Study may aid efforts to prevent uncontrolled cell division in cancer

May 28, 2009

Researchers from the Ludwig Institute for Cancer Research at the University of California, San Diego School of Medicine have uncovered a remarkable property of the contractile ring, a structure required for cell division. Understanding how the contractile ring works to divide the cell may facilitate development of therapies to prevent uncontrolled cell division in cancer.

The researchers show that - even though both cell volume and the length of the contractile ring are reduced during successive rounds of embryonic - the duration or timing of cell division remains the same. Their study will be published in the May 29 issue of the journal Cell.

"We showed that contractile rings constrict at a constant rate that is proportional to the initial size of the cell, so that rings in larger constrict proportionally faster than rings in smaller cells," said Karen Oegema, PhD, associate professor at the Ludwig Institute and the Department of Cellular and at UC San Diego School of Medicine and the Moores UCSD Cancer Center. "Because of this property, the time required to complete cell division remains the same during embryogenesis, even as cells get smaller."

During their early development, embryos are progressively partitioned into smaller and smaller cells by successive rounds of cell division. The division of one cell into two is accomplished by the contractile ring, which is assembled from two protein filament types also used in muscle. During cell division, the genome is replicated and the two copies are separated to opposite sides of the cell. A contractile ring forms a belt around the cell middle; constriction or closure of this ring "tightens the belt," pinching the mother cell into two daughter cells.

In early embryogenesis, cell volume and the length of the contractile ring around the cell middle are reduced at each successive round of cell division. By contrast, the dimension of the chromosomes - which carry the that is segregated to the daughter cells - remains constant. The discovery that contractile rings constrict at a constant rate, proportionate to the initial cell size, opens the door to further studies of the mechanism.

"Further studies of the contractile ring could ultimately lead to improved therapies for cancer," said first author Ana Carvalho, PhD. "Understanding the cellular machinery required for cell division may teach us how to prevent the uncontrolled cell division that occurs in cancer."

Source: University of California - San Diego (news : web)

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