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
 Psychiatry
 Genetics
 Surgery
 Aging
 Ophthalmology
 Gynaecology
 Neurosciences
 Pharmacology
 Cardiology
 Obstetrics
 Infectious Diseases
 Respiratory Medicine
 Pathology
 Endocrinology
 Immunology
 Nephrology
 Gastroenterology
 Biotechnology
 Radiology
 Dermatology
 Microbiology
 Haematology
  Hemophilia
  Anaemia
  Polycythemia
  Thalassemias
 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
 
 India
Search

Last Updated: Nov 18, 2006 - 12:32:53 PM

Haematology Channel
subscribe to Haematology newsletter

Latest Research : Haematology

   DISCUSS   |   EMAIL   |   PRINT
FANCM gene discovery sheds light on Fanconi's Anaemia
Aug 22, 2005 - 9:31:00 PM, Reviewed by: Dr.

"It is possible that we could learn how to promote the function of DNA repair complexes and thereby prevent the age-related accumulation of DNA damage."

 
National Institute on Aging (NIA) researchers have discovered a new gene, FANCM, which sheds light on an important pathway involved in the repair of damaged DNA. Specifically, mutation in this gene is responsible for one of the forms of Fanconi anemia (FA), a rare genetic disorder that primarily affects children. Like many rare, inherited diseases, understanding this gene's role in the development of FA provides insights into other medical problems -- in this case, age-related conditions including ovarian and pancreatic cancers, as well as leukemia, the researchers said. Discovery of this gene and its protein provides a potential target for the development of drugs that can prevent or alleviate FA and a variety of cancers.

The finding is scheduled for advanced online publication in Nature Genetics (http://www.nature.com/ng/) during the week of August 21, 2005.* The report also will be published in the journal's September 2005 print edition. The NIA is a component of the National Institutes of Health (NIH) at the U.S. Department of Health and Human Services.

"FA is a disease that appears to be the result of a breakdown in vital DNA repair mechanisms," said Weidong Wang, Ph.D., a senior investigator in the NIA's Laboratory of Genetics, who led the study. "Some scientists theorize that DNA damage, which gradually accumulates as we age, leads to malfunctioning genes and deteriorating tissues and organs as well as increased risk of cancer. We believe that this new gene, FANCM, may be a potent cog in the DNA repair machinery," Wang said. "It is possible that we could learn how to promote the function of DNA repair complexes and thereby prevent the age-related accumulation of DNA damage."

FANCM, like most genes, contains information for making a specific protein. The FANCM protein, part of the molecular machine called the FA core complex, is the only protein within this machine that affects DNA by enzyme activity (enzymes are proteins that encourage biochemical reactions, usually speeding them up). FANCM apparently provides an engine that moves the FA DNA repair machine along the length of DNA. It also is a key component of the complex that is switched "on" or "off" by phosphorylation, or the addition of a phosphate group to a protein, in response to DNA damage. In the future, researchers hope to use the newly-discovered activities of FANCM as targets to select drugs that enhance the FA DNA damage response for intervention in patients.

Fanconi anemia, named for Swiss pediatrician Guido Fanconi, affects about 1 in every 300,000 children. If both parents have the same mutation in the same FA gene, each of their children has a one-in-four chance of inheriting the defective gene from both parents and developing FA or certain types of cancer. The disease leads to bone marrow failure (aplastic anemia) and is associated with birth defects such as missing or extra thumbs and skeletal abnormalities of the hips, spine, or ribs. Many who have FA eventually develop acute myeloid leukemia and are prone to head and neck, gastrointestinal, and other cancers. The first symptoms, such as nose bleeds or easy bruising, usually begin before age 12. In rare instances, however, symptoms do not become apparent until adulthood. This is the third FA gene and protein combination identified in the last 3 years by Wang and his colleagues.
 

- *AR Meetei et al, "A Human Orthologue of Archaeal DNA Repair Protein Hef is Defective in Fanconi Anemia Complementation Group M," Nature Genet., August 21, 2005, 1 p.m. online.
 

Nature Genetics

 
Subscribe to Haematology Newsletter
E-mail Address:

 

In addition to the NIA, researchers were supported by the FA Research Fund in Eugene, OR, the Daniel Ayling Fanconi Anemia Trust, the Dutch Cancer Society, and the Netherlands Organization for Health Research and Development.

The NIA is one of 27 institutes and centers at the NIH. The Institute leads Federal efforts to support and conduct basic, clinical, epidemiological, and social research on aging and the special needs of older people. Press releases, fact sheets, and other materials about aging and aging research can be viewed at the NIA's general information web site, www.nia.nih.gov. Please note: Dr. Wang will be available for interviews on weekdays.

*AR Meetei et al, "A Human Orthologue of Archaeal DNA Repair Protein Hef is Defective in Fanconi Anemia Complementation Group M," Nature Genet., August 21, 2005, 1 p.m. online.


Related Haematology News

High-dose Calcitriol (DN-101) with Docetaxel Reduced Thrombosis
Blood-compatible nanoscale materials possible using heparin
Potential of HOXB4 and Hematopoietic Stem Cell Expansion
Deferasirox may revolutionize the way chronic iron overload is treated
Alpha-Thalassemia and Protection from Malaria
New research links αIIbβ3 to Glanzmann thrombasthenia
Hemophilia a silent killer
MBD2 Protein mediates silencing of the fetal gamma-globin gene through DNA methylation
JAK2 Mutation in blood stem cells provides clues to polycythemia vera
Urinary infection could cause deep vein thrombosis


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