Skin, heart, and neuronal disorders

Cardiofaciocutaneous syndrome; Noonan syndrome; Costello syndrome; Cardiofaciocutaneous syndrome 4; Leopard syndrome; Neurofibromatosis-Noonan syndrome (NFNS); Map2k2-related cardiofaciocutaneous syndrome

The rare Cardiofaciocutaneous Syndrome can affect the heart (cardio-), face (facio-), skin, and hair (cutaneous). Symptoms can include mild to severe cognitive disability, and developmental delay. Noonan Syndrome is a rare disorder that involves the thickening and hardening of the heart muscles. Costello Syndrome sufferers share many of the same symptoms as Cardiofaciocutaneous Syndrome, including mild to severe cognitive disability, and developmental delay, but they also have characteristic facial features, extremely flexible joints, folds of loose skin, and an unusually fast heartbeat. In Cardiofaciocutaneous Syndrome 4 (CFC4) a mutation in MEK2, P128Q, can lead to an increase in kinase phosphotransferase activity. Leopard Syndrome is a rare yet very distinctive disorder where sufferers are marked with spots on their skin. They also suffer from abnormalities in the heart, widely spaced eyes, abnormal genitalia, short stature, and hearing loss. Neurofibromatosis-Noonan Syndrome (NFNS) is a rare disorder characterized by cognitive impairment, psychomotor impairment, learning disabilities, dwarfism, and abnormal development of the torso.
 

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: Brain glioblastomas (%CFC= +106, p<0.062); Brain oligodendrogliomas (%CFC= +209, p<0.002); Large B-cell lymphomas (%CFC= +53, p<0.006); Skin melanomas - malignant (%CFC= +274, p<0.0001); and Uterine leiomyomas (%CFC= +47, p<0.082). The COSMIC website notes an up-regulated expression score for MEK2 in diverse human cancers of 406, which is 0.9-fold of the average score of 462 for the human protein kinases. The down-regulated expression score of 30 for this protein kinase in human cancers was 0.5-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: 0.07 % in 26285 diverse cancer specimens. This rate is only -3 % lower and is very similar to 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: 0.31 % in 1280 large intestine cancers tested; 0.31 % in 1139 skin cancers tested.

None > 4 in 21,282 cancer specimens

No deletions, insertions or complex mutations are noted on the COSMIC website.