XML Feed for RxPG News   Add RxPG News Headlines to My Yahoo!   Javascript Syndication for RxPG News

Research Health World General
 
  Home
 
 Latest Research
 Cancer
  Breast
  Skin
  Blood
  Prostate
  Liver
  Colon
  Thyroid
  Endometrial
  Brain
  Therapy
  Risk Factors
  Esophageal
  Bladder
  Lung
   Small Cell Carcinoma
  Rectal Cancer
  Pancreatic Cancer
  Bone Cancer
  Cervical Cancer
  Testicular Cancer
  Gastric Cancer
  Ovarian Cancer
  Nerve Tissue
  Renal Cell Carcinoma
 Psychiatry
 Genetics
 Surgery
 Aging
 Ophthalmology
 Gynaecology
 Neurosciences
 Pharmacology
 Cardiology
 Obstetrics
 Infectious Diseases
 Respiratory Medicine
 Pathology
 Endocrinology
 Immunology
 Nephrology
 Gastroenterology
 Biotechnology
 Radiology
 Dermatology
 Microbiology
 Haematology
 Dental
 ENT
 Environment
 Embryology
 Orthopedics
 Metabolism
 Anaethesia
 Paediatrics
 Public Health
 Urology
 Musculoskeletal
 Clinical Trials
 Physiology
 Biochemistry
 Cytology
 Traumatology
 Rheumatology
 
 Medical News
 Health
 Opinion
 Healthcare
 Professionals
 Launch
 Awards & Prizes
 
 Careers
 Medical
 Nursing
 Dental
 
 Special Topics
 Euthanasia
 Ethics
 Evolution
 Odd Medical News
 Feature
 
 World News
 Tsunami
 Epidemics
 Climate
 Business
Search

Last Updated: Oct 11th, 2006 - 05:38:27

Lung Channel
subscribe to Lung newsletter

Latest Research : Cancer : Lung

   DISCUSS   |   EMAIL   |   PRINT
Key to lung cancer chemotherapy resistance revealed
Oct 11, 2006, 05:36, Reviewed by: Dr. Rashmi Yadav

"What we're seeing is that lung cancer cells recruit and distort NRF2 and KEAP1 expression to help tumor cells evade the toxic effects of chemotherapy,"

 
Scientists at Johns Hopkins have discovered how taking the brakes off a "detox" gene causes chemotherapy resistance in a common form of lung cancer.

Products made by a gene called NRF2 normally protect cells from environmental pollutants like cigarette smoke and diesel exhaust by absorbing the materials and pumping them out of the cell. Another gene called KEAP1 encodes products that stop this cleansing process. But lung cancer cells sabotage the expression of these same genes to block assault from chemotherapy drugs.

"What we're seeing is that lung cancer cells recruit and distort NRF2 and KEAP1 expression to help tumor cells evade the toxic effects of chemotherapy," says Shyam Biswal, Ph.D., associate professor at the Johns Hopkins Bloomberg School of Public Health and Kimmel Cancer Center, who published results of cell culture studies in the October 3, 2006 issue of PLoS Medicine.

Past studies have shown that NRF2 detoxifies cells by directing proteins to absorb and pump out pollutants and chemicals. The NRF2 gene makes a "trigger" protein which starts the production of other proteins and enzymes that sweep the cell clear of toxins. To halt the detox process, proteins manufactured by KEAP1 bind to the NRF2 triggers tagging them for destruction. In cancer cells, NRF2 activity runs amok, sweeping away all cellular toxins, including chemotherapy agents.

Biswal says that blocking NRF2 activity could improve the effectiveness of standard chemotherapy drugs, particularly platinum-based compounds widely used for lung cancer.

In Biswal's study, half of 12 lung cancer cell lines and 10 of 54 tissue samples from non-small cell lung cancer patients had mutations in the KEAP1 gene rendering it inactive and unable to keep NRF2 activity in check. In addition, half of the tissue samples were missing one copy of the KEAP1 gene - cells usually have two copies of each gene. No missing genes or mutations were observed in normal lung tissues from the same patients.

NRF2 activity along with its cleansing proteins and enzymes were higher in tumor samples than normal cells, according to the researchers. Their cell culture tests also show that cancer cells with KEAP1 mutations are more resistant to chemotherapy drugs than normal lung cells.

Tumor samples with normal KEAP1 genes also show increased levels of NRF2 and its enzymes, suggesting other ways of dismantling KEAP1, such as splicing the gene to make a shortened, ineffective protein, he said.
 

- October 3, 2006 issue of PLoS Medicine
 

www.hopkinsmedicine.org

 
Subscribe to Lung Newsletter
E-mail Address:

 

The researchers plan to confirm their findings with a larger set of samples and then to screen for appropriate drugs. Funding for the study was provided by the National Cancer Institute Lung SPORE (Specialized Program of Research Excellence), National Heart Lung and Blood Institute, National Institute of Environmental Health Sciences Center, National Institute of Health, and the Flight Attendant Medical Research Institution.

Co-authors include Anju Singh, Vikas Misra, Rajesh K Thimmulappa, Hannah Lee, Stephen Ames, Mohammad O. Hoque, James G. Herman, Stephen B. Baylin, David Sidransky, Edward Gabrielson and Malcolm Brock from Johns Hopkins.

1. Nuclear factor erythroid-2 related factor 2 (NRF2) 2. Kelch-like ECH-associated protein 1 (KEAP1)


Related Lung News

Gene Expression Profiling Not Quite Perfected in Predicting Lung Cancer Prognosis
I-ELCAP study: Lung cancer can be detected early with annual low-dose CT screening
Key to lung cancer chemotherapy resistance revealed
3D-CRT brings hope for inoperable lung cancers
Sunitinib Malate shows promise against advanced form of lung cancer
Tarceva-Celebrex Combination therapy shows promising results in advanced lung cancer
Lung cancer susceptibility runs in families - Study
Do Variants in the GST Detoxification Genes Affect the Risk of Lung Cancer?
Tumor diameter - an important prognostic indicator for curability
Palliative radiation can cure some NSCLC


For any corrections of factual information, to contact the editors or to send any medical news or health news press releases, use feedback form

Top of Page

 

© Copyright 2004 onwards by RxPG Medical Solutions Private Limited
Contact Us