Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.3.1.108 (TAT)
 2,389 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The N-type voltage-gated calcium channel (Cav 2.2) has gained immense prominence in the treatment of chronic pain. While decreased channel function is ultimately anti-nociceptive, directly targeting the channel can lead to multiple adverse side effects. Targeting modulators of channel activity may facilitate improved analgesic properties associated with channel block and a broader therapeutic window. A novel interaction between Cav 2.2 and collapsin response mediator protein 2 (CRMP-2) positively regulates channel function by increasing surface trafficking. We recently identified a CRMP-2 peptide (TAT-CBD3), which effectively blocks this interaction, reduces or completely reverses pain behavior in a number of inflammatory and neuropathic models. Importantly, TAT-CBD3 did not produce many of the typical side effects often observed with Cav 2.2 inhibitors. Notably chronic pain mechanisms offer unique challenges as they often encompass a mix of both neuropathic and inflammatory elements, whereby inflammation likely causes damage to the neuron leading to neuropathic pain, and neuronal injury may produce inflammatory reactions. To this end, we sought to further disseminate the ability of TAT-CBD3 to alter behavioral outcomes in two additional rodent pain models. While we observed that TAT-CBD3 reversed mechanical hypersensitivity associated with a model of chronic inflammatory pain due to lysophosphotidylcholine-induced sciatic nerve focal demyelination (LPC), injury to the tibial nerve (TNI) failed to respond to drug treatment. Moreover, a single amino acid mutation within the CBD3 sequence demonstrated amplified Cav 2.2 binding and dramatically increased efficacy in an animal model of migraine. Taken together, TAT-CBD3 potentially represents a novel class of therapeutics targeting channel regulation as opposed to the channel itself.
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PMID:Further insights into the antinociceptive potential of a peptide disrupting the N-type calcium channel-CRMP-2 signaling complex. 2182 88

Cortical spreading depression (CSD) is a propagating wave of depolarization followed by depression of cortical activity. CSD triggers neuroinflammation via the pannexin-1 (Panx1) channel opening, which may eventually cause migraine headaches. However, the regulatory mechanism of Panx1 is unknown. This study investigates whether sarcoma family kinases (SFK) are involved in transmitting CSD-induced Panx1 activation, which is mediated by the NR2A-containing N-methyl-D-aspartate receptor. CSD was induced by topical application of K+ to cerebral cortices of rats and mouse brain slices. SFK inhibitor, PP2, or NR2A-receptor antagonist, NVP-AAM077, was perfused into contralateral cerebral ventricles (i.c.v.) of rats prior to CSD induction. Co-immunoprecipitation and Western blot were used for detecting protein interactions, and histofluorescence for addressing Panx1 activation. The results demonstrated that PP2 attenuated CSD-induced Panx1 activation in rat ipsilateral cortices. Cortical susceptibility to CSD was reduced by PP2 in rats and by TAT-Panx308 that disrupts SFK-Panx1 interaction in mouse brain slices. Furthermore, CSD promoted activated SFK coupling with Panx1 in rat ipsilateral cortices. Moreover, inhibition of NR2A by NVP-AAM077 reduced elevation of ipsilateral SFK-Panx1 interaction, Panx1 activation induced by CSD and cortical susceptibility to CSD in rats. These data suggest NR2A-regulated, SFK-dependent Panx1 activity plays an important role in migraine aura pathogenesis.
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PMID:Sarcoma Family Kinase-Dependent Pannexin-1 Activation after Cortical Spreading Depression is Mediated by NR2A-Containing Receptors. 3207 42