11 February 2004

Tug-of-cell war

Researchers at the School of Life Sciences, University of Dundee have made an exciting new discovery on how cells regulate themselves and prevent cancer as reported in Nature tomorrow (Wednesday). Dr Tomo Tanaka and his team members, Drs Hilary Dewar and Kozo Tanaka have uncovered a tug of war that cells use to collect their full complement of correct chromosomes. The absence of this tug of war leads to irregular cells, tumours, cancer and congenital disorders such as Down syndrome.

How all daughter cells get all their chromosomes has until now been a mystery. But now that the team know how cells collect their vital information, they can explore how cells prevent cancers and other diseases by ensuring proper chromosome inheritance during cell division.

All human cells (except eggs and sperms) contain 46 chromosomes, all of which carry vital genetic information. Because genetic information is crucial for the proper function of cells for the organs and tissues that they organise, all chromosomes must be precisely copied and separated into two daughter cells during each cell division.

Dr Tanaka says: "As a cowboy catches a wild horse by his lasso, each daughter cell captures chromosomes by a rope-like apparatus and then drags them to her side before she finally divides from her sister. Our data suggest that cells are able to know if they have captured the right chromosomes or not by playing a tug-of-war game for them. This game is possible because duplicated chromosomes still attach to each other when they are captured by ropes. If cells do not feel a tug, they realise that they have grabbed the wrong chromosomes. In this case, daughter cells have to throw another rope toward a chromosome and repeat this process until they capture the right one."

The research team has also identified an enzyme called Aurora as a key regulator whose activity allows daughter cells to have this second trial. Research has shown that if Aurora activity goes wrong, cancers could occur.

Dr Lesley Walker, Director of Cancer Information, Cancer Research UK says: "This work sheds light on how dividing cells ensure that the genetic material is shared evenly between their daughter cells. By understanding how healthy cells work, we can gain considerable insight into what goes wrong in cancer. Thus world-class research like this is crucial for increasing our understanding of the biology of cancer, and could ultimately pave the way for new approaches to prevent and treat the disease."

Dr Tomo Tanaka is a Wellcome Trust Career Development Fellow and Principal Investigator in the Division of Gene Regulation and Expression based in the Wellcome Trust Biocentre at the University of Dundee.

The research is funded by The Wellcome Trust and Cancer Research UK.

The study, entitled "Tension between two kinetochores suffices for their bi-orientation on the mitotic spindle" is published by Nature (online) on 11 February.

Note to Editor:

The Wellcome Trust is an independent research-funding charity established under the will of Sir Henry Wellcome in 1936. It is funded from a private endowment which is managed with long-term stability and growth in mind. The Trust's mission is to promote research with the aim of improving human and animal health.

By Jenny Marra, Head of Press 01382 344910, out of hours: 07968298585, j.m.marra@dundee.ac.uk