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)

In 2 of 16 cases with sporadic amyotrophic lateral sclerosis (ALS) large numbers of axonal swellings were observed in the corticospinal tracts over a region extending from the posterior limbs of internal capsules to the bulbar pyramids. On electron microscopy, these axonal swellings were seen to consist of accumulations of neurofilaments and altered neuronal organelles (mitochondria and secondary lysosomes). Their morphology differed from the spheroids seen in the anterior horn in ALS.
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PMID:Axonal swellings in the corticospinal tracts in amyotrophic lateral sclerosis. 220 91

A spontaneous motor neuron disease or neuronopathy was identified in 10 horses from the northeastern United States. Signs of generalized weakness, muscle fasciculations, muscle atrophy and weight loss progressed over 1 to several months in young and old horses of various breeds. Pathologic studies revealed that degeneration and loss of motor neurons in the spinal cord and brain stem resulted in axonal degeneration in the ventral roots and peripheral and cranial nerves and denervation atrophy of skeletal muscle. Many spinal neurons were swollen, chromatolytic and contained neurofilamentous accumulations. Other cell bodies were shrunken and undergoing neuronophagia and some were lost and replaced by glia. This fatal equine motor neuron disease has not been reported previously and its cause has not been determined. The progressive weakness and wasting and the neuronal degenerative changes in these horses were similar to those described in people with sporadic amyotrophic lateral sclerosis (ALS), also known as Lou Gehrig's disease.
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PMID:Equine motor neuron disease; a preliminary report. 220 16

The effect of age on the ability of motor neurons to develop and maintain an enlarged total axonal and synaptic volume was compared in soleus muscles of 5-8-month and 25-30-month mice, 30-120 d after partial denervation. Before and after partial denervation (transection of the L5 root), the total number of muscle fibers was the same in all muscles. However, in young animals, there was only some transient atrophy and hypertrophy mostly receded by 120 d, whereas in old muscle, a more prominent early atrophy was followed by persistent hypertrophy. Ectopic endplates were not found. In zinc-iodide-osmium (ZIO) stained preparations, muscle fibers with small nerve terminals were present at 60 d and were still present in old muscle at 120 d. Fluorescent staining of nerve terminals and acetylcholine receptors revealed that in young muscle, postsynaptic sites were nearly or completely reoccupied by 60 d. In old muscle, about 22% of former junctions were denervated, with the remainder minimally to fully reinnervated. At 60 d and thereafter, collateral sprouts originated from nodes of Ranvier in both young and old muscle and were remyelinated in young but mainly unmyelinated and remarkably tortuous in old animals. These results, confirmed with immunofluorescent strains for myelin basic protein and neurofilaments, account for many of the physiological findings (Jacob and Robbins, 1990). Motor unit size expanded 2.5 times in young and 2 times in old muscle at 60 d after partial denervation. However, the increment in total quantal output and nerve terminal volume per motor neuron was 60-100% greater than control in young but only 20-25% greater in old muscle, with little further recovery. This inability of the motor neuron in old mice to expand the field of innervation may reflect a limitation imposed by reduced axonal transport. The present findings may elucidate the muscle weakness in postpolio syndrome and amyotrophic lateral sclerosis.
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PMID:Age differences in morphology of reinnervation of partially denervated mouse muscle. 233 95

Neurofibrillary degeneration is an argyrophilic intraneuronal lesion found in several unrelated neurologic conditions. The relationship between different types of neurofibrillary tangles is investigated with two monoclonal antibodies raised against Alzheimer neurofibrillary tangles (anti-ANT). Using the peroxidase-antiperoxidase technique, the authors demonstrate that neurofibrillary tangles of progressive supranuclear palsy, containing 15-nm straight filaments, share an antigenic determinant with ANTs. Ultrastructural studies localize the antigenic determinant to filamentous elements in the parakarya. The determinant is not present in normal brain, aluminum-induced experimental tangles in the rabbit, Lewy bodies, Hirano bodies, or axonal filamentous inclusions of amyotrophic lateral sclerosis and giant axonal neuropathy. It is, however, present in ANTs regardless of the pathologic condition in which they are found, including Alzheimer's disease, Down's syndrome, and postencephalitic Parkinson's disease.
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PMID:Monoclonal antibodies to Alzheimer neurofibrillary tangles. 2. Demonstration of a common antigenic determinant between ANT and neurofibrillary degeneration in progressive supranuclear palsy. 241 Nov 43

The pathogenesis of the motor neuronal degeneration in amyotrophic lateral sclerosis (ALS) is unclear, though several possible etiological factors are currently being investigated. A unifying hypothesis will have to explain the diverse geographical occurrence, clinical features, and selective vulnerability and relative resistance of different neuronal populations in the disease. It is possible that different biochemical defects underlie this diversity, or alternatively that the many factors incriminated in the etiology may act upon an underlying genetic-biochemical abnormality to trigger premature neuronal death. Viruses, metals, endogenous toxins, immune dysfunction, endocrine abnormalities, impaired DNA repair, altered axonal transport, and trauma have all been etiologically linked with ALS, but convincing research evidence of a causative role for any of these factors is yet to be demonstrated.
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PMID:Amyotrophic lateral sclerosis: Part 2. Etiopathogenesis. 241 63

Fast transport of intra-axonal organelles was studied in motor nerve from amyotrophic lateral sclerosis (ALS) patients. Organelle traffic in ALS nerves demonstrated a significant increase in anterograde mean speed, while retrograde mean speed was decreased compared with that of controls. Retrograde traffic density (organelles per unit time) was also significantly decreased in the ALS specimens. Anterograde transport machinery is therefore intact and may be responding to the increased physiologic demand of larger motor units. Diminished retrograde speed and organelle traffic density are consistent with a defect in retrograde transport and could impair communication between axon terminals and perikarya.
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PMID:Fast axonal transport in amyotrophic lateral sclerosis: an intra-axonal organelle traffic analysis. 243 94

Neurons depend upon the processes of axonal and transneuronal transport for intra- and intercellular communication and trophic support. Experimental studies in the last decade have elucidated the mechanisms underlying these processes, and provided evidence for their role in the spread of viral and toxic diseases through the nervous system. Recent advances in neuroanatomy, and in the pathological study of certain degenerative conditions, such as Alzheimer's disease, suggest that the same principles may underlie the anatomical specificity of cell loss in a variety of system degenerations. In Alzheimer's disease, as well as in olivo-ponto-cerebellar atrophy, progressive supranuclear palsy, amyotrophic lateral sclerosis, primary autonomic failure of the Shy-Drager type, and other system degenerations, the main feature that marks the affected populations of neurons is their anatomical interconnectivity. We consider here the possibility that, in these conditions, the processes of axonal and transneuronal transport may subserve the transmission from neuron to neuron of a toxic or infectious agent, or alternatively that the diseases may result from the failure of normal transport of a trophic agent. This hypothesis not only provides a unifying framework in which to view a variety of seemingly disparate conditions, but also suggests certain approaches to identifying the causative agents.
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PMID:Axonal and transneuronal transport in the transmission of neurological disease: potential role in system degenerations, including Alzheimer's disease. 244 30

Fast axonal transport is altered in nerves from amyotrophic lateral sclerosis (ALS) patients. Microtubules are involved in axonal transport. We analyzed the possibility of an involvement of microtubule modifications underlying the alterations in transport using biochemical and morphologic analysis of intercostal nerves from ALS and control patients. In intercostal nerves displaying no morphologic signs of acute neuronal degeneration, two-dimensional gels showed modifications of the group of beta tubulins and abnormal spots of proteins, some appearing to be closely related to tau proteins. These results suggest that microtubule proteins are modified in ALS before ultrastructural axonal degeneration, but the significance of these abnormalities remains hypothetical.
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PMID:Modifications of microtubule proteins in ALS nerve precede detectable histologic and ultrastructural changes. 245 47

We used a library of monoclonal antibodies (Mab) that distinguish phosphorylated (P+) and non-phosphorylated (P-) neurofilament (NF) epitopes to examine phosphorylation of NF in lower motor neurons of patients with amyotrophic lateral sclerosis (ALS), of neurologically normal controls of different ages, and of patients with central chromatolysis due to injuries to motor root axons. Monoclonal antibodies directed to P+ NF immunostained five to ten times more neuronal perikarya in ALS than in age-matched controls. Spheroids, which are NF containing axonal enlargements, found in significantly greater number in proximal axons in ALS, were also intensely immunostained with Mab to P+ NF. Moreover, anterior root axons in five of eleven cases of ALS reacted only with the Mab to P+ NF, while both P- and P+ NF were present in motor roots from controls. In control groups, the number of neuronal perikarya and spheroids that immunoreacted with the Mab to P+ NF increased moderately with age. Chromatolytic lower motor neurons were recognized by Mab to P+ NF. Our results show that the process of phosphorylation is altered in ALS. We propose that phosphorylation of NF in ALS occurs prematurely and that it is more likely to be associated with an impairment of NF transport than to be part of a chromatolytic reaction of lower motor neurons.
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PMID:Phosphorylation of neurofilaments is altered in amyotrophic lateral sclerosis. 245 15

Video-enhanced contrast techniques have been used to study fast axonal transport of organelles in diseased and normal human axons. A broad perspective on the importance of axonal transport in the pathogenesis of human neurological disorders is presented and problems in dealing with human nerve summarized. Results from analysis of organelle traffic in axons from motor nerve in patients with amyotrophic lateral sclerosis (ALS) show: 1) higher mean speed of anterograde organelles, 2) lower mean speed of retrograde organelles, and 3) lower retrograde organelle traffic density. Hyperparathyroidism, another human clinical syndrome, can mimic ALS. The effect of parathyroid hormone (PTH) on axons in vitro is to increase the mean speed of both anterograde and retrograde organelle traffic. The dose response curve and time course of the PTH effect are delineated. Dihydropyridine calcium channel antagonists block the PTH effect, implicating extracellular calcium in the alteration of organelle traffic speed. The results are discussed in relation to neuronal function and the regulation of fast axonal transport.
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PMID:Fast axonal transport alterations in amyotrophic lateral sclerosis (ALS) and in parathyroid hormone (PTH)-treated axons. 246 Feb 59


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