Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0184567 (acute pain)
 3,962 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cyclin-dependent kinase 5 (cdk5) is a member of the serine-threonine kinase family of cyclin-dependent kinases. This family is known for its role in the cell cycle, but cdk5 differs due to its interaction with activators p35 or p39, both abundant in post-mitotic neurons. Cdk5 is not known to have a role in cell cycle regulation at all, but is known to be an important modulator of neuronal activity. Cdk5 has been an attractive target for CNS diseases for a number of years. Among its attractions is the possibility that inhibitors will prevent the pathological phosphorylation of tau and neurofibrillary pathology in both Alzheimer's disease and tauopathies. More recently, there has been evidence that cdk5 is involved in the processing of pain and therefore inhibitors would also have potential therapeutic value for acute pain. Several classes of potent chemical inhibitors for cdk5 have been identified but most are competitive with the ATP binding site, resulting in a lack of specificity among the other cyclin-dependent kinases as well as other ATP-dependent kinases. We are working to discover specific inhibitors that might disrupt the interaction of tau and cdk5 at sites other than the ATP binding site. We are screening our compound library of 110,000 compounds using the full length tau as a substrate and will separate ATP competitive from non-competitive binders. In addition, we are taking a computational approach with virtual screening to identify non-ATP-competitive binders. These two approaches may lead to the discovery of site-specific inhibitors for tau and cdk5 interactions rather than competitive inhibitors for ATP binding. The hope is that non-ATP competitive compounds will more likely be selective and will be better therapeutics.
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PMID:New approaches to the discovery of cdk5 inhibitors. 1822 May 19

Transforming growth factors-beta (TGF-betas) signal through type I and type II serine-threonine kinase receptor complexes. During ligand binding, type II receptors recruit and phosphorylate type I receptors, triggering downstream signaling. BAMBI [bone morphogenetic protein (BMP) and activin membrane-bound inhibitor] is a transmembrane pseudoreceptor structurally similar to type I receptors but lacks the intracellular kinase domain. BAMBI modulates negatively pan-TGF-beta family signaling; therefore, it can be used as an instrument for unraveling the roles of these cytokines in the adult CNS. BAMBI is expressed in regions of the CNS involved in pain transmission and modulation. The lack of BAMBI in mutant mice resulted in increased levels of TGF-beta signaling activity, which was associated with attenuation of acute pain behaviors, regardless of the modality of the stimuli (thermal, mechanical, chemical/inflammatory). The nociceptive hyposensitivity exhibited by BAMBI(-/-) mice was reversed by the opioid antagonist naloxone. Moreover, in a model of chronic neuropathic pain, the allodynic responses of BAMBI(-/-) mice also appeared attenuated through a mechanism involving delta-opioid receptor signaling. Basal mRNA and protein levels of precursor proteins of the endogenous opioid peptides proopiomelanocortin (POMC) and proenkephalin (PENK) appeared increased in the spinal cords of BAMBI(-/-). Transcript levels of TGF-betas and their intracellular effectors correlated directly with genes encoding opioid peptides, whereas BAMBI correlated inversely. Furthermore, incubation of spinal cord explants with activin A or BMP-7 increased POMC and/or PENK mRNA levels. Our findings identify TGF-beta family members as modulators of acute and chronic pain perception through the transcriptional regulation of genes encoding the endogenous opioids.
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PMID:BAMBI (bone morphogenetic protein and activin membrane-bound inhibitor) reveals the involvement of the transforming growth factor-beta family in pain modulation. 2010 78