Neurological disorders

Alzheimer's disease (AD)

Alzheimer's disease (AD) is a neurodegenerative disease that causes progressive loss of memory, judgement, and other cognitive processes. The hallmark of AD pathology is the deposition of beta-amyloid plaques and tau tangles. These abnormalities are implicated in the disruption of cellular communication, oxidative cell damage, and eventual cell death. Multiple genes are thought to contribute to AD suceptibility along with epigenetic and environmental factors. Aggregation of hyperphosphorylated tau protein is a characteristic of AD pathology. Tau is a microtubule-associated protein that is expressed in different isoforms in the brain. Exon 10 of the tau gene encodes one of the four microtubule binding repeat domains found in the gene, therefore alternative splicing of the tau gene to either include (4 repeats) or exclude (3 repeats) exon 10 creates different isoforms of the tau protein. The ratio between the 3-repeat and 4-repeat isoform is tightly regulated in the normal nervous system and its distortion is correlated with neurodegenerative diseases and pathologies such as AD. Furthermore, post-mortem analysis of AD patient brain tissue revealed a significantly elevated proportion of tau mRNA with 4-repeats, indicating misregulation of tau splicing in AD. The CLK2 protein is one of several regulators of exon 10 splicing in the tau gene, therefore defects in the catalytic activity of CLK2 may contribute to the distorted ratio seen in AD resulting from the abnormal regulation of splicing.
 

TranscriptoNET (www.transcriptonet.ca) analysis with mRNA expression data retrieved from the National Center for Biotechnology Information's Gene Expression Omnibus (GEO) database, which was normalized against 60 abundantly and commonly found proteins, indicated altered expression for this protein kinase as shown here as the percent change from normal tissue controls (%CFC) as supported with the Student T-test in the following types of human cancers: Barrett's esophagus epithelial metaplasia (%CFC= +55, p<0.036); Bladder carcinomas (%CFC= +56, p<0.006); Brain glioblastomas (%CFC= -96, p<0.006); Brain oligodendrogliomas (%CFC= -84, p<0.003); Large B-cell lymphomas (%CFC= +70, p<0.0006); Malignant pleural mesotheliomas (MPM) tumours (%CFC= +193, p<0.002); Ovary adenocarcinomas (%CFC= +67, p<0.009); and Skin melanomas - malignant (%CFC= +89, p<0.005). The COSMIC website notes an up-regulated expression score for CLK2 in diverse human cancers of 1208, which is 2.6-fold of the average score of 462 for the human protein kinases. The down-regulated expression score of 61 for this protein kinase in human cancers was 1-fold of the average score of 60 for the human protein kinases.

Insertional mutagenesis studies in mice support a role for this protein kinase in mouse cancer oncogenesis.

Percent mutation rates per 100 amino acids length in human cancers: 0.1 % in 24752 diverse cancer specimens. This rate is only 30 % higher than the average rate of 0.075 % calculated for human protein kinases in general.

Highest percent mutation rates per 100 amino acids length in human cancers: 0.49 % in 864 skin cancers tested; 0.37 % in 589 stomach cancers tested; 0.36 % in 1270 large intestine cancers tested; 0.3 % in 603 endometrium cancers tested; 0.29 % in 273 cervix cancers tested; 0.21 % in 1512 liver cancers tested; 0.16 % in 1634 lung cancers tested.

Most frequent mutations with the number of reports indicated in brackets: P436L (5). These mutations are located in the kinase catalytic domain.

Only 2 deletions, no insertions or complex mutations are noted on the COSMIC website.