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
   Melanoma
  Blood
  Prostate
  Liver
  Colon
  Thyroid
  Endometrial
  Brain
  Therapy
  Risk Factors
  Esophageal
  Bladder
  Lung
  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
 
 India
Search

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

Melanoma Channel
subscribe to Melanoma newsletter

Latest Research : Cancer : Skin : Melanoma

   DISCUSS   |   EMAIL   |   PRINT
New mouse model technology in Melanoma vaccine tool-box
Mar 28, 2006 - 7:44:00 PM, Reviewed by: Dr. Priya Saxena

�The models we use to investigate cancer vaccines at the preclinical level either have a defined cancer antigen in a transplanted tumor, or they have an �original� tumor that doesn�t have a defined antigen. However, in human clinical studies, we have original tumors with defined antigens. So there has been a need for a mouse model that more closely follows the human model.�

 
Cancer vaccines are being investigated in early-phase clinical trials around the world, with many of those trials recruiting patients with melanoma. Although tumor regressions have been seen in 10% to 20% of patients with metastatic melanoma, the great promise of cancer vaccines - controlling tumor growth and cancer spread without serious side-effects - remains as yet unrealized. This could be set to change with the publication of a new mouse model technology in Cancer Research, the journal of the American Association of Cancer Research, from a multi-national team led by investigators at the Brussels Branch of the international Ludwig Institute for Cancer Research (LICR).

�Melanoma has been a focus of cancer vaccine development because many melanoma-specific vaccine targets, so-called �cancer antigens�, have been defined,� says the study�s senior author, LICR�s Dr. Benoit Van den Eynde. �However, we have a limited understanding of how most, but not all, melanomas evade an immune system that has been primed to detect and destroy cancer cells carrying one of these defined cancer antigens.�

According to Dr. Van den Eynde, this is due in part to the lack of appropriate animal models in which detailed immunological analyses can be performed before and after vaccination. �The models we use to investigate cancer vaccines at the preclinical level either have a defined cancer antigen in a transplanted tumor, or they have an �original� tumor that doesn�t have a defined antigen. However, in human clinical studies, we have original tumors with defined antigens. So there has been a need for a mouse model that more closely follows the human model.�

Thus the Institute that first cloned mouse and human cancer antigens, allowing the rational design of cancer vaccines, has developed a model in which melanoma with a defined cancer antigen can be induced. The model has been engineered to have several mutations found to occur together in human melanoma, and so closely mimics the genetic profile of cancers treated in the clinic. The team, which is comprised of investigators from Belgium, France and The Netherlands, has already begun characterizing a cancer antigen-specific immune reaction observed before the mice were even vaccinated, which they hope will lead to a further understanding of spontaneous melanoma regressions.

Dr. Jill O�Donnell-Tormey, Executive-Director of New York�s Cancer Research Institute, which was founded in 1953 specifically to foster cancer immunology research, believes that this model may yield information crucial for cancer vaccines for other tumor types and not just melanoma. �We have clinical trials for cancer antigens for sarcoma, for melanoma, and for breast, prostate, lung and ovarian cancers. We�re learning a lot from these trials, but we could learn a lot more if we have a model like this, which selectively expresses each of our target antigens. Just one example might be the analysis of the immune response to cancer antigens during the early stages of cancer onset and progression, which might indicate if there is an optimum time for vaccination.�
 

- Cancer Research, the journal of the American Association of Cancer Research
 

www.licr.org

 
Subscribe to Melanoma Newsletter
E-mail Address:

 

This work was conducted by investigators from the: Brussels Branch of the Ludwig Institute for Cancer Research (LICR), Brussels, Belgium; Cellular Genetics Unit of the Catholic University of Louvain, Brussels, Belgium; Centre of Biomedical Genetics, and Divisions of Molecular Genetics and Experimental Animal Pathology, The Netherlands Cancer Institute, Amsterdam, The Netherlands; Immunology Center of Marseille-Luminy, National Center for Scientific Research/National Institute of Health and Medical Research, University of the Mediterranean, Marseille, France.

Related Melanoma News

Listening to the sound of skin cancer
Malignant melanoma cells secrete a potent embryonic growth factor
New mouse model technology in Melanoma vaccine tool-box
Malignant melanoma cells reprogrammed !
New option for patients with metastatic melanoma
Positive family history increases risk of multiple primary melanomas
Role of Slug Gene in Melanoma Metastasis Identified
Incidence Of Nonmelanoma Skin Cancer On The Rise Among Young Adults
Curcumin - Potent turmeric spice blocks growth of melanoma
MITF master regulator is the target of gene amplification in melanoma


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