Cancer, neurological, and bone disorders

Alzheimer's disease; Craniofrontonasal syndrome

Eph receptors regulate synaptic localization and/or retention of the NMDA receptor (NMDAR) in mouse brain via direct interaction and through Src-mediated tyrosine phosphorylation.This relationship between EphB2 and NMDAR may underlie the development of Alzheimer’s disease, since Amyloid-beta protein (A beta) binding to EphB2 prevents EphB2-NMDAR interactions, which leads to NMDAR internalization, decreased synaptic strength and memory impairment. Stress-induced cleavage of EphB2 by Neuropsin causes dissociation of EphB2 from the NMDAR subunit NR1, which can promote increased turnover of EphB2. With increased EphB2-NR1 binding, this can enhance NMDAR activity and promote the development of anxiety disorders. In response to EphB2 down-regulation in mice infect with lentivirus that express anti-EphB2 short hairpinRNA, hippocampal granule cells showed declines in long term potentiation, which indicates a role for EphB2 in synaptic plasticity.
 

Familial prostate cancer (FPC); Prostate cancer (PC); Colorectal cancer (CRC)

EPHB2 appears to be a tumour suppressor protein (TSP). The active form of the protein kinase normally acts to inhibit tumour cell proliferation. EphB2 mutations have been found in prostate cancer. Most prostate cancers are adenocarcinomas that derived from acini of the prostatic ducts. K1019X mutation was significantly more common in African American probands. Over-expression of EphB2 has been frequently detected in both well-differentiated adenocarcinomas (10 of 13) and poorly differentiated adenocarcinomas (9 of 14).
 

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: Cervical cancer stage 2A (%CFC= +85, p<0.002); Colon mucosal cell adenomas (%CFC= +156, p<0.0001); Gastric cancer (%CFC= +462, p<0.0001); Lung adenocarcinomas (%CFC= +111, p<0.0001); and Ovary adenocarcinomas (%CFC= +103, p<0.003). The COSMIC website notes an up-regulated expression score for EPHB2 in diverse human cancers of 402, which is 0.9-fold of the average score of 462 for the human protein kinases. The down-regulated expression score of 2 for this protein kinase in human cancers was 97% lower than 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 25397 diverse cancer specimens. This rate is only 34 % 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: 0.69 % in 854 skin cancers tested; 0.34 % in 1093 large intestine cancers tested; 0.33 % in 602 endometrium cancers tested; 0.29 % in 589 stomach cancers tested; 0.14 % in 1942 lung cancers tested; 0.12 % in 1226 kidney cancers tested.

Most frequent mutations with the number of reports indicated in brackets: E615K (5).

Only 11 deletions (8 at I393fs*19), and no insertions or complex mutations are noted on the COSMIC website.