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Compound
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Gene/Protein
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Target Concepts:
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Query: EC:2.3.1.108 (
TAT
)
2,389
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In most circumstances, NF-kappaB, which is essential for osteoclastogenesis, is activated following serine 32/36 phosphorylation of its cytosolic inhibitory protein, IkappaBalpha. In contrast to other cell types, IkappaBalpha, in bone marrow macrophages (BMMs), which are osteoclast precursors, is tyrosine-phosphorylated by
c-Src
kinase. To address the role of IkappaBalpha phosphorylation in osteoclastogenesis, we generated
TAT
fusion proteins containing wild-type IkappaBalpha (TAT-WT-IkappaB), IkappaBalpha lacking its NH(2)-terminal 45 amino acids (TAT-IkappaB(46-317)), and IkappaBalpha in which tyrosine residue 42, the
c-Src
target, is mutated into phenylalanine (TAT-IkappaB(Y42F)).
TAT
-IkappaB efficiently enters BMMs, and the NF-kappaB-inhibitory protein, once intracellular, is functional. While
TAT
-WT-IkappaB only slightly inhibits osteoclastogenesis, osteoclast recruitment is diminished >80% by
TAT
-IkappaB(46-317), an event mirrored by dentin resorption. The fact that
TAT
alone does not impact osteoclastogenesis, which also resumes following withdrawal of
TAT
-IkappaB(46-317), establishes that the mutant's anti-osteoclastogenic properties do not reflect toxicity. Affirming a functional role for IkappaB(Tyr(42)) in osteoclastogenesis,
TAT
-IkappaB(Y42F) is as efficient as
TAT
-IkappaB(46-317) in blocking osteoclast differentiation. Thus, dominant-negative IkappaBalpha constructs block osteoclastogenesis, and Tyr(42) is essential to the process, increasing the possibility that nonphosphorylatable forms of IkappaBalpha may be a means of preventing pathological bone loss.
...
PMID:TAT fusion proteins containing tyrosine 42-deleted IkappaBalpha arrest osteoclastogenesis. 1140 88
Wiskott Aldrich Syndrome protein (WASP) has a unique regulatory role in sealing ring formation and bone resorption in osteoclasts. Here, using the
TAT
-transduction method, we show the possible role of WASP domain(s) in sealing ring formation and bone resorption. Transduction of
TAT
-fused full-length WASP peptide induced Arp2/3 complex formation, F-actin content, sealing ring formation and bone resorption. Transduction of WASP peptides containing basic, verpolin-central, pTyr294, and proline-rich regions inhibited the processes listed above at various levels. The ability to resorb bone by WASP peptides containing basic, verpolin-central, and proline-rich regions was reduced and the resorbed area matched the size of the sealing ring. However, osteoclasts transduced with WASP peptide containing pTyr294aa demonstrated the following: a) a considerable decrease in the interaction and phosphorylation of
c-Src
with endogenous WASP; b) total loss of sealing ring-like structures; c) formation of actin-rich patches at the peripheral edge that contains filopodia-like projections; d) reduced capacity for bone resorption in vitro. These findings suggest that modulation of phosphorylation state of pTyr294aa assists in integrating multiple signaling molecule and pathways that partake in the assembly of sealing ring.
...
PMID:Dramatic inhibition of osteoclast sealing ring formation and bone resorption in vitro by a WASP-peptide containing pTyr294 amino acid. 1828 79
Connexin43 (CX43), a protein that forms gap junction channels and hemichannels in astrocytes, is downregulated in high-grade gliomas. Its relevance for glioma therapy has been thoroughly explored; however, its positive effects on proliferation are counterbalanced by its effects on migration and invasion. Here, we show that a cell-penetrating peptide based on CX43 (
TAT
-Cx43
266-283
) inhibited
c-Src
and focal adhesion kinase (FAK) and upregulated phosphatase and tensin homolog in glioma stem cells (GSCs) derived from patients. Consequently,
TAT
-Cx43
266-283
reduced GSC motility, as analyzed by time-lapse microscopy, and strongly reduced their invasive ability. Interestingly, we investigated the effects of
TAT
-Cx43
266-283
on freshly removed surgical specimens as undissociated glioblastoma blocks, which revealed a dramatic reduction in the growth, migration, and survival of these cells. In conclusion, a region of CX43 (amino acids 266-283) exerts an important anti-tumor effect in patient-derived glioblastoma models that includes impairment of GSC migration and invasion.
...
PMID:A Short Region of Connexin43 Reduces Human Glioma Stem Cell Migration, Invasion, and Survival through Src, PTEN, and FAK. 2871 48
Here we present a protocol to study intracellular protein-protein interactions that is based on the widely used biotin-avidin pull-down system. The modification presented includes the combination of this technique with cell-penetrating sequences. We propose to design cell-penetrating baits that can be incubated with living cells instead of cell lysates and therefore the interactions found will reflect those that occur within the intracellular context. Connexin43 (Cx43), a protein that forms gap junction channels and hemichannels is down-regulated in high-grade gliomas. The Cx43 region comprising amino acids 266-283 is responsible for the inhibition of the oncogenic activity of
c-Src
in glioma cells. Here we use
TAT
as the cell-penetrating sequence, biotin as the pull-down tag and the region of Cx43 comprised between amino acids 266-283 as the target to find intracellular interactions in the hard-to-transfect human glioma stem cells. One of the limitations of the proposed method is that the molecule used as bait could fail to fold properly and, consequently, the interactions found could not be associated with the effect. However, this method can be especially interesting for the interactions involved in signal transduction pathways because they are usually carried out by intrinsically disordered regions and, therefore, they do not require an ordered folding. In addition, one of the advantages of the proposed method is that the relevance of each residue on the interaction can be easily studied. This is a modular system; therefore, other cell-penetrating sequences, other tags, and other intracellular targets can be employed. Finally, the scope of this protocol is far beyond protein-protein interaction because this system can be applied to other bioactive cargoes such as RNA sequences, nanoparticles, viruses or any molecule that can be transduced with cell-penetrating sequences and fused to pull-down tags to study their intracellular mechanism of action.
...
PMID:Biotinylated Cell-penetrating Peptides to Study Intracellular Protein-protein Interactions. 2928 77
The non-receptor tyrosine kinase
c-Src
is an important mediator in several signaling pathways related to neuroinflammation. Our previous study showed that cortical injection of kainic acid (KA) promoted a transient increase in
c-Src
activity in reactive astrocytes surrounding the neuronal lesion. As a cell-penetrating peptide based on connexin43 (Cx43), specifically
TAT
-Cx43
266-283
, inhibits Src activity, we investigated the effect of
TAT
-Cx43
266-283
on neuronal death promoted by cortical KA injections in adult mice. As expected, KA promoted neuronal death, estimated by the reduction in NeuN-positive cells and reactive gliosis, characterized by the increase in glial fibrillary acidic protein (GFAP) expression. Interestingly,
TAT
-Cx43
266-283
injected with KA diminished neuronal death and reactive gliosis compared to KA or KA+TAT injections. In order to gain insight into the neuroprotective mechanism, we used
in vitro
models. In primary cultured neurons,
TAT
-Cx43
266-283
did not prevent neuronal death promoted by KA, but when neurons were grown on top of astrocytes,
TAT
-Cx43
266-283
prevented neuronal death promoted by KA. These observations demonstrate the participation of astrocytes in the neuroprotective effect of
TAT
-Cx43
266-283
. Furthermore, the neuroprotective effect was also present in non-contact co-cultures, suggesting the contribution of soluble factors released by astrocytes. As glial hemichannel activity is associated with the release of several factors, such as ATP and glutamate, that cause neuronal death, we explored the participation of these channels on the neuroprotective effect of
TAT
-Cx43
266-283.
Our results confirmed that inhibitors of ATP and NMDA receptors prevented neuronal death in co-cultures treated with KA, suggesting the participation of astrocyte hemichannels in neurotoxicity. Furthermore,
TAT
-Cx43
266-283
reduced hemichannel activity promoted by KA in neuron-astrocyte co-cultures as assessed by ethidium bromide (EtBr) uptake assay. In fact,
TAT
-Cx43
266-283
and dasatinib, a potent
c-Src
inhibitor, strongly reduced the activation of astrocyte hemichannels. In conclusion, our results suggest that
TAT
-Cx43
266-283
exerts a neuroprotective effect through the reduction of hemichannel activity likely mediated by
c-Src
in astrocytes. These data unveil a new role of
c-Src
in the regulation of Cx43-hemichannel activity that could be part of the mechanism by which astroglial
c-Src
participates in neuroinflammation.
...
PMID:A c-Src Inhibitor Peptide Based on Connexin43 Exerts Neuroprotective Effects through the Inhibition of Glial Hemichannel Activity. 2932 48
