TY - CHAP
T1 - Targeting oncogenic BRAF in human cancer
AU - Pratilas, Christine A.
AU - Xing, Feng
AU - Solit, David B.
PY - 2012
Y1 - 2012
N2 - Mitogen Activated Protein Kinase (MAPK) pathway activation is a frequent event in human cancer and is often the result of activating mutations in the BRAF and RAS oncogenes. BRAF missense mutations, the vast majority of which are V600E, occur in approximately 8% of human tumors. These kinase domain mutations, which are non-overlapping in distribution with RAS mutations, are observed most frequently in melanoma but are also common in tumors arising in the colon, thyroid, lung, and other sites. Supporting its classification as an oncogene, V600EBRAF stimulates ERK signaling, induces proliferation, and is capable of promoting transformation. Given the frequent occurrence of BRAF mutations in human cancer and the continued requirement for BRAF activity in the tumors in which it is mutated, efforts are underway to develop targeted inhibitors of BRAF and its downstream effectors. These agents offer the possibility of greater efficacy and less toxicity than the systemic therapies currently available for tumors driven by activating mutations of MAPK pathway components. Early clinical results with the BRAF-selective inhibitors PLX4032 and GSK2118436 suggest that this strategy will prove successful in a select group of patients whose tumors are driven by oncogenic BRAF.
AB - Mitogen Activated Protein Kinase (MAPK) pathway activation is a frequent event in human cancer and is often the result of activating mutations in the BRAF and RAS oncogenes. BRAF missense mutations, the vast majority of which are V600E, occur in approximately 8% of human tumors. These kinase domain mutations, which are non-overlapping in distribution with RAS mutations, are observed most frequently in melanoma but are also common in tumors arising in the colon, thyroid, lung, and other sites. Supporting its classification as an oncogene, V600EBRAF stimulates ERK signaling, induces proliferation, and is capable of promoting transformation. Given the frequent occurrence of BRAF mutations in human cancer and the continued requirement for BRAF activity in the tumors in which it is mutated, efforts are underway to develop targeted inhibitors of BRAF and its downstream effectors. These agents offer the possibility of greater efficacy and less toxicity than the systemic therapies currently available for tumors driven by activating mutations of MAPK pathway components. Early clinical results with the BRAF-selective inhibitors PLX4032 and GSK2118436 suggest that this strategy will prove successful in a select group of patients whose tumors are driven by oncogenic BRAF.
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U2 - 10.1007/82-2011-162
DO - 10.1007/82-2011-162
M3 - Chapter
C2 - 21818706
AN - SCOPUS:84871844911
SN - 9783642282959
T3 - Current Topics in Microbiology and Immunology
SP - 83
EP - 98
BT - Therapeutic Kinase Inhibitors
A2 - Mellinghoff, Ingo
A2 - Sawyers, Charles
ER -