Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0002736 (amyotrophic lateral sclerosis)
19,048 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Both in mice and humans, low expression levels of vascular endothelial growth factor (VEGF) are linked to adult-onset motor neuron disease or amyotrophic lateral sclerosis (ALS). The mechanism through which reduced VEGF levels result in this phenotype is unknown. We therefore examined the direct effects of VEGF on motor neurons and found VEGF to have a direct neurotrophic effect on motor neurons in vitro. Survival and vulnerability to excitotoxicity of motor neurons from VEGF(delta/delta) mice was however similar to that of motor neurons from non-transgenic littermates. The VEGF concentration in the spinal cord of mutant (G93A) SOD1 mice was not different from that found in wild-type SOD1 overexpressing mice. Upregulation of VEGF in the spinal cord, by housing mutant (G93A) SOD1 mice in hypoxic conditions, did not affect their life span. Our results show that VEGF is a neurotrophic factor for motor neurons in vitro, and shortage of this neurotrophic factor may contribute to the motor neuron death observed in humans and animals with low VEGF expression levels.
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PMID:Effects of vascular endothelial growth factor (VEGF) on motor neuron degeneration. 1535 Sep 62

Amyotrophic lateral sclerosis (ALS) is the most common fatal motor neuron disease, affecting mostly middle-aged people. There are no curative therapies for ALS. Several lines of evidence have supported the notion that the proapoptotic property of familial ALS (FALS)-linked mutant Cu/Zn-superoxide dismutase-1 (SOD1) genes may play an important role in the pathogenesis of some FALS cases. Here we found that activity-dependent neurotrophic factor (ADNF), a neurotrophic factor originally identified to have the anti-Alzheimer's disease (AD) activity, protected against neuronal cell death caused by FALS-linked A4T-, G85R- and G93R-SOD1 in a dose-responsive fashion. Notably, ADNF-mediated complete suppression of SOD1 mutant-induced neuronal cell death occurs at concentrations as low as 100 fM. ADNF maintains the neuroprotective activity even at concentrations of more than 1 nM. This is in clear contrast to the previous finding that ADNF loses its protective activity against neurotoxicity induced by AD-relevant insults, including some familial AD genes and amyloid beta peptide at concentrations of more than 1 nM. Characterization of the neuroprotective activity of ADNF against cell death caused by SOD1 mutants revealed that CaMKIV and certain tyrosine kinases are involved in ADNF-mediated neuroprotection. Moreover, in vivo studies showed that intracerebroventricularly administered ADNF significantly improved motor performance of G93A-SOD1 transgenic mice, a widely used model of FALS, although survival was extended only marginally. Thus, the neuroprotective activity of ADNF provides a novel insight into the development of curative drugs for ALS.
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PMID:Neuroprotective effect of activity-dependent neurotrophic factor against toxicity from familial amyotrophic lateral sclerosis-linked mutant SOD1 in vitro and in vivo. 1547 91

Vascular endothelial growth factor (VEGF) is an angiogenic factor essential for the formation of new blood vessels during embryogenesis and in many pathological conditions. A new role for VEGF as a neurotrophic factor has recently emerged. In the developing nervous system, VEGF plays a pivotal role not only in vascularization, but also in neuronal proliferation, and the growth of coordinated vascular and neuronal networks. After injury to the nervous system, activation of VEGF and its receptors may restore blood supply and promote neuronal survival and repair. There is a growing body of evidence that VEGF is essential for motor neurone survival, and that aberrant regulation of VEGF may play a role in the degeneration of neurones in diseases such as amyotrophic lateral sclerosis.
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PMID:Vascular endothelial growth factor and the nervous system. 1548 20

Amyotrophic lateral sclerosis (ALS) is a progressive neurodegenerative disease for which no cure or effective treatment presently exists. Many different types of drugs have been tested; most are based on various hypotheses of mechanisms for neuronal death, including oxidative damage, loss of trophic factor support, glutamate-mediated excitotoxicity, and chronic inflammation. The discovery that a small percentage of ALS cases are familial and involve mutation in a superoxide dismutase gene (SOD1) led to the development of transgenic mouse models presently widely used for testing possible drugs. Mutations in the vascular endothelial growth factor gene (VEGF) also appear to be involved. Riluzole, an inhibitor of glutamate release and the only agent presently approved for clinical use, only extends survival by a few months. A number of trophic factors, anti-inflammatory agents, and inhibitors of oxidative stress have been reported to prolong survival in mouse models and some are now in clinical trials. Gene transfer of VEGF or glial cell-line derived neurotrophic factor, anti-inflammatory COX-2 inhibitors, and minocycline have had particularly promising results in mice. No breakthrough has yet occurred and present thinking is that combinations of drugs may be required to slow the multifactorial neurodegeneration process effectively.
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PMID:Pharmacologic approaches to the treatment of amyotrophic lateral sclerosis. 1569 Dec 15

Insulin-like growth factor-I (IGF-I) is a neurotrophic factor with insulin-like metabolic activities, and possesses potential clinical applications, particularly in neurodegenerative disorders. Amyotrophic lateral sclerosis (ALS) is a chronic progressive devastating disorder of the central nervous system, characterized by the death of upper and lower motor neurons. Both in vivo and in vitro studies have shown that IGF-I promotes motor neuron survival and strongly enhances motor nerve regeneration. Evidence that IGF-I rescues motor neurons has led to clinical trials of human recombinant IGF-I in ALS patients. However, systemic delivery of human recombinant IGF-I in these trials did not lead to beneficial clinical effects in ALS patients and may be due through inactivation of IGF-I by binding to IGF binding proteins (IGFBPs), and or limited delivery of IGF-I to motor neurons. Recently it was shown that both IGF-I receptors and IGFBPs were increased on motor neurons of ALS patients and free levels of IGF-I were decreased by 50%. In this study it was suggested that IGFBPs inactivate IGF-I by forming inactive complexes. The uses of IGF analogues with low affinity for IGFBPs and analogues that are able to displace IGF-I from IGFBPs are better candidates in new clinical trials. Another possibility is to find a way of IGF-I transport without hindrance of circulating and tissue-specific IGFBPs, such as IGF-I delivery based on gene therapy.
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PMID:Insulin-like growth factor system in amyotrophic lateral sclerosis. 1587 96

There is currently no effective treatment for amyotrophic lateral sclerosis (ALS), a devastating disorder of the human nervous system that, due to motoneurone degeneration, causes progressive loss of muscle function and death. The relentless progression of ALS and the uniformly poor prognosis have been unhindered by a variety of therapeutic agents tested in previous clinical studies. Recently, two drugs, namely riluzole and recombinant human insulin-like growth factor-I (IGF-1), have been reported to benefit patients with ALS by improving survival or slowing disease progression. Several other drugs, such as gabapentin and various neurotrophic factors, are being investigated in on-going clinical trials. Therapeutic developments in ALS have been hampered by the fact that the precise cause of the disease remains unknown. In addition, there are considerable variations in disease related characteristics among patients, rendering accurate measurements of disease progression difficult. Advances in theories of pathogenesis, such as genetic factors, glutamate excitotoxicity, oxidative stress, autoimmune mechanism and cytoskeletal abnormality will help guide the development of future therapies. Newer approaches to therapy may include suitable glutamate antagonists, small molecules that augment neurotrophic factor function, and anti-oxidants. Combination therapy of effective agents should be considered.
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PMID:Therapeutic developments in amyotrophic lateral sclerosis. 1599 83

This pilot study aimed at exploring the effects of intrathecally administered brain derived neurotrophic factor (BDNF) on autonomic functions in patients with ALS. A battery of autonomic sympathetic and parasympathetic tests was performed at baseline and after nine months of treatment in 10 ALS patients participating in a double-blind placebo-controlled phase II/III study of intrathecally administered BDNF. Results of patients treated with BDNF (25 or 150 microg/day) were compared to those receiving placebo. Sudomotor function and blood pressure response to handgrip significantly worsened during the treatment period (55.4+/-26.1 vs. 38.9+/-23.9 g/m(2)h, p<0.05; 20+/-6 vs. 13+/-4 microHg, p<0.05) whereas other sympathetic and all parasympathetic function tests only tended to be more abnormal at follow-up. Serum norepinephrine levels increased significantly during the nine-months observation period. The results of autonomic function tests were not different between patients treated with BDNF and placebo, but norepinephrine levels were higher in the BDNF group. We conclude that autonomic nervous system function deteriorates along with poorer motor performance independently from treatment with BDNF. The elevation of norepinephrine levels might reflect a non-specific up-regulation, and its association with BDNF an autocrine effect.
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PMID:Autonomic dysfunction in ALS: a preliminary study on the effects of intrathecal BDNF. 1603 33

In the past few years, research on stem cells has expanded greatly as a tool to develop potential therapies to treat incurable neurodegenerative diseases. Stem cell transplantation has been effective in several animal models, but the underlying restorative mechanisms are still unknown. Several mechanisms such as cell fusion, neurotrophic factor release, endogenous stem cell proliferation, and transdifferentiation may explain positive therapeutic results, in addition to replacement of lost cells. The biological issue needs to be clarified in order to maximize the potential for effective therapies. The absence of any effective pharmacological treatment and preliminary data both in experimental and clinical settings has recently identified Amyotrophic Lateral Sclerosis (ALS) as an ideal candidate disease for the development of stem cell therapy in humans. Preliminary stem transplantation trials have already been performed in patients. The review discusses relevant topics regarding the application of stem cell research to ALS but in general to other neurodegenerative diseases debating in particular the issue of transdifferentiation, endogenous neural stem cell, and factors influencing the stem cell fate.
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PMID:Cell-replacement therapy with stem cells in neurodegenerative diseases. 1618 Oct 78

Recent evidence suggests that apoptosis in post-mitotic neurons involves an aborted attempt of cells to re-enter the cell cycle which is characterized by increased expression of cyclins, such as cyclin D1, prior to death. However, such cyclins activation prior to apoptotic cell death remains controversial. Many neurological disorders are characterized by neuronal loss, particularly amyotrophic lateral sclerosis (ALS). ALS is a motoneuronal degenerative condition in which motoneuron loss could be due to an inappropriate return of these cells in the cell cycle. In the present study, we observed that deprivation of neurotrophic factor in purified motoneuron cultures induces an apoptotic pathway. After neurotrophic factor withdrawal, DAPI (4,6-diamidin-2-phenylindol dichlorohydrate) staining revealed the presence of nuclear condensation, DNA fragmentation, and perinuclear apoptotic body. Similarly, release of apoptotic microparticles and activation of caspases-3 and -9 were observed within the first hours following neurotrophic factor withdrawal. Next, we tested whether inhibition of cell cycle-related cyclin-dependent kinases (cdks) can prevent motoneuronal cell death. We showed that three cdk inhibitors, olomoucine, roscovitine and flavopiridol, suppress the death of motoneurons. Finally, we observed early increases in cyclin D1 and cyclin E expression after withdrawal of neurotrophic factors. These findings support the hypothesis that after removal of trophic support, post-mitotic neuronal cells die due to an attempt to re-enter the cell cycle in an uncoordinated and inappropriate manner.
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PMID:Cyclin dependent kinase inhibitors prevent apoptosis of postmitotic mouse motoneurons. 1653 Feb 28

Amyotrophic lateral sclerosis (ALS) is the most common motor neuron disease for which there is no sufficiently effective therapy. We have reported in our earlier study that intracerebroventricular (i.c.v.) injection of activity-dependent neurotrophic factor (ADNF) improves motor performance of G93A-SOD1 transgenic mice without significant prolongation in survival. Here, we found that i.c.v. injection of a synthetic hybrid peptide named Colivelin composed of ADNF and AGA-(C8R)HNG17, a potent derivative of Humanin that is a bioactive peptide with anti-Alzheimer's disease activity, dose-dependently improved motor performance and prolonged survival of ALS mice. Histological analysis, performed at the age of 120 days, demonstrated increased motoneuronal survival in spinal cords of Colivelin-treated mice as compared with saline- or ADNF-treated mice, indicating that Colivelin is a promising neurotrophic peptide for treatment of ALS.
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PMID:Colivelin prolongs survival of an ALS model mouse. 1656 29


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