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: UMLS:C0004352 (
autism
)
32,579
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Plasmin, a serine protease, is involved in many physiologically relevant processes, including haemostasis, cellular recruitment during immune response, tumour growth, and also neuronal migration and synaptic remodelling. Both tissue-type and
urokinase
-type plasminogen activators can be efficiently inhibited by plasminogen activator inhibitor-1 (PAI-1), a protease inhibitor of the serpin family. The human PAI-1 gene is located on chromosome 7q, within or close to a region that has been linked to
autism
in several linkage studies.
Autism
seems to be characterized by altered neuronal cytoarchitecture, synaptogenesis and possibly also cellular immune responses. We began addressing the potential involvement of the PAI-1 gene in autistic disorder with this linkage/association study, assessing transmission patterns of the 4G/5G polymorphism in the PAI-1 gene promoter that was previously shown to significantly affect PAI-1 plasma levels. No linkage/association was found in 167 trios with autistic probands, recruited in Italy and in the USA. We thus found no evidence that this polymorphism, or putative functionally relevant gene variants in linkage disequilibrium with it, confer vulnerability to autistic disorder.
...
PMID:No association between the 4g/5G polymorphism of the plasminogen activator inhibitor-1 gene promoter and autistic disorder. 1152 25
The
urokinase
receptor (uPAR) is a multifunctional glycosylphosphatidylinositol-anchored protein that regulates important processes such as gene expression, cell proliferation, adhesion, migration, invasion, and metastasis. uPAR is an essential component of the plasminogen activation cascade, a protease receptor that binds the
urokinase-type plasminogen activator
. uPAR is also an adhesion-modulating receptor, and a signalling receptor transmitting signals to the cell through lateral interactions with a wide array of membrane receptors. Altogether, the external ligands and membrane-bound partners of uPAR constitute a rich uPAR interactome. Recently, a new ligand of uPAR has been identified as the SRPX2 protein which is essential in language and cognitive development. SRPX2 is the second identified gene involved in language disorders. However, previous studies revealed cognitive disorders and defects in the development of the GABAergic interneurons in uPAR null mice. In addition, the expression of uPAR correlates with important human diseases such as epilepsy,
autism
, multiple sclerosis, Alzheimer's, AIDS dementia, cerebral malaria, and brain tumours. Therefore, uPAR has unexpectedly become a significant receptor in the central nervous system and made a few steps into philosophy. Language is indeed intimately linked to human culture. This in-depth review presents the structure and the sequences of uPAR that are essential for drug design and the generation of new inhibitors. In addition, we summarize all the inhibitors of uPAR that have been created so far. Finally, we discuss the functions of uPAR in the development, functioning, and pathology of the central nervous system.
...
PMID:The urokinase receptor in the central nervous system. 2087
As a key component of the plasminogen activation system, uPAR, the receptor for the plasminogen activator of the
urokinase
type, is involved in many physiological and pathological processes. Besides its classical roles, there has been increased evidence that uPAR or uPAR-associated pathways, participate in the development, in the functioning and in the pathology of the central nervous system. Qualitative and quantitative changes in the expressions of uPAR and of its canonical ligand
uPA
have been observed in a large variety of epileptic disorders, either in human or in animal models, as well as in other brain diseases (stroke and brain trauma, multiple sclerosis, Alzheimer's disease, cerebral malaria, HIV-associated leukoencephalopathy and encephalitis). The variety of such pathological conditions and the different brain areas and cell types involved, likely reflects the wide range and the complexity of the multiple and somehow intertwined pathophysiological mechanisms related with uPAR. In the mouse, the knock-out of the Upar-encoding gene (Plaur) leads to significant and nearly complete loss in parvalbumin-containing interneurons during brain development. This is associated with increased susceptibility to spontaneous and chemically-induced seizures and with increased anxiety and impaired social interactions. The recent identification of the novel uPAR ligand SRPX2 (Sushi repeat protein, X-linked 2) and the regulation of both the SRPX2 and PLAUR genes by transcription factor FOXP2 has shed novel and exciting insights into the role of uPAR-related molecular networks in rolandic epilepsy, in developmental verbal dyspraxia, in perisylvian polymicrogyria, and generally in disorders of the speech areas and circuits. uPAR, its regulators and partners, as well as other proteins containing Ly-6/uPAR/alpha-neurotoxin domains, represent key entry points for present and future studies not only on speech-related disorders but also on epilepsy and
autism
spectrum disorders.
...
PMID:The role of the urokinase receptor in epilepsy, in disorders of language, cognition, communication and behavior, and in the central nervous system. 2171 Dec 33
Binding of the extracellular matrix proteinase
urokinase-type plasminogen activator
(
uPA
) to its receptor, uPAR, regulates tissue remodeling during development and after injury in different organs, including the brain. Accordingly, mutations in the Plaur gene, which encodes uPAR, have been linked to language deficits,
autism
, and epilepsy, both in mouse and human. Whether uPAR deficiency modulates epileptogenesis and comorbidogenesis after brain injury, however, is unknown. To address this question, we induced traumatic brain injury (TBI) by controlled cortical impact (CCI) in 10 wild-type (Wt-CCI) and 16 Plaur-deficient (uPAR-CCI) mice. Sham-operated mice served as controls (10 Wt-sham, 10 uPAR-sham). During the 4-month follow-up, the mice were neurophenotyped by assessing the somatomotor performance with the composite neuroscore test, emotional learning and memory with fear conditioning to tone and context, and epileptogenesis with videoelectroencephalography monitoring and the pentylenetetrazol (PTZ) seizure susceptibility test. At the end of the testing, the mice were perfused for histology to analyze cortical and hippocampal neurodegeneration and mossy fiber sprouting. Fourteen percent (1/7) of the mice in the Wt-CCI and 0% in the uPAR-CCI groups developed spontaneous seizures (p>0.05; chi-square). Both the Wt-CCI and uPAR-CCI groups showed increased seizure susceptibility in the PTZ test (p<0.05), impaired recovery of motor function (p<0.001), and neurodegeneration in the hippocampus and cortex (p<0.05) compared with the corresponding sham-operated controls. Motor recovery and emotional learning showed a genotype effect, being more impaired in uPAR-CCI than in Wt-CCI mice (p<0.05). The findings of the present study indicate that uPAR deficiency does not increase susceptibility to epileptogenesis after CCI injury but has an unfavorable comorbidity-modifying effect after TBI.
...
PMID:Epileptogenesis after traumatic brain injury in Plaur-deficient mice. 2720 24
Recently it has been found that the
urokinase
receptor (uPAR) and its ligands -
urokinase
(
uPA
) and SRPX2 protein play an important role in the development and functioning of the brain. There is a strong association between uPAR gene polymorphism and
autism
disorders in humans. Patients with
autism
, intractable lobe epilepsy, verbal dyspraxia and perisylvian polymicrogyria display significant changes in uPAR expression. Mice, lacking the uPAR gene develop epilepsy and demonstrate abnormal social behavior.
uPA
and SRPX2 protein, have been shown to be involved in pathological brain conditions such as
autism
, cognitive deficits and language disorders. Urokinase system that stimulates blood vessel growth as demonstrated before, also plays an important role in the regulation of the nerve growth via matrix remodeling and activation of neurotrophic and angiogenic factors. Moreover, the
urokinase
system also functions as a guidance system which determines the growth trajectory of the vessels' and nerves' in tissue regeneration. This review summarizes and integrates the results and recent progress in the field of uPAR and its endogenous ligands in brain development and cognitive functions.
...
PMID:[PARTICIPATION OF UROKINASE RECEPTOR AND ITS ENDOGENOUS LIGANDS IN BRAIN DEVELOPMENT AND FORMATION OF COGNITIVE FUNCTIONS]. 3019 55
