Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UNIPROT:Q00604 (
X-linked
)
16,883
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Sushi repeat-containing protein,
X-linked
2, abbreviated as
SRPX2
, is a candidate downstream target protein for E2A-HLF and involved in disorders of language cortex and cognition. Recent studies have demonstrated that elevated
SRPX2
exhibits crucial roles in gastric cancer, however, underlying clinical significance and biological function of
SRPX2
in pancreatic ductal adenocarcinoma (PDAC), remains unclear. Data from Oncomine database showed that higher
SRPX2
expression is more commonly observed in PDAC compared with normal pancreatic duct, similar results were also found in 12 matched PDAC tissue samples, 7 PDAC cell lines and a tissue microarray containing 81 PDAC specimens as demonstrated by real-time quantitative PCR and immunohistochemistry, respectively. Besides, higher
SRPX2
expression was closely correlated with advanced TNM stage. Silencing of endogenous
SRPX2
expression reduced abilities of cell migration and invasion of PDAC cells. Further studies revealed that
SRPX2
expression in PDAC tissues significantly correlated with the phosphorylation levels of FAK, indicating that FAK dependent pathway may be account for the effect of
SRPX2
on cell migration and invasion in PDAC. Collectively, this study reveals that frequently elevated
SRPX2
contributes to cell migration and invasion in PDAC and
SRPX2
-related pathways might be a potential therapeutic target for PDAC.
...
PMID:SRPX2 promotes cell migration and invasion via FAK dependent pathway in pancreatic cancer. 2619 Nov 69
Several components of the urokinase-type plasminogen activator receptor (uPAR)-interactome, including uPAR and its ligand
sushi-repeat protein
2,
X-linked
(
SRPX2
), are linked to susceptibility to epileptogenesis in animal models and/or humans. Recent evidence indicates that urokinase-type plasminogen activator (uPA), a uPAR ligand with focal proteinase activity in the extracellular matrix, contributes to recovery-enhancing brain plasticity after various epileptogenic insults such as traumatic brain injury (TBI) and status epilepticus. Here, we examined whether deficiency of the uPA-encoding gene Plau augments epileptogenesis after TBI. Traumatic brain injury was induced by controlled cortical impact in the somatosensory cortex of adult male wild-type and Plau-deficient mice. Development of epilepsy and seizure susceptibility were assessed with a 3-week continuous video-electroencephalography monitoring and a pentylenetetrazol test, respectively. Traumatic brain injury-induced cortical or hippocampal pathology did not differ between genotypes. The pentylenetetrazol test revealed increased seizure susceptibility after TBI (p<0.05) in injured mice. Epileptogenesis was not exacerbated, however, in Plau-deficient mice. Taken together, Plau deficiency did not worsen controlled cortical impact-induced brain pathology or epileptogenesis caused by TBI when assessed at chronic timepoints. These data expand previous observations on Plau deficiency in models of status epilepticus and suggest that inhibition of focal extracellular proteinase activity resulting from uPA-uPAR interactions does not modify epileptogenesis after TBI.
...
PMID:Epileptogenesis after traumatic brain injury in Plau-deficient mice. 2625 97
The
SRPX2
gene (Sushi-repeat-containing protein,
X-linked
, 2, OMIM*300642), located on Xq22.1, encodes a secreted protein that is highly expressed in neurons of cerebral cortex.
SRPX2
was first implicated in neurodevelopment, learning and rolandic seizure when two patients with potentially pathogenic variants, c.980A>G (p.Asn327Ser) and c.215A>C (p.Tyr72Ser), in
SRPX2
gene were identified. Subsequent experimental studies demonstrated that
SRPX2
is needed for vocalization and synapse formation in mice, and that both silencing
SRPX2
and injecting (p.Asn327Ser) in mouse models results in alteration in neuronal migration in cerebral cortex and epilepsy. A number of studies demonstrated that
SRPX2
interacts with FOXP2 (Foxhead box protein P2), a gene responsible for speech and language disorder, and that FoxP2 controls timing and level of expression of
SRPX2
. Despite the supportive evidence for the role of
SRPX2
in speech and language development and disorders, there are questions over its definitive association with neurodevelopmental disorders and epilepsy. In this paper, the role of
SRPX2
as one in a network of many genes involved in speech and language is discussed. The goal of this paper is to examine the role of
SRPX2
variants through describing two patients with potentially pathogenic variants in
SRPX2
, c.751G>C (p.Ala251Pro) and c.762G>T (p.Lys254Asn) presenting with language and motor delay, intellectual disability as well as congenital anomalies. We explore the contribution of
SRPX2
variants to clinical phenotype in our patients and conclude that these variants at least partially explain the phenotype. Further studies are necessary to establish and confirm the association between
SRPX2
and neurodevelopment particularly speech and language development.
...
PMID:Exploring the association between SRPX2 variants and neurodevelopment: How causal is it? 3039 91
<< Previous
1
2
