Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.10.1 (ERK)
 95,504 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Esophageal squamous cell carcinoma (ESCC) is a frequent form of cancer that shows striking variations in geographic distribution, reflecting exposure to specific environmental factors that are still poorly defined. ESCC develops as the result of a sequence of histopathological changes that typically involves esophagitis, atrophy, mild to severe dysplasia, carcinoma in situ and finally, invasive cancer. Genetic changes associated with the development of ESCC include mutation of the p53 gene, disruption of cell-cycle control in G1 by several mechanisms (inactivation of p16MTS1, amplification of Cyclin D1, alterations of RB), activation of oncogenes (e.g., EGFR, c-MYC) and inactivation of several tumor suppressor genes. Loss of heterozygosity on chromosome 17q25 has been linked with tylosis, a rare autosomal dominant syndrome associated with high predisposition to ESCC. Whether this locus is also involved in sporadic ESCC remains to be elucidated. Chronic esophagitis is a frequent occurrence in populations at high risk of ESCC. These lesions often show focal accumulation of p53 protein and in some instances, patches of positive cells in esophagitis area at the margins of tumors were found to contain a mutation in the p53 gene. This observation is consistent with field cancerization in the esophagus and suggests that esophagitis may represent an interesting target for early detection of ESCC as well as for intervention strategies.
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PMID:Genetic steps in the development of squamous cell carcinoma of the esophagus. 1076 43

iRHOM2 is a highly conserved, catalytically inactive member of the Rhomboid family, which has recently been shown to regulate the maturation of the multi-substrate ectodomain sheddase enzyme ADAM17 (TACE) in macrophages. Dominant iRHOM2 mutations are the cause of the inherited cutaneous and oesophageal cancer-susceptibility syndrome tylosis with oesophageal cancer (TOC), suggesting a role for this protein in epithelial cells. Here, using tissues derived from TOC patients, we demonstrate that TOC-associated mutations in iRHOM2 cause an increase in the maturation and activity of ADAM17 in epidermal keratinocytes, resulting in significantly upregulated shedding of ADAM17 substrates, including EGF-family growth factors and pro-inflammatory cytokines. This activity is accompanied by increased EGFR activity, increased desmosome processing and the presence of immature epidermal desmosomes, upregulated epidermal transglutaminase activity and heightened resistance to Staphylococcal infection in TOC keratinocytes. Many of these features are consistent with the presence of a constitutive wound-healing-like phenotype in TOC epidermis, which may shed light on a novel pathway in skin repair, regeneration and inflammation.
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PMID:iRHOM2-dependent regulation of ADAM17 in cutaneous disease and epidermal barrier function. 2464 77

In humans, gain-of-function (GOF) mutations in RHBDF2 cause the skin disease tylosis. We generated a mouse model of human tylosis and show that GOF mutations in RHBDF2 cause tylosis by enhancing the amount of amphiregulin (AREG) secretion. Furthermore, we show that genetic disruption of AREG ameliorates skin pathology in mice carrying the human tylosis disease mutation. Collectively, our data suggest that RHBDF2 plays a critical role in regulating EGFR signaling and its downstream events, including development of tylosis, by facilitating enhanced secretion of AREG. Thus, targeting AREG could have therapeutic benefit in the treatment of tylosis.
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PMID:Genetic deletion of amphiregulin restores the normal skin phenotype in a mouse model of the human skin disease tylosis. 2865 41