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Query: UMLS:C0027819 (
neuroblastoma
)
27,800
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Recent studies suggest that the nature of events leading to the formation, maintenance, and elimination of synapses may be regulated by cascade-type, locally expressed proteases and protease inhibitors acting on adhesive extracellular matrix components. We have identified a molecule in conditioned medium of murine skeletal muscle cells that in molecular weight, target protease inhibition, heparin-binding and cross-reactivity with authenic antisera is similar to the human serine proteinase inhibitor, protease nexin I.
Protease nexin I
is a 43-50 kDa glycoprotein of the serpin superfamily (arg-serpin class). Purified anti-protease nexin I antibody (anti-47 kDa) stains adult mouse skeletal muscle in discrete foci that precisely superimpose on synaptic neuromuscular junctions.
Protease nexin I
appears in patches on surfaces of cultured mouse skeletal myotubes, but not on myoblasts. These patches co-localize with acetylcholine receptor clusters and acetylcholinesterase staining during cellular maturation in culture. Evidence that protease nexin I is a synaptic, extracellular antigen is particularly intriguing since it has been shown to be identical, in structure and activity, with a factor released by glial cells, called glia-derived nexin that stimulates mouse
neuroblastoma
cell neurite outgrowth and inhibits granule cell migration.
Protease nexin I
inhibits both tumor cell and myoblast plasminogen activator-mediated destruction of extracellular matrix. Thus, such observations as presented in this report provide further evidence for involvement of cascade proteolytic systems, and their post-translational regulation by specific serpins, in the remodeling that occurs in synapse formation and elimination.
...
PMID:Plasminogen activators and inhibitors in the neuromuscular system: III. The serpin protease nexin I is synthesized by muscle and localized at neuromuscular synapses. 203 25
Glia-derived nexin
(
GDN
) is a serine protease inhibitor which promotes the outgrowth of neurites from
neuroblastoma
cells and from chick sympathetic neurons. However, it has not been demonstrated that this effect is independent of its protease inhibitory activity. We report here that, 48 h after the addition of
GDN
to astrocyte-free cultures of rat hippocampal cells, there was a significant increase in axon length, although dendrite length and the total number of neurites were unaffected. Nerve growth factor added alone had no significant effect nor was there any additional effect when it was added together with
GDN
. However, hirudin, a thrombin inhibitor purified from leeches, was found to mimic the
GDN
effect at similar molar concentrations of active protein. This suggests that the protease inhibitory activity is crucial for the neurite-promoting effect of
GDN
on hippocampal neurons.
...
PMID:Glia-derived nexin potentiates neurite extension in hippocampal pyramidal cells in vitro. 233 38
Glia-derived nexin
(
GDN
) is a 43-kDa serine protease inhibitor with neurite promoting activity in mouse
neuroblastoma
cells (Guenther et al., 1985). In chick sympathetic neurons,
GDN
but not hirudin and synthetic peptide inhibitors promoted neurite outgrowth (Zurn et al., 1988). Thus, it was considered that the protease inhibitory activity cannot account for the total biological activity of
GDN
. We show here that synthetic peptide inhibitors with thrombin specificity mimic
GDN
at similar concentrations in
neuroblastoma
cells. Limited proteolysis of
GDN
with elastase causes a cleavage between sites P1 and P2, corresponding to residues Ala-344-Arg-345 of the molecule. The resulting fragments still copurify on heparin-Sepharose, but the protease inhibitor activity of
GDN
and the
GDN
neurite promoting activity are lost. The results confirm the necessity of an intact reactive site for the biological activity of
GDN
.
...
PMID:Functional sites of glia-derived nexin (GDN): importance of the site reacting with the protease. 233 8
Glia-derived nexin
(
GDN
), also known as protease nexin I, is a serine protease inhibitor of deduced relative molecular mass 41,700, identified in conditioned media of glioma cells by its neurite-promoting activity.
GDN
can promote neurite outgrowth in vitro from
neuroblastoma
cells, sympathetic neurons and hippocampal neurons (L. Farmer et al., manuscript in preparation). In vivo,
GDN
is constitutively expressed in all parts of the olfactory system, where axonal regeneration and neurogenesis occur continuously throughout life. This observation indicates that
GDN
could be important for axonal regeneration in vivo. To investigate this possibility, we have taken advantage of the fact that damage to nerves in the peripheral nervous system leads to their regeneration, whereas in the central nervous system no such regeneration can occur. Here we report that after lesion of the rat sciatic nerve there is a large transient increase in the amount of
GDN
messenger RNA and of released
GDN
. The cells showing
GDN
immunoreactivity are mainly localized distal to the lesion site. These results further support the suggestion that
GDN
is important for axonal regeneration in vivo, and indicate that protease inhibitors could have a role in Wallerian degeneration and peripheral nerve regeneration.
...
PMID:Induction of glia-derived nexin after lesion of a peripheral nerve. 268 11
Glia-derived nexin
(
GDN
) is a 43-kDa glycoprotein isolated from rat glioma cell cultures. It promotes neurite extension in cultures of
neuroblastoma
cells and chick sympathetic neurons. Moreover,
GDN
is a potent serine protease inhibitor (serpin), belonging to the family of protease nexins. We report here the expression of rat
GDN
in the Saccharomyces cerevisiae strain GRF18 under the control of the PHO5 promoter. We describe the purification of more than 6 mg total
GDN
from the cellular extract of 1 liter of yeast culture. The amino acid composition and the sequence of CNBr-fragments of the recombinant protein correlate with the values deduced from the rat
GDN
cDNA. We provide evidence that the recombinant
GDN
has exactly the same properties as the glioma-derived protein with respect to its protease-inhibitory activity and its ability to promote the extension of neurites from
neuroblastoma
cells. The large amounts of recombinant protein obtained from this expression system will allow further biochemical and physiological analysis of
GDN
and of the serpins in general.
...
PMID:Synthesis of glia-derived nexin in yeast. 269 43
Protease nexin I
(
PNI
) is a member of the family of serine protease inhibitors (serpins) that have been shown to promote neurite outgrowth in vitro from different neuronal cell types. These include
neuroblastoma
cells, hippocampal neurons, and sympathetic neurons. Free
PNI
protein is markedly decreased in various anatomical brain regions, including hippocampus, of patients with Alzheimer disease. Here, we report that
PNI
rescued spinal motoneurons during the period of naturally occurring (programmed) cell death in the chicken in a dose-dependent fashion. Furthermore,
PNI
prevented axotomy-induced spinal motoneuron death in the neonatal mouse. The survival effect of
PNI
on motoneurons during the period of programmed cell death was not associated with increased intramuscular nerve branching.
PNI
also significantly increased the nuclear size of motoneurons during the period of programmed cell death and prevented axotomy-induced atrophy of surviving motoneurons. These results are consistent with the possible role of
PNI
as a neurotrophic agent. They also support the idea that serine proteases or, more precisely, the balance of proteases and serpins may be involved in regulating the fate of neuronal cells during development.
...
PMID:A serine protease inhibitor, protease nexin I, rescues motoneurons from naturally occurring and axotomy-induced cell death. 784 74
Glia-derived nexin
/protease nexin-1 (GDN/PN-1) is a serine protease inhibitor that is secreted by glial cells and fibroblasts in culture. In the adult mammalian nervous system it has been shown to be expressed in the olfactory system and by some glial cells in response to neuronal injury. In situ hybridization and immunocytochemical studies were performed to identify the structures expressing GDN/PN-1 in the developing and adult rat brain. In contrast to a transient widespread expression during pre- and postnatal development, some brain structures constitutively express GDN/PN-1. These include the olfactory nerve layer of the olfactory bulb, basal forebrain, striatum, pyramidal neurons of layer V in the cortex, thalamic nuclei, pars compacta of the substantia nigra, inferior and superior colliculi, and deep cerebellar nuclei. All of these parts, excluding the olfactory nerve layer, are characterized by a high neuronal cell density. Neurons in these regions were immunoreactive for GDN/PN-1. Furthermore GDN/PN-1 expression in cell lines showed that the active protein was synthesized and secreted from B104 but not from NB2a
neuroblastoma
cells. Although GDN/PN-1 has only been reported to be synthesized by glia, the results presented here demonstrate that in addition, a subset of neurons express this protease inhibitor.
...
PMID:Glia-derived nexin/protease nexin-1 is expressed by a subset of neurons in the rat brain. 815 33
