Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:P50583 (asymmetrical)
 12,197 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Thirty-four cases of severe tetanus were studied. On clinical examination weakness and sensory loss compatible with peripheral neuropathy was found in 27. The pattern was usually asymmetrical, the commonest nerves affected being ulnar, median and lateral popliteal, although occasionally circumflex, musculocutaneous, femoral and facial nerves were also involved. Electrophysiological studies showed spontaneous activity resembling denervation potentials, diphasic and positive sharp waves. In some muscles there was also activity resembling spontaneous firing of motor units. Motor and sensory conduction velocities in the affected nerves were moderately reduced and the amplitude of sensory potentials was also reduced. No conduction was found in 11 nerves in 8 patients on initial studies, but 4 out of 7 nerves that could be studied showed rapid recovery. Although most of the nerves in the rest of the patients showed clinical recovery, conduction velocities showed improvement most often when examined about 10 weeks after the onset of trismus. The clinical and electrophysiological evidence suggests the involvement of peripheral nerves in severe tetanus. Serum neuritis, hypersensitivity reaction to tetanus toxoid or drug-induced neuropathy have been ruled out.
 ...
PMID:Neuropathy in tetanus. 51 77

To elucidate the role of aspartate as a signal molecule in the brain, its localization and those of related amino acids were examined by light and electron microscopic quantitative immunocytochemistry using antibodies specifically recognizing the aldehyde-fixed amino acids. Rat hippocampal slices were incubated at physiological and depolarizing [K+] before glutaraldehyde fixation. At normal [K+], aspartate-like and glutamate-like immunoreactivities were colocalized in nerve terminals forming asymmetrical synapses on spines in stratum radiatum of CA1 and the inner molecular layer of fascia dentata (i.e., excitatory afferents from CA3 and hilus, respectively). During K+ depolarization there was a loss of aspartate and glutamate from these terminals. Simultaneously the immunoreactivities strongly increased in glial cells. These changes were Ca2+-dependent and tetanus toxin-sensitive and did not comprise taurine-like immunoreactivity. Adding glutamine at CSF concentration prevented the loss of aspartate and glutamate and revealed an enhancement of aspartate in the terminals at moderate depolarization. In hippocampi from animals perfused with glutaraldehyde during insulin-induced hypoglycemia (to combine a strong aspartate signal with good ultrastructure) aspartate was colocalized with glutamate in excitatory terminals in stratum radiatum of CA1. The synaptic vesicle-to-cytoplasmic matrix ratios of immunogold particle density were similar for aspartate and glutamate, significantly higher than those observed for glutamine or taurine. Similar results were obtained in normoglycemic animals, although the nerve terminal contents of aspartate were lower. The results indicate that aspartate can be concentrated in synaptic vesicles and subject to sustained exocytotic release from the same nerve endings that contain and release glutamate.
 ...
PMID:Synaptic vesicular localization and exocytosis of L-aspartate in excitatory nerve terminals: a quantitative immunogold analysis in rat hippocampus. 969 1

Synaptic plasticity associated with long-term potentiation was studied electrophysiologically and ultrastructurally in the cat superior cervical ganglion in situ. The preganglionic nerve fiber was stimulated at 10 Hz for 50 s for conditioning and then at 1 Hz for 1-3 h to monitor changes in the postganglionic compound action potential (PGP). The present material has shown the long-term potentiation (LTP), around 120% of the control, which lasted for up to 3 h. Fifteen of 18 ganglia (83%) have shown LTP. Ultrastructural studies demonstrated the synaptic structural remodeling: (1) The preganglionic nerve terminals ordinarily made mainly asymmetrical type of shaft synapses directly with dendrites of the ganglion cells that lacked dendritic spines; (2) conditioning tetanus rapidly remodeled simple shaft synapses into perforated ones characterized by perforations in the postsynaptic density (PSD), some of which had synaptic spinules associated with the perforated PSDs, i.e. spinule-synapses; (3) a rapid increase in the number of both structures was detected immediately after the tetanus. Perforated synapses and the spinule-synapses increased from 5% and 0% in the control to 27 and 9% at 0 min, respectively. Spinule-synapses occurred about one-third of the perforated shaft synapses; (4) Increased numbers of restructured shaft synapses was maintained for 15 min in ganglia expressing LTP; (5) Remodeled synapses did not increase in ganglia that did not express LTP or ganglia that were activated at 0.5 or 1 Hz. It was suggested a rapid increase in the number of remodeled synapses associated with the onset of LTP and its durability at its earlier phases in the cat SCG.
 ...
PMID:Rapid structural remodeling of shaft synapses associated with long-term potentiation in the cat superior cervical ganglion in situ. 1206 49