Signaling pathways protein kinase family

The protein kinase family encompasses more than three hundred members of critically important enzymes, each one with a specific role or function within the cell. These enzymes, ATP-phosphotransferases, recognize target proteins and through the phosphorylation of specific sites either activate or deactivate a particular pathway of signal transduction. Many of these signaling pathways are associated with cell surface receptors, which are located in the membranes that surround cells. The difference between the families of protein kinases is that they have different targets and generally fall into two major classes ... 

Neurotrophins (NGF brain-derived neurotrophic factor, BDNF neurotrophin-3, NT-3 NT-4 NT-6) are important regulators of neural survival, development, function, and plasticity of the vertebrate nervous system [1]. Neurotrophins generally function as noncovalently associated homodimers. They activate two different classes of receptors, through which signaling pathways can be activated, including those mediated by Ras and members of the cdc42/rac/rho G protein families, MAP kinase, PI-3 kinase, and Jun kinase cascades. 

FIGURE 8.6 Parallel pathways to transcription and the MAP kinase family. The MAP kinases can be classified into three groups, based on the identity of the intermediate residue in their dual phosphorylation motifs (TEY, TGY, or TPY). This classification also defines three distinct signal-transduction pathways indicated as the ERK, the JNK/SAPK, and the p38/HOG pathway, each having unique protein kinases acting upstream. 

Several independent laboratories have now demonstrated that both lithium and valproate (VPA) exert complex, isozyme-specific effects on the PKC (protein kinase C) signaling cascade (reviewed in [3, 5, 11-13]). Not surprisingly, considerable research has recently attempted to identify changes in the activity of transcription factors known to be regulated (at least in part) by the PKC signaling pathway - in particular the activator protein 1 (AP-1) family of transcription factors. In the CNS, the genes that are regulated by AP-1 include those for various neuropeptides, neurotrophins, receptors, transcription factors, enzymes involved in neurotransmitter synthesis, and proteins that bind to cytoskeletal elements [14]. 

Intracellular and extracellular ROS activate tyrosine and serine-threonine kinases (i.e., the MAPK family members). Following TNF-a, TGF-f5 or EGF stimulation, intracellular ROS are generated which stimulate various signaling pathways [73], Tyrosine kinase receptors (e.g., EGF, PDGF and TGF-a) may be activated by ROS directly via protein sulfhydryl group modifications, or inhibition of phosphotyrosine phosphatases (PTPases) and subsequent receptor activation. The latter is possible as PTPases contain a redox-sensitive cysteine at their active site [78], and oxidation of protein sulfhydryl groups results in the inactivation of PTPases. 

---