Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0030567 (Parkinson's disease)
 63,064 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To determine whether neurturin (NTN), a recently identified homologue of glial cell line-derived neurotrophic factor (GDNF), is able to preserve tyrosine hydroxylase immunoreactivity (TH-IR) in a rat model of Parkinson's disease, polymer encapsulated cells genetically engineered to release NTN were implanted near the substantia nigra 1 week before a unilateral medial forebrain bundle axotomy. Animals were allowed to survive for 1 week post-axotomy. Upon sacrifice, animals that received a NTN capsule had a significantly higher percentage of TH-IR (lesioned side vs non-lesioned side) than animals that had received a capsule containing non-transfected parent cells. However, in contrast to GDNF, no reduction of turning was observed upon amphetamine rotation with NTN. Nevertheless, these results suggest that NTN might have a therapeutic value for the treatment of Parkinson's disease.
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PMID:Neurturin protects dopaminergic neurons following medial forebrain bundle axotomy. 966 7

Glial cell line-derived neurotrophic factor (GDNF) was first discovered as a potent survival factor for midbrain dopaminergic neurons and was then shown to rescue these neurons in animal models of Parkinson's disease. GDNF is a more potent survival factor for dopaminergic neurons and the noradrenergic neurons of the locus coeruleus than other neurotrophic factors, and an almost 100 times more efficient survival factor for spinal motor neurons than the neurotrophins. The members of the GDNF family, GDNF, neurturin (NTN), persephin (PSP), and artemin (ART), have seven conserved cysteine residues with similar spacing, making them distant members of the transforming growth factor-beta (TGF-beta) superfamily. Like the members of the neurotrophin family, the GDNF-like growth factors belong structurally to the cysteine knot proteins. Like neurotrophins, GDNF family proteins are responsible for the development and maintenance of various sets of sensory and sympathetic neurons but, in addition, GDNF and NTN are also responsible for the development and survival of the enteric neurons, and NTN for parasympathetic neurons. All neurotrophins bind to the p75 low-affinity receptor, but their ligand specificity is determined by trk receptor tyrosine kinases. GDNF, NTN, PSP, and ART mediate their signals via a common receptor tyrosine kinase, Ret, but their ligand specificity is determined by a novel class of glycosylphosphatidylinositol (GPI)-anchored proteins called the GDNF family receptor alpha (GFR alpha). GDNF binds preferentially to GFR alpha1, NTN GFR alpha2, ART GRF alpha3, and PSP GFR alpha4 as a co-receptor to activate Ret. GFR alpha4 has until now been described only from chicken. Although the GDNF family members signal mainly via Ret receptor tyrosine kinase, there is recent evidence that they can also mediate their signals via GFR alpha receptors independently of Ret. The GDNF family of growth factors, unlike neurotrophins, has a well-defined function outside the nervous system. Recent transgenic and organ culture experiments have clearly demonstrated that GDNF is a mesenchyme-derived signaling molecule for the promotion of ureteric branching in kidney development. NTN, ART, and PSP are also expressed in the developing kidney, and NTN and PSP induce ureteric branching in vitro, but their true in vivo role in kidney morphogenesis is still unclear.
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PMID:Other neurotrophic factors: glial cell line-derived neurotrophic factor (GDNF). 1038 22

Glial cell line-derived neurotrophic factor (GDNF) family, consisting of GDNF, neurturin, artemin and persephin are distant members of the transforming growth factor-beta (TGF-beta) superfamily. Unlike other members of the TGF-beta superfamily, which signal through the receptor serine-threonine kinases, GDNF family ligands activate intracellular signalling cascades via the receptor tyrosine kinase Ret. GDNF family ligands first bind to the glycosylphosphatidylinositol (GPI)-anchored GDNF family receptor alpha (GFRalpha) and then the GDNF family ligand-GFRalpha complex binds to and stimulates autophosphorylation of Ret. Alternatively, a preassociated complex between GFRalpha and Ret could form the binding site for the GDNF family ligand. GFRalpha1, GFRalpha2, GFRalpha3 and GFRalpha4 are the physiological coreceptors for GDNF, neurturin, artemin and persephin, respectively. Although all GDNF family ligands signal via activated Ret, GDNF can signal also via GFRalpha1 in the absence of Ret. GPI-anchored GFRalpha receptors are localized in plasma membrane to lipid rafts. GDNF binding to GFRalpha1 also recruits Ret to the lipid rafts and triggers association with Src, which is required for effective downstream signalling, leading to differentiation and neuronal survival. GDNF family ligands are potent survival factors for midbrain dopamine neurons, motoneurons, noradrenergic neurons, as well as for sympathetic, parasympathetic and sensory neurons. However, for most neuronal populations, except for motoneurons, TGF-beta is required as a cofactor for GDNF family ligand signalling. Because GDNF and neurturin can rescue dopamine neurons in the animal models of Parkinson disease, as well as motoneurons in vivo, hopes have been raised that GDNF family ligands may be new drugs for the treatment of neurodegenerative diseases. GDNF also has distinct functions outside the nervous system, promoting ureteric branching in kidney development and regulating spermatogenesis.
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PMID:GDNF - a stranger in the TGF-beta superfamily? 1110 4

Convection-enhanced delivery (CED) distributes macromolecules in the brain in a homogeneous, targeted fashion in clinically useful volumes. However, the binding of growth factors to heparin-binding sites in the extracellular matrix may limit the volume of distribution (V(d)). To overcome this limitation, we examined the effects of heparin coinfusion on V(d) of glial-derived neurotrophic factor (GDNF), neurturin (NTN), artemin, and a nonspecifically bound protein, albumin. Heparin coinfusion significantly enhanced the V(d) of GDNF and GDNF-homologous trophic factors, probably by binding and blocking heparin-binding sites in the extracellular matrix. Furthermore, coinfusion of heparin with NTN enhanced striatal dopamine metabolism, compared to trophic factor administered alone. The negligible benefit of GDNF in recent clinical trials of Parkinson's disease may result from limited tissue distribution. Heparin coinfusion during CED targeting the striatum may alleviate this important limitation. This study demonstrates the influence of receptor binding on the distribution of trophic factors in the CNS.
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PMID:Heparin coinfusion during convection-enhanced delivery (CED) increases the distribution of the glial-derived neurotrophic factor (GDNF) ligand family in rat striatum and enhances the pharmacological activity of neurturin. 1117 Jul 30

Trophic effects of neurturin, a member of the glial cell line-derived neurotrophic factor-family, have been demonstrated on mesencephalic dopaminergic neurons, suggesting its therapeutic potential for Parkinson's disease. This study was designed to test the neuroprotective and regenerative effects of an intrastriatal injection of neurturin based on behavioral, neurochemical and histochemical changes in a rat model of progressive Parkinson's disease. An extensive and progressive dopaminergic lesion was unilaterally made by intrastriatal convection-enhanced delivery of 6-hydroxydopamine (6-OHDA), in which 20 microg of 6-OHDA dissolved in 20 microl of vehicle was infused at a rate of 0.2 microl/min. For neuroprotection study, recombinant human neurturin (5 microg in 5 microl of vehicle) was stereotaxically injected into the unilateral striatum. The 6-OHDA lesion was made on the ipsilateral side 3 days after the neurturin treatment. Tyrosine hydroxylase (TH)-immunoreactive neurons of the substantia nigra were protected from progressive degeneration in the neurturin-treated animals compared with the vehicle-treated animals 2 and 8 weeks after the 6-OHDA lesion. Eight weeks after the 6-OHDA lesion, dopamine concentration significantly increased in the striatum of neurturin-treated animals with improvement of methamphetamine-induced rotation behavior. For neuroregeneration study, 5 microg of neurturin was injected into the striatum 12 weeks after the 6-OHDA lesion. Four weeks after neurturin or vehicle injection, there were no significant differences in the survival of nigral TH-immunoreactive neurons between the groups. However, TH-immunoreactive fibers were thicker and more abundant in the striatum of the neurturin-treated rats compared to those of the control group, suggesting neurturin-induced growth of the dopaminergic axons. Striatal dopamine levels also significantly increased in the neurturin-treated rats compared with those in the control group of rats, accompanied by the recovery of methamphetamine-induced rotation in the neurturin-treated rats. In conclusion, an intrastriatal injection of neurturin is a useful method to protect nigral dopaminergic neurons from extensive cell death in a model of progressive Parkinson's disease, as well as to promote the axonal regeneration and dopaminergic function.
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PMID:Dopaminergic neuroprotection and regeneration by neurturin assessed by using behavioral, biochemical and histochemical measurements in a model of progressive Parkinson's disease. 1217 70

Parkinson's disease is characterized by bradykinesia, rigidity and a resting tremor and the underlying basis for those symptoms is the loss of dopaminergic cells in the nigrostriatal system. Similar to PD, an age-related decrease locomotor activity and the expression of tyrosine hydroxylase immunoreactivity has been observed in rhesus monkeys, but the reason for this decrease in dopaminergic function remains to be elucidated. Trophic factors such as glial cell line derived neurotrophic factor (GDNF) and neurturin sustain the dopaminergic phenotype in midbrain neurons and act through a common receptor tyrosine kinase (RET). Examination of RET expression by immunohistochemistry was performed on sections of tissue containing the substantia nigra pars compacta of young, middle, and old aged rhesus monkeys. Stereological estimates of the number and cellular area of RET-immunoreactive cells found no change with age. Estimation of changes in RET protein using fluorescence intensity measurement was also similar across age groups. The results indicate that the mechanisms of GDNF and neurturin signaling remain intact with age, and therefore these trophic factors may be able to enhance the dopaminergic function of neurons in the nigrostriatal system, when administered to individuals of any age.
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PMID:RET expression does not change with age in the substantia nigra pars compacta of rhesus monkeys. 1595 Mar 22

Glial-cell-line-derived neurotrophic factor (GDNF), neurturin (NRTN), artemin (ARTN) and persephin (PSPN), known as the GDNF family ligands (GFLs), influence the development, survival and differentiation of cultured dopaminergic neurons from ventral mesencephalon (VM). Detailed knowledge about the effects of GFLs on other neuronal populations in the VM is essential for their potential application as therapeutic molecules for Parkinson's disease. Hence, in a comparative study, we investigated the effects of GFLs on cell densities and morphological differentiation of gamma-aminobutyric acid-immunoreactive (GABA-ir) and serotonin-ir (5-HT-ir) neurons in primary cultures of E14 rat VM. We observed that all GFLs [10 ng/ml] significantly increased GABA-ir cell densities (1.6-fold) as well as neurite length/neuron. However, only GDNF significantly increased the number of primary neurites/neuron, and none of the GFLs affected soma size of GABA-ir neurons. In contrast, only NRTN treatment significantly increased 5-HT-ir cells densities at 10 ng/ml (1.3-fold), while an augmentation was seen for GDNF and PSPN at 100 ng/ml (2.4-fold and 1.7-fold, respectively). ARTN had no effect on 5-HT-ir cell densities. Morphological analysis of 5-HT-ir neurons revealed a significant increase of soma size, number of primary neurites/neuron and neurite length/neuron after GDNF exposure, while PSPN only affected soma size, and NRTN and ARTN failed to exert any effect. In conclusion, we identified GFLs as effective neurotrophic factors for VM GABAergic and serotonergic neurons, demonstrating characteristic individual action profiles emphasizing their important and distinct roles during brain development.
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PMID:GDNF family ligands display distinct action profiles on cultured GABAergic and serotonergic neurons of rat ventral mesencephalon. 1638 Jan

Glial cell line-derived neurotrophic factor (GDNF) or its naturally occurring analog, neurturin (NTN), can potentially improve the function and delay the rate of degeneration of dopaminergic neurons in Parkinson's disease (PD). However, their delivery to the central nervous system has proven to be a significant challenge. Viral vector-mediated gene transfer offers a practical means to continuously supply neurotrophic factors in targeted areas of the brain. CERE-120 is an adeno-associated viral vector encoding NTN, developed for the treatment of PD. We found that the kinetics and pattern of NTN expression in the rat striatum following injection of CERE-120 is rapid, increases significantly up to 4 weeks, and exhibits a stable volume of distribution thereafter for at least 1 year, the longest time-point evaluated. Quantitative enzyme-linked immunosorbent assay confirmed that steady-state levels are maintained from 4 weeks onward. We demonstrated that NTN volume of distribution can be controlled by varying the dose of vector injected and that NTN delivered via CERE-120 was bioactive, as evidenced by the neuroprotection of DA neurons in the rat 6-hydroxydopamine lesion model. These data provided the foundation for further non-clinical development of CERE-120, leading to an ongoing clinical trial in PD patients.
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PMID:Striatal delivery of neurturin by CERE-120, an AAV2 vector for the treatment of dopaminergic neuron degeneration in Parkinson's disease. 1716 76

Glial-cell-line-derived neurotrophic factor (GDNF) family ligands (GFLs), which consist of GDNF, neurturin, artemin and persephin, regulate the development and maintenance of the nervous system. GDNF protects and repairs dopamine-containing neurons, which degenerate in Parkinson's disease, and motoneurons, which die in amyotrophic lateral sclerosis. GDNF and neurturin have shown promise in clinical trials of Parkinson's disease, and artemin is currently undergoing clinical trials for chronic pain treatment. However, the delivery of GFLs into the brain through invasive approaches such as neurosurgery, viral vectors or by the use of encapsulated cells is associated with multiple obstacles. The development of small molecules that specifically activate GFL receptors and that can be applied systemically would overcome most of these problems. The unique nature of the GFL receptors, recent progress in elucidation of the 3D structures of GFLs and GFL-receptor complexes and the use of high-throughput screening have resulted in the development of the first small molecules that mimic the effects of the different GFLs.
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PMID:GDNF family receptor complexes are emerging drug targets. 1721 19

The experiment was to evaluate the therapeutic benefit of transplanted bone marrow stromal cells (BMSCs) transfected with a kind of neurotrophic factor gene, neurturin (NTN) gene, in treating the rat model of Parkinson's disease (PD). The 6-OHDA-lesioned rats were assigned to one of three groups, those receiving BMSCs transfected with NTN gene, those receiving untransfected BMSCs containing a void plasmid and those receiving phosphate buffer solution (PBS). Treatments were injected into the right striatum (6-OHDA-lesioned side). One to six months post-transplantation, apomorphine-induced rotational behavior was observed. One month after transplantation, green fluorescent protein (GFP)/NTN, GFP/glial fibrillary acidic protein (GFAP), GFP/neuron specific enolase (NSE) and GFP/tyrosine hydroxylase (TH) fluorescence determinations of brain sections were carried out. One to six months after transplantation, brain sections containing striatum and substantia nigra were stained for TH. In situ hybridization and Western blots were used to determine NTN mRNA and protein concentration, respectively, in affected brain regions. High performance liquid chromatography (HPLC) was used to measure the dopamine (DA) content in the lesioned striatum 1 and 3 month(s) post-transplantation. The results were shown that: in the first 3 months after transplantation, the number of rotations was lower in NTN-transplant group than the void vector group, and during 1-6 months post-transplantation, the number of rotations was lower in both transplant groups than that in the PBS group (P<0.05). One month after transplantation, we detected GFP/NTN-, GFP/GFAP- and GFP/NSE-labeled cells in the transplantation area of the NTN-transplanted group, but no obvious GFP/TH labeled cells were found. Quantitative analysis of TH-positive cells 1 to 6 months after transplantation indicated that there were no significant differences between groups in survival rates of TH-positive neurons in the lesioned substantia nigra (P>0.05). In situ hybridization and Western blot identified NTN mRNA and protein expression in the transplantation area of the NTN-transplanted group. After transplantation of NTN-expressing cells, DA content in the lesioned striatum was significantly higher in the transgenic group than that in the void vector group or the PBS group (P<0.05). The overall therapeutic effects of the NTN-transplanted group were superior to those of the void plasmid group and the PBS group. The mechanisms by which transgenic therapy treats PD might involve functional enhancement of residual dopaminergic neurons by NTN, which significantly reduces the number of rotations in animals, but not increase the numbers of existing dopaminergic neurons.
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PMID:Transplantation of bone marrow stromal cells containing the neurturin gene in rat model of Parkinson's disease. 1733 73


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