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Scrubbing our cells clean

Published: 9 August 2007

A study by the MUHC and 㽶Ƶ opens a new door to understanding cancer

An in-depth understanding of the mechanisms that trigger cancer cell growth is vital to the development of more targeted treatments for the disease. An article published in the August 3 issue of Molecular Cell provides a key to these mechanisms that may prove crucial in the future. The paper is co-authored by Dr Morag Park, Director of the MUHC Molecular Oncology Group, and Dr Kalle Gehring, Head of the Nuclear Magnetic Resonnance Laboratory of the 㽶Ƶ Biochemistry Department.

“To understand cancer, it is necessary to first understand how the molecules interact,” explains Dr. Park, who is also a Professor of oncology and biochemistry at 㽶Ƶ. “In that study we have clarified the structure of some of the proteins involved and their connections, which allows us to understand the consequences of these interactions.” This is, in fact, a feat that merits close attention, because it means that researchers can now “see” elements smaller than a millionth of a millimetre!

In a cell’s interior, the function of the ubiquitin molecule is to “clean house.” It attaches itself to proteins that must disappear and triggers their degradation; in doing so, it allows a number of mechanisms to be minutely controlled. This new study reveals that ubiquitin also promotes interactions between proteins known as Cb-b. In a healthy patient, Cb-b is activated when a growth factor attaches itself to the surface of a cell, its role being to mitigate the cell proliferation and growth mechanisms induced by the factor. However, in some cancer patients this mitigation mechanism does not appear to function, partly because the ubiquitin does not attach itself correctly to the cell surface and to Cb-b. As a result, the effects of the growth factor become much more pronounced, which results in an unrestrained proliferation of cells – that can become a cancer.

“In the long term, this may serve as a basis for us to find ways to intervene in this chain reaction and discover a treatment” adds Dr. Gehring. “This new information about ubiquitin marks an important advance in our understanding of the mechanisms associated with cancer and contributes to the fight against the disease by directing us towards research avenues for new medications”.

The Research Institute of the 㽶Ƶ Health Centre (RI MUHC) is a world-renowned biomedical and health-care hospital research centre. Located in Montreal, Quebec, the institute is the research arm of the MUHC, a university health center affiliated with the Faculty of Medicine at 㽶Ƶ. The institute supports over 500 researchers, nearly 1000 graduate and post-doctoral students and operates more than 300 laboratories devoted to a broad spectrum of fundamental and clinical research. The Research Institute operates at the forefront of knowledge, innovation and technology and is inextricably linked to the clinical programs of the MUHC, ensuring that patients benefit directly from the latest research-based knowledge. For further details visit: .

About 㽶Ƶ
㽶Ƶ is Canada's leading research-intensive university and has earned an international reputation for scholarly achievement and scientific discovery. Founded in 1821, McGill has 21 faculties and professional schools, which offer more than 300 programs from the undergraduate to the doctoral level. McGill attracts renowned professors and researchers from around the world and top students from more than 150 countries, creating one of the most dynamic and diverse education environments in North America. There are approximately 23,000 undergraduate students and 7,000 graduate students. It is one of two Canadian members of the American Association of Universities. McGill's two campuses are located in Montreal, Canada. www.mcgill.ca

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