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Expand Collapse Lung Cancer  - General Description This year about 226,000 people in the U.S. will be told by a doctor that they have lung cancer. However, about 390,000 Americans remain alive today after having been diagnosed with this malignancy. Lung cancer includes tumors that begin in tissues lining air passages inside the lungs and bronchi. The bronchi are the 2 branches of the windpipe (trachea) that lead to the lungs. Based on how the cells look under a microscope, lung cancers are divided into 2 main types: small cell lung cancer (SCLC) and non-small cell lung cancer (NSCLC). NSCLC accounts for 85% of these cases.

The main subtypes of NSCLC are squamous cell carcinoma (cancer beginning in thin, flat scaly-looking cells), adenocarcinoma (cancer beginning in cells that make mucus and other substances) and large cell carcinoma (cancer beginning in several types of large cells). The 2 main types of SCLC are small cell carcinoma (oat cell cancer) and combined small cell carcinoma.

Lung cancer (and other tumors) can spread (metastasize) from the place where it started (the primary tumor) in 3 ways. First, it can invade the normal tissue surrounding it. Second, cancer cells can enter the lymph system and travel through lymph vessels to distant parts of the body. Third, the cancer cells can get into the bloodstream and go to other places in the body. In these distant places, the cancer cells cause secondary tumors to grow. The main sites to which lung cancer spreads are the adrenal gland, liver and lungs.

To find out whether the cancer has entered the lymph system, a surgeon removes all or part of a node near the primary tumor and a pathologist looks at it through a microscope to see if cancer cells are present. Several kinds of imaging also can be performed to determine if the cancer has spread. These include MRI, bone scans and endoscopic ultrasound (EUS).

The FDA has approved several targeted therapies to treat patients with NSCLC. These include bevacizumab (Avastin), cetuximab (Erbitux), erlotinib (Tarceva), gefitnib (Iressa) and crizotinib (Xalkori). So far there are no FDA-approved targeted therapies for SCLC.

Despite significant improvements in the treatment of lung cancers, novel therapies and treatment strategies are needed.

Source: National Cancer Institute, 2012
Estimated new cases and deaths from lung cancer (non-small cell and small cell combined) in the United States in 2012:

New cases: 226,160
Deaths: 160,340

Lung cancer is the leading cause of cancer-related mortality in the United States. The 5-year relative survival rate from 1995 to 2001 for patients with lung cancer was 15.7%. The 5-year relative survival rate varies markedly depending on the stage at diagnosis, from 49% to 16% to 2% for patients with local, regional and distant stage disease, respectively.

NSCLC arises from the epithelial cells of the lung, from the central bronchi to the terminal alveoli. The histological type of NSCLC correlates with the site of origin, reflecting the variation in respiratory tract epithelium from the bronchi to the alveoli. Squamous cell carcinoma usually starts near a central bronchus while adenocarcinoma usually originates in peripheral lung tissue.

Tobacco smoking is the strongest risk factor for developing lung cancer, though it should be noted that the majority of patients diagnosed with lung cancer quit smoking years prior to diagnosis or were never-smokers (up to 15% of cases).

The identification of driver oncogene mutations in lung cancer has led to the development of targeted therapy that has vastly broadened treatment options and improved outcomes for subsets of patients with metastatic disease. It is now common practice to determine the genotype of a NSCLC patient early in the course of their diagnosis, to ensure that all possible treatment options are considered.

Source: National Cancer Institute, 2012
This year about 226,000 people in the U.S. will be told by a doctor that they have lung cancer. However, about 390,000 Americans remain alive today after having been diagnosed with this malignancy. Lung cancer includes tumors that begin in tissues lining air passages inside the lungs and bronchi. The bronchi are the 2 branches of the windpipe (trachea) that lead to the lungs. Based on how the cells look under a microscope, lung cancers are divided into 2 main types: small cell lung cancer (SCLC) and non-small cell lung cancer (NSCLC). NSCLC accounts for 85% of these cases.

The main subtypes of NSCLC are squamous cell carcinoma (cancer beginning in thin, flat scaly-looking cells), adenocarcinoma (cancer beginning in cells that make mucus and other substances) and large cell carcinoma (cancer beginning in several types of large cells). The 2 main types of SCLC are small cell carcinoma (oat cell cancer) and combined small cell carcinoma.

Lung cancer (and other tumors) can spread (metastasize) from the place where it started (the primary tumor) in 3 ways. First, it can invade the normal tissue surrounding it. Second, cancer cells can enter the lymph system and travel through lymph vessels to distant parts of the body. Third, the cancer cells can get into the bloodstream and go to other places in the body. In these distant places, the cancer cells cause secondary tumors to grow. The main sites to which lung cancer spreads are the adrenal gland, liver and lungs.

To find out whether the cancer has entered the lymph system, a surgeon removes all or part of a node near the primary tumor and a pathologist looks at it through a microscope to see if cancer cells are present. Several kinds of imaging also can be performed to determine if the cancer has spread. These include MRI, bone scans and endoscopic ultrasound (EUS).

The FDA has approved several targeted therapies to treat patients with NSCLC. These include bevacizumab (Avastin), cetuximab (Erbitux), erlotinib (Tarceva), gefitnib (Iressa) and crizotinib (Xalkori). So far there are no FDA-approved targeted therapies for SCLC.

Despite significant improvements in the treatment of lung cancers, novel therapies and treatment strategies are needed.

Source: National Cancer Institute, 2012
Estimated new cases and deaths from lung cancer (non-small cell and small cell combined) in the United States in 2012:

New cases: 226,160
Deaths: 160,340

Lung cancer is the leading cause of cancer-related mortality in the United States. The 5-year relative survival rate from 1995 to 2001 for patients with lung cancer was 15.7%. The 5-year relative survival rate varies markedly depending on the stage at diagnosis, from 49% to 16% to 2% for patients with local, regional and distant stage disease, respectively.

NSCLC arises from the epithelial cells of the lung, from the central bronchi to the terminal alveoli. The histological type of NSCLC correlates with the site of origin, reflecting the variation in respiratory tract epithelium from the bronchi to the alveoli. Squamous cell carcinoma usually starts near a central bronchus while adenocarcinoma usually originates in peripheral lung tissue.

Tobacco smoking is the strongest risk factor for developing lung cancer, though it should be noted that the majority of patients diagnosed with lung cancer quit smoking years prior to diagnosis or were never-smokers (up to 15% of cases).

The identification of driver oncogene mutations in lung cancer has led to the development of targeted therapy that has vastly broadened treatment options and improved outcomes for subsets of patients with metastatic disease. It is now common practice to determine the genotype of a NSCLC patient early in the course of their diagnosis, to ensure that all possible treatment options are considered.

Source: National Cancer Institute, 2012
Expand Collapse NOTCH1  - General Description
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NOTCH1 is a gene that provides the code for making a protein that serves as the starting point for the relatively simple Notch signaling system that determines if immature cells do or do not change into specialized cell types. This protein is unusual because it performs one task on the cell surface, where it acts as a receptor for certain chemical signals, and another task in the center of cell, in the nucleus, where it delivers the signal it received. (Other cell signaling systems are much more complicated, involving a series of proteins to send a signal). The receptor is activated when other proteins, or ligands, attach (bind) to it. The ligands are named Jagged1, Jagged2, and Delta1-4. When the part of the receptor that sticks outside the cell binds to one of these ligands, the receptor becomes activated and the part of the receptor that's inside the cell breaks away and moves (translocates) to the nucleus. The signal tells the nucleus which genes should be expressed to make proteins. Notch signaling often leads to the creation of new cell types from unspecialized cells, but sometimes it prevents cells from becoming specialized.

Notch signaling that has gone awry is associated with several human cancers, such as certain T cell acute lymphoblastic leukemias (T-ALL), in which rearrangement of chromosomes causes Notch signaling to occur all the time in the T cells. Problems with Notch proteins or their ligands, or both, also are associated with certain neuroblastomas and breast, skin, cervical, and prostate cancers (Lai, 2004). For example, in colorectal cancer cells abnormal Notch signaling may be triggered by overexpression of the Jagged1 ligand (Rodilla, 2009).

Source: Genetics Home Reference
The NOTCH1 gene encodes a member of the Notch family, which is an evolutionarily conserved intercellular signaling pathway, which regulates interactions between physically adjacent cells as well as a variety of developmental processes by controlling cell fate decisions. Members of this Type 1 transmembrane protein family share structural characteristics including an extracellular domain consisting of multiple epidermal growth factor-like (EGF) repeats, and an intracellular domain consisting of multiple, different domain types. Notch1 is cleaved in the trans-Golgi network, and presented on the cell surface as a heterodimer where it functions as a receptor for membrane-bound ligands Jagged1, Jagged2 and Delta1 to regulate cell-fate determination. Upon ligand activation through the released notch intracellular domain (NICD) it forms a transcriptional activator complex with RBPJ/RBPSUH and activates genes of the enhancer of split locus.

Source: Genetics Home Reference
PubMed ID's
19325125, 14973298
Expand Collapse NOTCH1  in Lung Cancer
The therapeutic relevance of NOTCH-1 mutations in lung cancer has not been determined. In one report, a primary cell line derived from a NOTCH1-mutant squamous cell lung carcinoma was selectively killed by alpha-secretase inhibitors.

The prognostic implications of NOTCH1 mutations in lung carcinomas are currently unknown. One study detected a higher frquency (~20%) of oncogenic NOTCH1 mutations within a selected group of lung carcinomas that also exhibited increased mRNA levels of HES1, a downstream target of NOTCH signaling. The same report suggested a correlation between Notch1 activation (measured by IHC) and poor prognosis for NSCLC patients. However, the role of NOTCH signaling in lung carcinoma is complex, since it has been described to behave as either a tumor suppressor or as an oncogene, depending on tumor cell type and context.

The therapeutic relevance of NOTCH-1 mutations in lung cancer has not been determined. In one report, a primary cell line derived from a NOTCH1-mutant squamous cell lung carcinoma was selectively killed by alpha-secretase inhibitors.

The prognostic implications of NOTCH1 mutations in lung carcinomas are currently unknown. One study detected a higher frquency (~20%) of oncogenic NOTCH1 mutations within a selected group of lung carcinomas that also exhibited increased mRNA levels of HES1, a downstream target of NOTCH signaling. The same report suggested a correlation between Notch1 activation (measured by IHC) and poor prognosis for NSCLC patients. However, the role of NOTCH signaling in lung carcinoma is complex, since it has been described to behave as either a tumor suppressor or as an oncogene, depending on tumor cell type and context.

PubMed ID's
20682360, 20007775, 20361945
Expand Collapse No mutation selected
The mutation of a gene provides clinicians with a very detailed look at your cancer. Knowing this information could change the course of your care. To learn how you can find out more about genetic testing please visit http://www.massgeneral.org/cancer/news/faq.aspx or contact the Cancer Center.
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Your Matched Clinical Trials

Trial Matches: (D) - Disease, (G) - Gene
Trial Status: Showing Results: 1-10 of 45 Per Page:
12345Next »
Protocol # Title Location Status Match
NCT02052778 A Dose Finding Study Followed by a Safety and Efficacy Study in Patients With Advanced Solid Tumors or Multiple Myeloma With FGF/FGFR-Related Abnormalities A Dose Finding Study Followed by a Safety and Efficacy Study in Patients With Advanced Solid Tumors or Multiple Myeloma With FGF/FGFR-Related Abnormalities MGH Open D
NCT02637531 A Dose-Escalation Study to Evaluate the Safety, Tolerability, Pharmacokinetics, and Pharmacodynamics of IPI-549 A Dose-Escalation Study to Evaluate the Safety, Tolerability, Pharmacokinetics, and Pharmacodynamics of IPI-549 MGH Open D
NCT02279433 A First-in-human Study to Evaluate the Safety, Tolerability and Pharmacokinetics of DS-6051b A First-in-human Study to Evaluate the Safety, Tolerability and Pharmacokinetics of DS-6051b MGH Open D
NCT02099058 A Phase 1/1b Study With ABBV-399, an Antibody Drug Conjugate, in Subjects With Advanced Solid Cancer Tumors A Phase 1/1b Study With ABBV-399, an Antibody Drug Conjugate, in Subjects With Advanced Solid Cancer Tumors MGH Open D
NCT02327169 A Phase 1B Study of MLN2480 in Combination With MLN0128 or Alisertib, or Paclitaxel, or Cetuximab, or Irinotecan in Adult Patients With Advanced Nonhematologic Malignancies A Phase 1B Study of MLN2480 in Combination With MLN0128 or Alisertib, or Paclitaxel, or Cetuximab, or Irinotecan in Adult Patients With Advanced Nonhematologic Malignancies MGH Open D
NCT02219724 A Phase I, Open-Label Study of MOXR0916 in Patients With Locally Advanced or Metastatic Solid Tumors A Phase I, Open-Label Study of MOXR0916 in Patients With Locally Advanced or Metastatic Solid Tumors MGH Open D
NCT02108964 A Phase I/II, Multicenter, Open-label Study of EGFRmut-TKI EGF816, Administered Orally in Adult Patients With EGFRmut Solid Malignancies A Phase I/II, Multicenter, Open-label Study of EGFRmut-TKI EGF816, Administered Orally in Adult Patients With EGFRmut Solid Malignancies MGH Open D
NCT02365662 A Study Evaluating Safety and Pharmacokinetics of ABBV-221 in Subjects With Advanced Solid Tumor Types Likely to Exhibit Elevated Levels of Epidermal Growth Factor Receptor A Study Evaluating Safety and Pharmacokinetics of ABBV-221 in Subjects With Advanced Solid Tumor Types Likely to Exhibit Elevated Levels of Epidermal Growth Factor Receptor MGH Open D
NCT01714739 A Study of an Anti-KIR Antibody in Combination With an Anti-PD1 Antibody in Patients With Advanced Solid Tumors A Study of an Anti-KIR Antibody in Combination With an Anti-PD1 Antibody in Patients With Advanced Solid Tumors MGH Open D
NCT01325441 A Study of BBI608 Administered With Paclitaxel in Adult Patients With Advanced Malignancies A Study of BBI608 Administered With Paclitaxel in Adult Patients With Advanced Malignancies MGH Open D
Trial Status: Showing Results: 1-10 of 45 Per Page:
12345Next »
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