Timing of c-jun protein induction in lumbar dorsal root ganglia after sciatic nerve transection varies with lesion distance

In situ hybridization and immunohistochemical studies have shown that sciatic nerve crush or transection induces upregulation of the immediate early gene c-jun mRNA and protein in lumbar dorsal root ganglion neurons. Here we have used enhanced chemiluminescent (ECL) immunoblotting as a sensitive and quantitative way of measuring the time course of c-jun protein induction following sciatic nerve transection at two distances from the L4 and L5 dorsal root ganglia. c-Jun protein was first detected within 3 h of proximal sciatic nerve transection and within 6 h of distal nerve transection. These results indicate substantially earlier increases in c-jun protein after nerve injury than previously reported, which can be attributed to the sensitivity of this detection method. The earlier induction of c-jun after proximal as compared to distal nerve transection supports the hypothesis that the c-jun response to sciatic nerve injury involves a distance-dependent signalling mechanism. © 1997 Elsevier Science B.V. All rights reserved.     

Neuron-enriched cultures of adult rat dorsal root ganglia: establishment, characterization, survival, and neuropeptide expression in response to trophic factors

It is unknown whether adult dorsal root ganglion (DRG) neurons require trophic factors for their survival and maintenance of neuropeptide phenotypes. We have established and characterized neuron-enriched cultures of adult rat DRGs and investigated their responses to nerve growth factor (NGF), ciliary neuronotrophic factor (CNTF), pig brain extract (PBE, crude fraction of brain-derived neuronotrophic factor, BDNF), and laminin (LN). DRGs were dissected from levels C1 through L6 and dissociated and freed from myelin fragments and most satellite (S-100-immunoreactive) cells by centrifugation on Percoll and preplating. The enriched neurons, characterized by their morphology and immunoreactivity for neuron-specific enolase, constituted a population representative of the in vivo situation with regard to expression of substance P (SP), somatostatin (SOM), and cholecystokinin-8 (CCK) immunoreactivities. In the absence of trophic factors and using polyornithine (PORN) as a substratum, 60-70% of the neurons present initially (0.5 days) had died after 7 days. LN as a substratum did not prevent a 30% loss of neurons up to day 4.5, but it subsequently maintained DRG neurons at a plateau. This behavior might reflect a cotrophic effect of LN and factors provided by non-neuronal cells, whose proliferation between 4.5 and 7 days could not be prevented by addition of mitotic inhibitors of gamma-irradiation. CNTF, but not NGF, slightly enhanced survival at 7 days on either PORN or LN. No neuronal losses were found in non-enriched cultures or when enriched neurons were supplemented with PBE, indicating that non-neuronal cells and PBE provide factor(s) essential for adult DRG neuron survival. Proportions of SP-, SOM-, and CCK-immunoreactive cells were unaltered under any experimental condition, with the exception of a numerical decline in SP cells in 7-day cultures with LN, but not PORN, as the substratum. Our data, considered in the context of recent in vivo and vitro studies, suggest that a combination of trophic factors or an unidentified factor, rather than the established molecules NGF, CNTF, and BDNF, which address embryonic and neonatal DRG neurons, are required for the in vitro maintenance of adult DRG neurons.     

Purification and culture of adult rat dorsal root ganglia neurons

To study the trophic requirements of adult rat dorsal root ganglia neurons (DRG) in vitro, we developed a purification procedure that yields highly enriched neuronal cultures. Forty to fifty ganglia are dissected from the spinal column of an adult rat. After enzymatic and mechanical dissociation of the ganglia, myelin debris are eliminated by centrifugation on a Percoll gradient. The resulting cell suspension is layered onto a nylon mesh with a pore size of 10 microns. Most of the neurons, the diameter of which ranged from 17 microns to greater than 100 microns, are retained on the upper surface of the sieve; most of the non-neuronal cells with a caliber of less than 10 microns after trypsinization go through it. Recovery of neurons is achieved by reversing the mesh onto a Petri dish containing culture medium. Neurons to non-neurons ratio is 1 to 10 in the initial cell suspension and 1 to 1 after separation. When these purified neurons are seeded at a density of 3,000 neurons/cm2 in 6 mm polyornithine-laminin (PORN-LAM) coated wells, neuronal survival (assessed by the ability to extend neurites), measured after 48 hr of culture, is very low (from 0 to 16%). Addition of nerve growth factor (NGF) does not improve neuronal survival. However, when neurons are cultured in the presence of medium conditioned (CM) by astrocytes or Schwann cells, 60-80% of the seeded, dye-excluding neurons survive. So, purified adult DRG neurons require for their short-term survival and regeneration in culture, a trophic support that is present in conditioned medium from PNS or CNS glia.(ABSTRACT TRUNCATED AT 250 WORDS)     

Cell loss in lumbar dorsal root ganglia and transganglionic degeneration after sciatic nerve resection in the rat

The effects of sciatic nerve resection on lumbar dorsal root ganglion cells and their central branches have been studied in the adult rat. A quantitative analysis of the lumbar dorsal root ganglia indicated a 15–30% cell loss on the operated side. Argyrophilia indicating transganglionic degeneration was observed in Fink-Heimer stained sections from the lumbar spinal cord and the brainstem. The areas of degeneration argyrophilia were mainly located in the medial part of the ipsilateral L2–L6 dorsal horn laminae I–IV, the tract of Lissauer, the dorsal funiculus and the gracile nucleus. A few degenerating fibers could also be observed in the ipsilateral dorsal horn laminae V and VI, and in the ipsilateral ventral horn as well as in the contralateral dorsal and the gracile nucleus. The results confirm and extend previous findings at other levels and in other species. This suggests that cell loss and transganglionic degeneration may be general phenomena affecting a substantial proportion of primary sensory neurons following peripheral nerve injury.     

Neurite outgrowth and GAP-43 mRNA expression in cultured adult rat dorsal root ganglion neurons: Effects of NGF or prior peripheral axotomy

Adult dorsal root ganglion (DRG) cells are capable of neurite outgrowth in vivo and in vitro after axotomy. We have investigated, in cultured adult rat DRG cells, the relative influence of nerve growth factor (NGF) or a prior peripheral nerve lesion on the capacity of these neurons to produce neurites. Since there is evidence suggesting that the growth-associated protein GAP-43 may play a crucial role in axon elongation during development and regeneration, we have also compared the effect of these treatments on GAP-43 mRNA expression. NGF increased the early neurite outgrowth in a subpopulation of DRG cells. This effect was substantially less, however, than that resulting from preaxotomy, which initiated an early and profuse neurite outgrowth in almost all cells. No difference in the expression of GAP-43 mRNA was found between neurons grown in the presence or absence of NGF over 1 week of culture, in spite of the increased growth produced by NGF. In contrast, cultures of neurons that had been preaxotomized showed substantial increase in GAP-43 mRNA and NGF had, as expected, a significant effect on substance P mRNA levels. Two forms of growth may be present in adult DRG neurons: an NGF-independent, peripheral nerve injury-provoked growth associated with substantial GAP-43 upregulation, and an NGF-dependent growth that may underlie branching or sprouting of NGF-sensitive neurons, but which is not associated with increased levels of GAP-43 mRNA. © 1994 Wiley-Liss, Inc.     

110/140 laminin-binding protein immunoreactivity in spinal dorsal root ganglia: A capsaicin-insensitive reduction induced by constriction injury of the sciatic nerve in rats

The distribution of 110/140 laminin-binding protein (110/140 LBP) in the spinal dorsal root ganglia (DRG) and its regulation by partial constriction of the sciatic nerve was studied in adult rats. The cross-sectional area of neurons with 110/140 LBP-immunoreactivity (?I) showed an approximately normal frequency distribution. The 110/140 LBP-I was observed in neuronal cell bodies exclusive of the nucleus. Following sciatic nerve constriction, the 110/140 LBP-I was downregulated in the ipsilateral L4-5 DRG. DRG neurons with a cross-sectional area ≥ 1600 μm² were preferentially affected. Neonatal capsaicin-treatment, a procedure that selectively destroys a subpopulation of DRG neurons with fine unmyelinated axons, had no effect on the reduction of 110/140 LBP in the DRG induced by sciatic nerve constriction. Western immunoblot analysis confirmed a reduction of 110/140 LBP on the side ipsilateral to the constriction. These results demonstrate a LBP within primary sensory neurons and its suppression by peripheral nerve injury. The data support a role for LBP in the adult nervous system.© 1993 WiIey-Liss, Inc.

1 This article is a US Government work and, as such, is in the public domain in the Unitcd States oC America.

     

Incorporation of [P]phosphate into nucleotides of the dorsal root ganglia of regenerating rat sciatic nerve

[³²P]Phosphate incorporation into nucleotides of the dorsal root ganglia (DRG) was studied after a crush lesion of the rat sciatic nerve. DRG were labelled during a 2-h, in vitro incubation in a balanced salt solution containing [³²P]orthophosphate, 1,2,4 and 8 days after the crush lesion. Nucleotides were analyzed by HPLC on an ion-exchange column. An increased incorporation of ³²P was found among in DRG of the injured nerve for all the studied time periods. This increase was unevenly distributed among the nucleotides. UTP, CTP and ADP showed the largest and most persistent increases in labelling. The specific activity of 4 analyzed nucleotides (ATP, ADP, UTP and CDP) remained constant in DRG from crushed nerves. Thus, the observed increase in ³²P-labelling could not solely be due to an increased uptake of label but must also reflect an enhanced metabolism of nucleotides in regenerating DRG. The finding that alterations of nucleotide metabolism could be observed within one day after the crush lesion suggests that this response can be used as a valuable tool for studies of the initial events of regeneration.     

尼莫地平对急性损伤后大鼠背根节细胞c-fos、c-jun mRNA表达的影响

目的探讨钙离子拮抗剂尼莫地平对急性外周神经损伤后大鼠背根神经节c—fos、c-junmRNA表达的影响。方法建立大鼠坐骨神经切断模型,利用逆转录一聚合酶链反应（RT—PCR）半定量法,检测经尼莫地平预处理的大鼠在制模后不同时间（5min、15min、30min、60min、120min）,以及同一时间（60min）应用不同剂量（2．5mg／kg、5mg／kg、10mg／kg）尼莫地平时大鼠背根神经节c—fos、c-junmRNA的表达水平的变化。结果与对照组比较,损伤组c-fos mRNA表达于损伤后30min、60min、120min,c-jun mRNA表达于损伤后15min、30min、60min、120min显著升高（均P〈0．05）;而尼莫地平组与对照组各时间点c—fos、c-jun mRNA表达比较差异无统计学意义。与损伤组比较,尼莫地平组c—los、c-jun mRNA表达于30min、60min、120min明显降低（均P〈0．001）。不同剂量尼莫地平预处理后,c—fos mRNA的表达随尼莫地平剂量的增加而逐渐减少,各剂量组问比较差异有统计学意义（均P〈0．05）,c—fos mRNA表达水平与用药剂量呈负相关（r=-2．663,P〈0．05）;c-jun mRNA表达各剂量组问比较差异无统计学意义,亦无剂量相关性。结论急性外周神经损伤时应用钙离子拮抗剂尼莫地平,早期通过抑制c—fos、c-jun mRNA的表达,对外周神经损伤有一定的保护作用。     

trkB-like immunoreactivity in rat dorsal root ganglia following sciatic nerve injury

The expression of full-length trkB protein, the functional high affinity receptor for BDNF and NT-4, was examined by immunohistochemistry in adult rat L4–L5 dorsal root ganglia after different types of sciatic nerve lesions. In normal ganglia, 52.5% of the neurons showed trkB-like immunoreactivity. Size measurements demonstrated that trkB-like immunoreactivity was seen predominantly in small- and medium-sized cells. This was confirmed by the finding that 28% of all trkB-positive neurons showed affinity to RT97, an antibody which lanels a neurofilament epitope specific for medium-sized and large primary afferent neurons. After crush, section or neuroma formation of the sciatic nerve, the proportion of trkB-positive cells was 64.5%, 58% and 61.9%, respectively. Since trkB-receptors are present in regenerating primary afferent neurons, these data could indicate that BDNF and/or NT-4 are involved in sensory nerve fiber regeneration after adult injury.     

Fatty acid binding protein is induced in neurons of the dorsal root ganglia after peripheral nerve injury

Peripheral nerve trauma induces the expression of genes presumed to be involved in the process of nerve degeneration and repair. In the present study, an in vivo paradigm was employed to identify molecules which may have important roles in these processes. A cDNA library was constructed with RNA extracted from rat dorsal root ganglia (DRG) 3 days after a sciatic nerve crush. After differential hybridization to this library, several cDNAs were identified that encoded mRNAs that were upregulated in the DRG ipsilateral to the crush injury, as opposed to the contralateral or naive DRG. Approximately 0.15% of all the clones screened were found to be induced. This report presents the types of induced sequences identified and characterizes one of them, DA11. The 0.7 kb DA11 full length cDNA clone contains a 405 nucleotide open reading frame that encodes a putative protein of 15.2 kDa (135 amino acid residues) and is a member of the family of fatty acid binding proteins (FABP). The DA11 protein differs by one amino acid residue from the sequence of the C-FAPB protein and by eight residues from the sequence of mal1, proteins found in rat and mouse skin, respectively. Northern and Western blot analyses showed that the DA11 mRNA and protein were induced in the injured DRG. Furthermore, studies using antibodies generated against DA11 found that the DA11-like immunoreactivity was more pronounced in the nuclei of neurons located in the DRG ipsilateral to the sciatic cut than those located in the contralateral DRG. The induction of DA11 mRNA and protein in DRG neurons suggests, for the first time, the involvement of a neuronal FABP in the process of degeneration and repair in the nervous system. © 1996 Wiley-Liss, Inc.     

Substance P and calcitonin gene-related peptide expression in dorsal root ganglia in sciatic nerve injury rats

The neuropeptides, substance P and calcitonin gene-related peptide, have been shown to be involved in pain transmission and repair of sciatic nerve injury. A model of sciatic nerve defect was prepared by dissecting the sciatic nerve at the middle, left femur in female Sprague Dawley rats. The two ends of the nerve were encased in a silica gel tube. L5 dorsal root ganglia were harvested 7, 14 and 28 days post sciatic nerve injury for immunohistochemical staining. Results showed that substance P and cal- citonin gene-related peptide expression increased significantly in dorsal root ganglion of rats with sci- atic nerve injury. This increase peaked at 7 days, declined at 14 days, and reduced to normal levels by 28 days post injury. The findings indicate that the neuropeptides, substance P and calcitonin gene- related peptide, mainly increased in the early stages after sciatic nerve injury.     

Reorganization of central terminals of myelinated primary afferents in the rat dorsal horn following peripheral axotomy

We have investigated the time course and extent to which peripheral nerve lesions cause a morphological reorganization of the central terminals of choleragenoid-horseradish peroxidase (B-HRP)-labelled primary afferent fibers in the mammalian dorsal horn. Choleragenoid horseradish peroxidase is retrogradely transported by myelinated (A) sensory axons to laminae I, III, IV and V of the normal dorsal horn of the spinal cord, leaving lamina II unlabelled. We previously showed that peripheral axotomy results in the sprouting of numerous B-HRP labelled large myelinated sensory axons into lamina II. We show here that this spread of B-HRP-labelled axons into lamina II is detectable at 1 week, maximal by 2 weeks and persists for over 6 months postlesion. By 9 months, however, B-HRP fibers no longer appear in lamina II. The sprouting into lamina II occurs whether regeneration is allowed (crush) or prevented (section with ligation), and does not reverse at times when peripheral fibers reinnervate the periphery. We also show that 15 times more synaptic terminals in lamina II are labelled by B-HRP 2 weeks after axotomy than in the normal. We interpret this as indicating that the sprouting fibers are making synaptic contacts with postsynaptic targets. This implies that A-fiber terminal reorganization is a prominent and long-lasting but not permanent feature of peripheral axotomy. We also provide evidence that this sprouting is the consequence of a combination of an atrophic loss of central synaptic terminals and the conditioning of the sensory neurons by peripheral axotomy. The sprouting of large sensory fibers into the spinal territory where postsynaptic targets usually receive only small afferent fiber input may bear on the intractable touch-evoked pain that can follow nerve injury. © 1995 Wiley-Liss, Inc.     

Differential expression of annexins I-VI in the rat dorsal root ganglia and spinal cord

The annexins are a family of Ca²⁻-dependent phospholipid-binding proteins. In the present study, the spatial expression patterns of annexins I-VI were evaluated in the rat dorsal root ganglia (DRG) and spinal cord (SC) by using indirect immunofluorescence. Annexin I is expressed in small sensory neurons of the DRG, by most neurons of the SC, and by ependymal cells lining the central canal. Annexin II is expressed by most sensory neurons of the DRG but is primarily expressed in the SC by glial cells. Annexin III is expressed by most sensory neurons, regardless of size, by endothelial cells lining the blood vessels, and by the perineurium. In the SC, annexin III is primarily expressed by astrocytes. In the DRG and the SC, annexin IV is primarily expressed by glial cells and at lower levels by neurons. In the DRG, annexin V is expressed in relatively high concentrations in small sensory neurons in contrast to the SC, where it is expressed mainly by ependymal cells and by small-diameter axons located in the superficial laminae of the dorsal horn areas. Annexin VI is differentially expressed by sensory neurons of the DRG, being more concentrated in small neurons. In the SC, annexin VI has the most striking distribution. It is concentrated subjacent to the plasma membrane of motor neurons and their processes. The differential localization pattern of annexins in cells of the SC and DRG could reflect their individual biological roles in Ca²⁻-signal transduction within the central nervous system. © 1996 Wiley-Liss, Inc.     

Neuronal loss in lumbar dorsal root ganglia after proximal compared to distal sciatic nerve resection: a quantitative study in the rat

The effects of unilateral sciatic nerve resections at proximal (thigh) or distal (proximal calf) locations on L4-L6 dorsal root ganglion (DRG) neuronal numbers have been studied in adult rats. Proximal nerve resection gave rise to a mean DRG neuronal loss of 27%, whereas in distal lesions a mean cell loss of 7% was found. This difference in cell loss between proximal and distal sciatic nerve resections is highly significant (P less than 0.001).     

Satellite-cell-derived nerve growth factor and neurotrophin-3 are involved in noradrenergic sprouting in the dorsal root ganglia following peripheral nerve injury in the rat

Injury to a peripheral nerve induces in the dorsal root ganglia (DRG) sprouting of sympathetic and peptidergic terminals around large-diameter sensory neurons that project in the damaged nerve. This pathological change may be implicated in the chronic pain syndromes seen in some patients with peripheral nerve injury. The mechanisms underlying the sprouting are not known. Using in situ hybridization and immunohistochemical techniques, we have now found that nerve growth factor (NGF) and neurotrophin-3 (NT3) synthesis is upregulated in satellite cells surrounding neurons in lesioned DRG as early as 48 h after nerve injury. This response lasts for at least 2 months. Quantitative analysis showed that the levels of mRNAs for NT3 and NGF increased in ipsilateral but not contralateral DRG after nerve injury. Noradrenergic sprouting around the axotomized neurons was associated with p75-immunoreactive satellite cells. Further, antibodies specific to NGF or NT3, delivered by an osmotic mini-pump to the DRG via the lesioned L5 spinal nerve, significantly reduced noradrenergic sprouting. These results implicate satellite cell-derived neurotrophins in the induction of sympathetic sprouting following peripheral nerve injury.     

Alteration of P2X3 expression in dorsal root ganglia after sciatic nerve ligation

BACKGROUND: The expressions of P2X3 receptor in dorsal root ganglia (DRG) after different peripheral nerve injuries are diverse. It indicates the different roles of P2X3 in different models-caused neuropathologic pains. OBJECTIVE: To observe the expressions of P2X3 in corresponding DRG after sciatic nerve ligation in rats. DESIGN: Controlled observation experiment. SETTING: Department of Morphology, Hunan Traditional Chinese Medical College; Department of Human Anatomy and Neurobiology, Xiangya Medical College, Central South University. MATERIALS: Thirty-five healthy adult SD rats of clean grade an d either gender, weighing （200±20）g, were involved. According to the random digits table, the involved rats were randomized into 3 groups: normal group (n =5), sham-operated group (n =5) and experimental group (n =25). The experimental group were subdivided into 3,7,14,21,28 days groups according to different surviving time after operation, 5 rats at each time point. Polyclonal rabbit anti-P2X3 antibody (ABCAM company); biotinylated goat anti-rabbit IgG (Zhongshanjingqiao Biotechnical Co., Ltd., Beijing); Motic fluorescence microscope (Motic, Germany). METHODS: The experiments were carried out in the Department of Human Anatomy and Neurobiology, Xiangya Medical College, Central South University from June to December 2006. ① Rats of experimental group were created into models by ligation of right sciatic nerve according to the method of Seltzer et al. Left sciatic nerve was used as self-control. As for rats in the sham-operated group, ligation of sciatic nerve was omitted, but other procedures were the same as those in the experimental group. Rats of normal group were untouched. ② Rats of the normal group and sham-operated group survived for 14 days separately, and those of experimental group survived for corresponding time. After being deeply anesthetized by intraperitoneal injection of over-dose sodium pentobarbital, the rats of experimental group were transcardially perfused. L4–6 corresponding DRG connected to sciatic nerve were taken for preparing transverse sections serially. ③P2X3 expression in L4–6 DRG was detected by immunohistochemistry, immunofluorescence and image analysis techniques. MAIN OUTCOME MEASURES: P2X3 expression in L4–6 DRG of rats in each group. RESULTS: Thirty-five SD rats were involved in the final analysis. ① P2X3 expression in DRG: In normal DRG of rats, there were abundant P2X3 immuno-positive small- and medium-sized primary sensory neurons, especially the small ones, which mostly received the input from C fibers. There were only a few large neurons expressing P2X3. The immuno-positive products mostly were located in the cytoplasm and processes. The expression of P2X3 had a slight but significant decrease in ipsilateral L4–6 DRG 3 days after sciatic nerve ligation, and a decreasing tendency was observed with the elongation of time. At 28 days, the expression had not returned to base line, and still maintained at a low level. ② P2X3 immuno-positive gray scale in DRG: P2X3 immuno-positive gray scale in ipsilateral side L4–6 DRG was 117.74±2.38,129.12±4.86,133.56±3.79,148.75±6.90 and 150.49±5.15, respectively at 3,7,14, 21 and 28 days after sciatic nerve ligation, which was significantly higher than that in the normal group and sham-operated group （105.11±3.52,104.22±5.41,F =78.861,P < 0.05）, also significantly higher than that in the contralateral side （105.53±5.85,108.54±3.70,104.07±4.16,106.55±2.02,106.29±5.19,t =3.48–13.95,P < 0.05）; There were no significant differences when comparing sham-operated group or contralateral side at each time point with normal group (P > 0.05) CONCLUSION: P2X3 is significantly down regulated in L4–6 DRG after sciatic nerve ligation. It may exert certain effects in neuropathic pain.     

Thrombospondin expression in nerve regeneration I. comparison of sciatic nerve crush, transection, and long-term denervation

Patterns of expression of the extracellular matrix molecule thrombospondin (TSP) were examined during peripheral nerve regeneration following sciatic nerve crush or transection. In noninjured nerve, was present in the axoplasm, Schwann cells, endoneurium, and perineurium of the adult mouse sciatic nerve. Following nerve crush or nerve transection, levels of TSP rapidly increased distal to the trauma site. Elevated levels of TSP were present distal to regenerating axons, while expression gradually returned to normal proximal to the regenerating axons. When reinnervation was blocked, TSP levels remained high in the endoneurium in excess of 30 days, but TSP was absent by 60 days. Following reanastomosis of the proximal and distal segments after 60 days of denervation, TSP was re-expressed in the distal nerve stump. These results indicate that TSP, which is involved in neuronal migrations in the embryo and neurite outgrowth in vitro, appears to play a role in axonal regeneration in the adult peripheral nervous system.