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Query: UMLS:C0268596 (
EMA
)
2,520
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Ethyl methacrylate (ethyl 2-methyl-2-propenoate,
EMA
) has been implicated in the development of neurologic impairment following occupational exposure. The potential of
EMA
to produce neurotoxicity was investigated in adult male Sprague-Dawley rats in two experiments. In the first experiment, animals were administered 100, 200, 400, or 800 mg/kg by daily intraperitoneal (i.p.) injections for 60 d. Control rats received daily i.p. injections of 1 ml saline/kg. Clinical observations, spontaneous motor activity, and performance in the Morris water maze were assessed. Alterations in clinical parameters in the higher dose groups included lethargy, impaired breathing, decreased weight gain, and increased mortality. Alterations in motor activity were observed at 100 mg/kg, a dose that did not cause alterations in clinical parameters, body weight gain, or mortality. There was also a dose-dependent impairment in performance in the Morris water maze. In the second experiment, animals were administered
EMA
in drinking water at concentrations of 0.1, 0.2, or 0.5% for 60 d. Control rats were administered tap water. Animals were perfused at the termination of exposure and samples of brain, spinal cord, and sciatic nerve were prepared for histological examination. Spongiform alterations were observed in fiber tracts of the forebrain, brainstem, and spinal cord. Clusters of
axonal
swellings were scattered throughout the dorsal, ventral, and lateral columns of the spinal cord, and typically involved internodal segments of two or three neighboring axons. Shrunken axons with separated myelin lamellae and large axons with thinner than normal myelin sheaths were apparent in the sciatic nerve. The patterns of alterations in the white matter of the spinal cord and the sciatic nerve are consistent with myelinopathy, but additional experiments are necessary to confirm whether oligodendroglia and Schwann cells are the primary sites of injury. In addition to the alterations associated with myelin, there was a decrease in the density of neurons in the ventral horn of the spinal cord. While the observed effects of
EMA
on the nervous system of rats are consistent with neurologic symptoms of workers exposed to
EMA
, additional experiments are necessary to determine if the level and route of exposures associated with occupational use produce these impairments in experimental animals.
...
PMID:Neurotoxicity of ethyl methacrylate in rats. 1065 38
182 control Beagle dogs from 23 historical studies (14 chronic, 9 subchronic) were reviewed histologically for the presence of Renaut bodies in the sciatic nerve. Renaut bodies were found in 36.1 percent of the subchronic-study dogs and in 46.4 percent of the chronic-study dogs. The Renaut bodies most often resided in the distal sections of the sciatic nerve, specifically in the tibial branch as it traversed the knee joint in situ. There was no sex predilection. Renaut bodies were located predominately in the endoneurium, in the center of the nerve sections. There was no associated
axonal
degeneration, reactive gliosis, or encapsulation. The Renaut bodies were characterized as large (20 to 500 microns diameter in cross section), well-demarcated elliptical structures with an onion-skin arrangement of loosely textured, filamentous strands intermixed with sparse numbers of dark spindle-shaped nuclei. Occasionally the core displayed a more dense, intensely eosinophilic arrangement of fibers. Histochemical results included: positive acidic alcian blue, Gomori's trichrome, and Verhoeff Van Gieson's; and negative Periodic-acid Schiff, Congo Red, and Luxol fast blue/cresyl violet. Immunohistochemical results included: positive vimentin and collagen (subtypes I, II, and VI); and negative NSE, S-100, GFAP, amyloid A component, desmin, alpha-sarcomeric actin, pancytokeratin,
EMA
, and von Willebrand factor. Transmission electron microscopy revealed loosely arrayed, circumferentially oriented collagen fibers intermixed with varying amounts of amorphous substance and finely fibrillar material. Most of the cells comprising the Renaut body were identified as fibroblasts. No nerve fibers entered or left the Renaut body, and nearby nerves appeared to be normal structurally. Based on this characterization of Renaut bodies and in conjunction with the past literature, Renaut bodies appear to have little or no pathological significance, but rather are suggestive of a physiological adaptation in response to mechanical stress imposed on nerves.
...
PMID:Renaut bodies in the sciatic nerve of beagle dogs. 1137 Jul 29
Synaptic proteins are synthesized in the cell body and transported down the axon by microtubule-dependent motors. We previously reported that KIF1Bbeta and KIF1A motors are essential for transporting synaptic vesicle precursors; however the mechanisms that regulate transport, as well as cargo recognition and control of cargo loading and unloading remain largely unknown. Here, we show that DENN/
MADD
(Rab3-GEP) is an essential part of the regulation mechanism through direct interaction with the stalk domain of KIF1Bbeta and KIF1A. We also show that DENN/
MADD
binds preferentially to GTP-Rab3 and acts as a Rab3 effector. These molecular interactions are fundamental as sequential genetic perturbations revealed that KIF1Bbeta and KIF1A are essential for the transport of DENN/
MADD
and Rab3, whereas DENN/
MADD
is essential for the transport of Rab3. GTP-Rab3 was more effectively transported than GDP-Rab3, suggesting that the nucleotide state of Rab3 regulates
axonal
transport of Rab3-carrying vesicles through preferential interaction with DENN/
MADD
.
...
PMID:KIF1Bbeta- and KIF1A-mediated axonal transport of presynaptic regulator Rab3 occurs in a GTP-dependent manner through DENN/MADD. 1884 81
Neurons innervate multiple targets by sprouting axon branches from a primary axon shaft. We show here that the ventral guidance factor unc-6 (Netrin), its receptor unc-40 (DCC), and the gene madd-2 stimulate ventral axon branching in C. elegans chemosensory and mechanosensory neurons. madd-2 also promotes attractive axon guidance to UNC-6 and assists unc-6- and unc-40-dependent ventral recruitment of the actin regulator MIG-10 in nascent axons.
MADD
-2 is a tripartite motif protein related to MID-1, the causative gene for the human developmental disorder Opitz syndrome.
MADD
-2 and UNC-40 proteins preferentially localize to a ventral axon branch that requires their function; genetic results indicate that
MADD
-2 potentiates UNC-40 activity. Our results identify
MADD
-2 as an UNC-40 cofactor in axon attraction and branching, paralleling the role of UNC-5 in repulsion, and provide evidence that targeting of a guidance factor to specific
axonal
branches can confer differential responsiveness to guidance cues.
...
PMID:The tripartite motif protein MADD-2 functions with the receptor UNC-40 (DCC) in Netrin-mediated axon attraction and branching. 2062 77
Myelin destruction due to inflammatory oligodendrocyte cell damage or death in conjunction with
axonal
degeneration are among the major histopathological hallmarks of multiple sclerosis (MS). The majority of available immunomodulatory medications for MS are approved for relapsing-remitting (RR) MS, for which they reduce relapse rate, MRI measures of inflammation, and the accumulation of disability. These medications are, however, of little benefit during progressive MS where
axonal
degeneration following demyelination outweighs inflammation. This has sparked great interest in the development of new remyelination therapies aimed at reversing the neurodegenerative damage observed in this disease. Remyelination as a result of oligodendrocyte production from oligodendrocyte precursor cells (OPCs) is considered a promising potential target for the treatment of all stages of MS. In this review we present an overview of a) approved medications (some of them FDA-and
EMA
-approved for other diseases) with a proposed role in regeneration, b) regenerative treatments under investigation in clinical trials, and c) promising future therapeutic approaches aiming specifically at facilitating endogenous repair.
...
PMID:Promoting remyelination in multiple sclerosis: current drugs and future prospects. 2562 45
Increasing evidence indicates that guidance molecules used during development for cellular and
axonal
navigation also play roles in synapse maturation and homeostasis. In C. elegans the netrin receptor UNC-40/DCC controls the growth of dendritic-like muscle cell extensions towards motoneurons and is required to recruit type A GABA receptors (GABA
A
Rs) at inhibitory neuromuscular junctions. Here we show that activation of UNC-40 assembles an intracellular synaptic scaffold by physically interacting with FRM-3, a FERM protein orthologous to FARP1/2. FRM-3 then recruits LIN-2, the ortholog of CASK, that binds the synaptic adhesion molecule NLG-1/Neuroligin and physically connects GABA
A
Rs to prepositioned NLG-1 clusters. These processes are orchestrated by the synaptic organizer CePunctin/
MADD
-4, which controls the localization of GABA
A
Rs by positioning NLG-1/neuroligin at synapses and regulates the synaptic content of GABA
A
Rs through the UNC-40-dependent intracellular scaffold. Since DCC is detected at GABA synapses in mammals, DCC might also tune inhibitory neurotransmission in the mammalian brain.
...
PMID:The netrin receptor UNC-40/DCC assembles a postsynaptic scaffold and sets the synaptic content of GABA
A
receptors. 3247 87
