand, L5 ganglionectomy, producing a selective lesion of sensory fibers, produced heat hypersensitivity and an increase in BDNF and NGF in the L4 DRG. These data indicate that degeneration of L5 sensory fibers distal to the DRG, but not motor fibers, might influence the neighboring L4 nerve fibers and induce neurotrophin changes in the L4 DRG. We suggest that these changes of neurotrophins in the intact primary afferents of neighboring nerves may be one of many complex mechanisms, which can explain the abnormal pain behaviors after nerve injury. The ventral rhizotomy and ganglionectomy models may be useful to investigate the pathophysiological mechanisms of neuropathic pain after Wallerian degeneration in motor or sensory or mixed nerve.  相似文献   

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