Cancer

CDK4-linked melanomas; Astrocytomas; Glioblastomas multiforme; melanomas, cutaneous malignant, 3; Liposarcoma; Familial melanomas; Retinoblastomas; Oligodendrogliomas; Esophageal cancer; Lipoma; Gliosarcomas; Pilocytic astrocytomas; Anaplastic oligodendrogliomas; Dedifferentiated liposarcomas; Osteosarcomas; Atypical lipomatous tumours; Cutaneous malignant melanomas; Atypical mole syndrome; Chondromas; Pleomorphic xanthoastrocytomas; Female breast carcinomas; Embryonal sarcomas; Plasma cell leukemias; Ewing's family of tumours; Spindle cell lipomas; Chordoid gliomas; Retroperitoneal sarcoma; Undifferentiated embryonal sarcoma of the liver; Superficial spreading melanomas; Mixed-type liposarcoma; Spindle cell liposarcomas; Juxtacortical osteosarcomas; Melanomas, malignant, somatic; CDK4-related cutaneous malignant melanomas

CDK4 appears to be an oncoprotein (OP). Inactivating germline mutations in the p16 gene have been observed in ~50% of patients with familial hereditary melanoma, indicating a potential role for elevated CDK4 activity in tumorigenesis. Mutations in the p16 gene have been observed in small cell lung carcinomas as well as other cancer types. In addition, several mutations in the CDK4 gene seqeunce have been identified in melanoma patients, including a somatic R24C substitution and a germline R24H substitution. The somatic R24C mutation prevents p16 binding and inhibition of the CDK4 protein, but does not affect the CDK4-cyclin-D interation or the kinase catalytic activity of the protein. Both the R24C and inactivating p16 mutations are predicted to result in the oncogenic activation of the CDK4 protein, as the p16-mediated negative regualtion has been eliminated. In addition to melanoma, CDK4 expression is also required for the tumorigenesis of primary epithelial cells. In the resulting epithelial tumour cells, CDK4 activity appears to be stimulated by the oncogenic activity of RAS, highlighting the potential importance of CDK4 suppression for the prevention of uncontrolled epithelial cell growth. In addition, CDK4 activity is necessary for RAS-mediated transformation in a variety of cancer types. Furthermore, over-expression of both the CDK4 gene and protein are observed in a significant proportion of human breast cancer specimens, corresponding with elevated levels of the cyclin D1 protein. Cyclin D1 has been shown to have a critical role in ErbB2- and Ras-mediated breast cancer tumorigenesis, indicating that an interaction between CDK4 and cyclin D1 might promote breast cancer development. Additionally, elevated expression of CDK4 is also commonly observed in sarcoma and glioma cancer cells. In general, CDK4 levels are up-regulated 1.6-fold in human tumours compared to most other protein kinases. Therefore, the CDK4 protein appears to have a key role in the promotion of tumorigenesis, either due to a mutation that prevents p16-mediated inhibition of the CDK4 protein or resulting from the elevated expression of CDK4 that effectively overwhelms the inhibitory capacity of the normal levels of p16 protein.
 

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: Bladder carcinomas (%CFC= +94, p<0.0001); Cervical cancer (%CFC= -64, p<0.0001); Classical Hodgkin lymphomas (%CFC= +165, p<0.003); Colon mucosal cell adenomas (%CFC= +126, p<0.0001); Gastric cancer (%CFC= +80, p<0.0002); Large B-cell lymphomas (%CFC= +275, p<0.001); Lung adenocarcinomas (%CFC= +53, p<0.006); Malignant pleural mesotheliomas (MPM) tumours (%CFC= +133, p<0.0001); Oral squamous cell carcinomas (OSCC) (%CFC= +173, p<0.022); Skin fibrosarcomas (%CFC= +134); Skin melanomas - malignant (%CFC= +177, p<0.0001); and Vulvar intraepithelial neoplasia (%CFC= +47, p<0.012); The COSMIC website notes an up-regulated expression score for CDK4 in diverse human cancers of 730, which is 1.6-fold of the average score of 462 for the human protein kinases. The down-regulated expression score of 24 for this protein kinase in human cancers was 0.4-fold of the average score of 60 for the human protein kinases.

Insertional mutagenesis studies in mice have not yet revealed a role for this protein kinase in mouse cancer oncogenesis.

Percent mutation rates per 100 amino acids length in human cancers: 0.07 % in 26351 diverse cancer specimens. This rate is only -11 % lower 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: 0.3 % in 1335 large intestine cancers tested.

None > 4 in 21,410 cancer specimens

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