Lung cancer is the most frequently diagnosed cancer and a leading cause of cancer mortality worldwide, with adenocarcinoma being the most common histological subtype. Deeper understanding of the pathobiology of non-sm...Lung cancer is the most frequently diagnosed cancer and a leading cause of cancer mortality worldwide, with adenocarcinoma being the most common histological subtype. Deeper understanding of the pathobiology of non-small cell lung cancer(NSCLC) has led to the development of small molecules that target genetic mutations known to play critical roles in progression to metastatic disease and to influence response to targeted therapies. The principle goal of precision medicine is to define those patient populations most likely to respond to targeted therapies. However, the cancer genome landscape is composed of relatively few "mountains" [representing the most commonly mutated genes like KRAS, epidermal growth factor(EGFR), and anaplastic lymphoma kinase(ALK)] and a vast number of "hills"(representing low frequency but potentially actionable mutations). Low-frequency lesions that affect a druggable gene product allow a relatively small population of cancer patients for targeted therapy to be selected.展开更多
Chronic myeloid leukemia (CML) is a clonal myeloprolif- erative disorder characterized by a chromosome translocation that generates the Bcr-Abl oncogene en- coding a constitutive kinase activity. Despite remarkable ...Chronic myeloid leukemia (CML) is a clonal myeloprolif- erative disorder characterized by a chromosome translocation that generates the Bcr-Abl oncogene en- coding a constitutive kinase activity. Despite remarkable success in controlling CML at chronic phase by Bcr-Abl tyrosine kinase inhibitors (TKIs), a significant proportion of CML patients treated with TKIs develop drug resis- tance due to the inability of TKIs to kill leukemia stem cells (LSCs) that are responsible for initiation, drug re- sistance, and relapse of CML. Therefore, there is an ur- gent need for more potent and safer therapies against leukemia stem cells for curing CML. A number of LSC- associated targets and corresponding signaling path- ways, including CaMKII-y, a critical molecular switch for co-activating mu|tipte LSC-associated signaling path- ways, have been identified over the past decades and various small inhibitors targeting LSC are also under development. Increasing evidence shows that leukemia stem cells are the root of CML and targeting LSC may offer a curable treatment option for CML patients. This review summarizes the molecular biology of LSC and its- associated targets, and the potential clinical application in chronic myeloid leukemia.展开更多
文摘Lung cancer is the most frequently diagnosed cancer and a leading cause of cancer mortality worldwide, with adenocarcinoma being the most common histological subtype. Deeper understanding of the pathobiology of non-small cell lung cancer(NSCLC) has led to the development of small molecules that target genetic mutations known to play critical roles in progression to metastatic disease and to influence response to targeted therapies. The principle goal of precision medicine is to define those patient populations most likely to respond to targeted therapies. However, the cancer genome landscape is composed of relatively few "mountains" [representing the most commonly mutated genes like KRAS, epidermal growth factor(EGFR), and anaplastic lymphoma kinase(ALK)] and a vast number of "hills"(representing low frequency but potentially actionable mutations). Low-frequency lesions that affect a druggable gene product allow a relatively small population of cancer patients for targeted therapy to be selected.
基金We apologize to the scientists who made contributions to the field, but have not been cited due to the space limitations. This work was sup- ported in part by the National Natural Science Foundation of China (Grant Nos. 81270601, 81328016, and 81470306) and Leukemia Research Innovative Team of Zhejiang Province (2011 R50015).
文摘Chronic myeloid leukemia (CML) is a clonal myeloprolif- erative disorder characterized by a chromosome translocation that generates the Bcr-Abl oncogene en- coding a constitutive kinase activity. Despite remarkable success in controlling CML at chronic phase by Bcr-Abl tyrosine kinase inhibitors (TKIs), a significant proportion of CML patients treated with TKIs develop drug resis- tance due to the inability of TKIs to kill leukemia stem cells (LSCs) that are responsible for initiation, drug re- sistance, and relapse of CML. Therefore, there is an ur- gent need for more potent and safer therapies against leukemia stem cells for curing CML. A number of LSC- associated targets and corresponding signaling path- ways, including CaMKII-y, a critical molecular switch for co-activating mu|tipte LSC-associated signaling path- ways, have been identified over the past decades and various small inhibitors targeting LSC are also under development. Increasing evidence shows that leukemia stem cells are the root of CML and targeting LSC may offer a curable treatment option for CML patients. This review summarizes the molecular biology of LSC and its- associated targets, and the potential clinical application in chronic myeloid leukemia.
