a-novel-approach-to-ameliorate-and-provide-a-protective-role-in-neurodegenerative-diseases-by-a-novel-peptide-tfp5tp5-derived-from-cdk5-activator-p35/#

2017 Cancer Studies and Therapeutics  
Short Communication The etiology of AD and other age-related neurodegenerative disorders is complex, involving as it does, many multivariate interacting pathways among which are aging itself, inflammation, mitochondrial ROS disorders, hyperactive kinases such as Cdk5, mutations in amyloid precursor protein (APP), secretases and tau processing. The identification of gene mutations responsible for neurodegeneration in humans has led to development of a variety of transgenic mouse models, each
more » ... se models, each expressing a neurodegenerative phenotype such as AD, PD or ALS. For AD, for example, an extensive model mouse literature has accumulated validating one or another pathway as specifically responsible for the behavioral and pathological disease phenotype (e.g. Elder et al, 2010, Landreth et al, 2012. And, in some instances, these mutant mice have been claimed successfully "cured" or "rescued" to some extent by agents or manipulations that restore the damaged pathways. These are touted as potential therapeutic candidates. Our current research program evolved after years of basic science studies of neuronal cytoskeletal protein phosphorylation during nervous system development and function, A brief summary of our accomplishments over the years should illustrate how we arrived at our present program. We found that neurofilaments, the major axonal proteins, are selectively phosphorylated in axons [1-4]. Using a neurofilament assay, our laboratory identified cyclin dependent kinase 5 (Cdk5), together with its activator, P35, as one of the principal kinases regulating neuronal topographic phosphorylation biology and physiology. The multifunctional kinase, Cdk5, was initially characterized as a tau protein kinase (Ishiguro et al., 1991), a proline directed kinase (Lew et al., 1994; Lew et al., 1995; Lew and Wang, 1995) or a cdc-2 like kinase in our lab (Shetty et al 1993, Shetty et al., 1995, presently known as Cdk5. We as well as other laboratories have shown that Cdk5 is a tightly regulated multifunctional kinase essential for neuronal development, neurogenesis, migration, synaptic activity, memory / learning and survival, phosphorylating a large number of target protein substrates [5-10]. Cdk5 when deregulated by neuronal stress (e.g., glutamate excitotoxicity, A toxicity, Reactive Oxygen Species ,ROS, and others), Cdk5 activity is deregulated and hyperactivated as a stable complex with p25 (a truncated fragment of p35, a major activator of Cdk5) and induces perikaryal hyperphosphorylated tau, neurofilament proteins (NF-M/H), and other neuronal intermediate filament proteins as seen in AD, PD and ALS [11, 12] , thus Cdk5/p25 becomes a pathological target. This relationship to AD and other pathologies has been documented in studies of AD brains showing high levels of p25, reduced p35/p25 ratios and Cdk5 hyperactivity [13, 14] Zheng et al 2010, Furthermore, we have confirmed that Cdk5/p25 induces tau and NFP aberrant hyperphosphorylation along with cell death in cultured cortical neurons [14, 15] . Consistent with this hypothesis is a p25overexpressing model mouse, developed by Dr. Tsai's lab and recently our own lab, that displays the typical AD abnormal phenotype [16]. Accordingly, hyperactive Cdk5/p25 has been identified as a possible therapeutic target for neurodegeneration. Recently, a more compelling role of hyperactive Cdk5/p25 as a significant factor in the etiology of AD comes from studies of cell cultures in vitro [14, 15] and model mice in vivo as documented in two publications. Since the binding of p25, the proteolytic fragment of p35, induces deregulated and hyperactivated Cdk5, we asked the question what is the role of smaller truncated peptides of p25 in the regulation of Cdk5 activity? This has led us to isolation and identification of peptides derived from p35 (CIP , cdk5 inhibitory peptide and P5, a 24 amino acid peptide derived from p25) that specifically inhibited the hyperactive Cdk5/p25 without affecting the physiologically normal Cdk5/p35 [12,14,15] (Amin et al., 2002] Consistent with the model, we succeeded in showing that pathological and behavioral phenotypes in AD model mice (over-expressing p25 transgenic) and the 5XFAD transgenic can be alleviated after treatment with CIP and TFP5, our in vivo therapeutic reagents (Sundaram et al, 2013, Shukla et al, 2013. We viewed these peptides as potential therapeutic candidates for rescuing neurodegenerative disorders in model mice sharing the hyperactivated Cdk5-induced phenotypes. Currently, most therapeutic approaches targeting the deregulated Cdk5/p25 complex and other kinases in neurodegenerative disorders and cancer have focused primarily on drugs like roscovitine, ATP analog, that inhibit Cdk5 activity by interfering with the ATP binding domain of the kinase. Most of these drugs, however, lack sufficient specificity, since all kinases including cell cycle Cdks including Cdk5, are vulnerable at the ATP binding site targeted by these drugs. In order to make P5, small 24 amino acid peptide an in vivo therapeutic reagent, we
doi:10.31038/cst.2017273 fatcat:havwolufybeqflygf5limjqzc4