Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
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Query: EC:3.4.21.5 (
thrombin
)
33,306
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The amyloid protein precursor (APP) of Alzheimer's disease was found to bind saturably (Kd = 60 nM) to embryonic chick brain extracellular matrix (ECM). The binding of APP to ECM was not inhibited by 10 micrograms/ml heparin or heparan sulfate. However, pretreatment of cells with 1 mM 4-methylumbelliferyl-beta-D-xyloside, an inhibitor of proteoglycan biosynthesis, reduced the number of APP binding sites on the ECM by 80%. The binding of APP to ECM was also inhibited by pretreatment with chlorate, an inhibitor of glycan sulfation, and heparitinase, which digests the carbohydrate component of heparan sulfate proteoglycans. These results suggest that APP binds with high affinity to one or more heparan sulfate proteoglycans. Acidic and basic fibroblasts growth factor (FGF) also bound to chick ECM. When ECM was incubated with a protease associated with the enzyme AChE (AChE-AP), APP and acidic FGF were released intact from the matrix. The AChE-AP was at least 100-fold more potent in releasing APP from ECM than other trypsin-like proteases (trypsin, plasmin,
thrombin
). The action of the AChE-AP was inhibited by glia-derived nexin (
protease nexin I)
and by human brain APP at low nanomolar concentrations. These results suggest that in vivo an AChE-AP may cleave ECM proteins to regulate the availability of soluble APP or other factors bound to the ECM.
...
PMID:Association and release of the amyloid protein precursor of Alzheimer's disease from chick brain extracellular matrix. 127 36
Protease nexin I
(
PNI
), a 43,000- to 50,000-dalton glycoprotein, is a potent
thrombin
and urokinase inhibitor produced by many mammalian cells, including human glia, in tissue culture.
PNI
is a member of the growing superfamily of serine protease inhibitors now known as serpins, but, unlike many others of this family, it has not yet been detected in normal human plasma. Of interest to neurobiology and neurologic disease,
PNI
is identical to a glia-derived neurite-promoting factor, glia-derived nexin (GDN). Antibody to
PNI
stains the periphery of senile amyloid plaques in brain tissue from patients with Alzheimer's disease (AD), along with another serpin, alpha 1-antichymotrypsin (alpha 1-ACT). A soluble form of the beta-amyloid precursor protein (beta APP), containing a Kunitz-type trypsin inhibitor domain, the beta APP751 form, is identical to protease nexin II (PNII), a 100,000-dalton serine protease inhibitor present in a number of tissues besides the brain. PNII/beta APP is also found in normal and AD CSF. We found a 47,000-dalton
PNI
, a
thrombin
- and urokinase-inhibiting serpin, in normal human CSF by Western blotting using a monospecific antibody. We also demonstrated biologically active
PNI
capable of forming complexes with serine proteases 125I-urokinase or 125I-
thrombin
.
...
PMID:Protease nexin I, thrombin- and urokinase-inhibiting serpin, concentrated in normal human cerebrospinal fluid. 162 Mar 46
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
Protease nexin I
(
PNI
) is the most important physiologic regulator of alpha-
thrombin
in tissues.
PNI
is highly expressed and developmentally regulated in the nervous system where it is concentrated at neuromuscular junctions and also central synapses in the hippocampus and striatum. Approximately 10% of identified proteins at mammalian neuromuscular junctions are serine protease inhibitors, consistent with their central role in balancing serine protease activity to develop, maintain, and remodel synapses. Southern blot hybridization of
PNI
cDNA to somatic cell hybrids placed the structural gene for
PNI
(locus PI7) on human chromosome 2q33-q35 and to syntenic chromosomes in the mouse (chromosome 1) and sheep (chromosome 2).
...
PMID:The gene for the serpin thrombin inhibitor (PI7), protease nexin I, is located on human chromosome 2q33-q35 and on syntenic regions in the mouse and sheep genomes. 766 70
Protease nexin I
(
PNI
) is a 43- to 50-kDa glycoprotein capable of inhibiting a number of serine proteases and belongs to the serpin superfamily.
PNI
is identical to glia-derived nexin, a neurite outgrowth promoter by virtue of its
thrombin
-inhibiting activity. Of particular relevance to neuromuscular biology and pathology,
PNI
was the first serpin shown to be highly localized to the neuromuscular junction and it maps to precisely the same locus as autosomal recessive amyotrophic lateral sclerosis (ALSJ) at chromosome 2q33-35. In the present report, we now show that in cultures of human skeletal muscle,
PNI
protein is expressed only after myoblast fusion into multinuclear myotubes and is localized in patches on their surfaces. We performed complex formation experiments with labeled
thrombin
, another target protease for
PNI
, with intact human muscle cells in culture. We detected specific SDS-stable
PNI
/
thrombin
complexes in myotube extracts only, indicating that active
PNI
was bound to their surfaces. We studied the gene expression of
PNI
mRNA using a 300-bp cDNA synthesized from the published sequence of human
PNI
. Confirming the protein data, upregulation of
PNI
appears in myotubes using Northern blot analysis. The current results reinforce the hypothesis that the regulation of the balance of serine proteases and serpins, such as
PNI
, is involved in muscle differentiation. They also prompt us to explore
PNI
abnormalities in several neuromuscular diseases, including ALSJ.
...
PMID:Myoblast fusion promotes the appearance of active protease nexin I on human muscle cell surfaces. 854 75
Protease nexin I
(
PNI
), a serine protease inhibitor (serpin), is the most potent tissue inhibitor of
thrombin
. In the nervous system,
PNI
has been shown to participate in processes related to synaptic plasticity and neuronal survival. We assigned the human gene for
PNI
(P17) to chromosome 2q33-35, and to syntenic regions in mouse chromosome 1. Others showed that a similar serpin was expressed in mouse seminal vesicle, which presented the possibility of a "duplicate" gene. The data also raised controversy over the quantity of
PNI
mRNA expressed in the brain vs peripheral tissues, such as seminal vesicle. In order to further our investigations of
PNI
regulation and its influence on neuronal survival and neuroprotection, it was necessary to confirm whether the nexin observed in mouse brain samples was identical to the published protease nexin I sequences. To accomplish this, we performed DNA sequence analysis of cDNAs made from RNAs isolated from mouse forebrain and hindbrain as well as from seminal vesicle. These confirmed the identity of the mouse
PNI
gene (SPI4) in brain and peripheral tissues. Furthermore, Northern hybridization studies indicated that the
PNI
message is present at lower levels in the adult brain compared to the adult seminal vesicle. Western immunoblotting showed no differences between brain and seminal vesicle
PNI
proteins. The
PNI
cDNAs generated will serve as useful probes for the continued characterization of the serpin:protease balance as it relates to nerve cell function.
...
PMID:Protease nexin I (PNI) in mouse brain is expressed from the same gene as in seminal vesicle. 890 14
Neurofilamentous conglomerates (NfCg), as axonal spheroids or conglomerates in motoneurons, are the histopathologic hallmarks for early stages of amyotrophic lateral sclerosis (ALS). We hypothesize that NfCg may be formed by post-translational modifications of altered Nf proteins that include: (1) hyperphosphorylation, (2) glycosylation (or glycoxidation), (3) nitration, (4) ubiquitination and/or (5) crosslinking by the Ca++-dependent transglutaminase (TGase). These, as well as other changes, are predicted to be initiated or accentuated by oxidative damage. The damaged Nf proteins then activate cascades of intracellular protein degradation which include ATP-dependent ubiquitin/proteasome proteolysis. Other proteolytic systems, either Ca++-dependent or independent, may also be activated, such as serine and cysteine protease systems. These enzymes, either lysosomal or non-lysosomal may also participate in the degradation of damaged Nf proteins being balanced by their cognate inhibitors. Protein complexes formed by these protease=inhibitor systems, along with damaged Nf proteins, may accumulate within the cell bodies as neuronal inclusions, since a number of intracellular inclusions are found in motor neurons in ALS. In the current study, we investigated the involvement of serine proteases and their serpins in NfCg formation. Pairs of three serine proteases (trypsin, chymotrypsin and
thrombin
) and their cognate serpins (alpha1-anti-trypsin, alpha1-anti-chymotrypsin, and
protease nexin I)
were probed in motoneurons with their antibodies for both NfCg and inclusions. Positive immunoreactivities for all serine proteases and their cognate serpins support the contention that the imbalance of serine proteases and internalized serpins may have a role in formation of NfCg and inclusions, and hence, the pathogenesis of ALS.
...
PMID:Serpin=serine protease-like complexes within neurofilament conglomerates of motoneurons in amyotrophic lateral sclerosis. 985 54
Protease nexin I
is a 43-50 kDa glycoprotein capable of inhibiting a number of serine proteases. In cultured differentiated human skeletal muscle (myotubes), we previously found that protease nexin I was localized in patches at their surface where it was active and able to inhibit
thrombin
. To understand the role of skeletal muscle protease nexin I after injury or in inflammatory conditions where
thrombin
might be extravasated by blood vessels, we examined the role of inflammatory factors on protease nexin I synthesis and secretion by myotubes in culture. By enzyme-linked immunosorbent assay (ELISA) and Western blotting, we found that this serine protease inhibitor is secreted by cultured human myotubes.
Protease nexin I
secretion is stimulated by tumor necrosis factor-alpha, transforming growth factor-beta and interleukin-1. Complex formation experiments with labeled
thrombin
reveal active protease nexin I bound to the surface of the treated cells. Secreted protease nexin I-
thrombin
complex was enhanced in the presence of transforming growth factor-beta and tumor necrosis factor-alpha.
Protease nexin I
mRNA was detected by reverse transcription-polymerase chain reaction (RT-PCR) and Northern blot analysis. Whatever the conditions, no significantly different levels were observed, indicating that the changes in cell and media protease nexin I concentration are elicited at the translational/posttranslational levels. Immunocytochemical studies on human skeletal muscle biopsies of patients suffering from inflammatory myopathies showed an overexpression of protease nexin I together with the above inflammatory factors. These findings suggest that skeletal muscle protease nexin I might play a role after injury or inflammatory pathologies.
...
PMID:Protease nexin I expression is up-regulated in human skeletal muscle by injury-related factors. 1022 49
