Cell division breakthrough may redefine cancer treatment strategies

The research team, led by Shane Herbert and Holly Lovegrove at the University of Manchester, found that cells do not always divide into two identical parts. This finding could have a major impact on our understanding of morphogenesis, which is the development of tissues and organs.

According to Popular Mechanics, the research showed that the shape of a cell before it begins mitosis can influence whether the cell divides symmetrically. Uneven divisions can lead to cellular diversity, which is crucial for tissue formation. Scientists observed this unique phenomenon in the stem cells of zebrafish embryos.

This discovery might have far-reaching implications for medicine, particularly in understanding cancer cell division. Asymmetric divisions could affect how cancer cells spread, opening up new possibilities for cancer treatment.

To verify whether the cell discoveries apply to human cells, scientists used the micropatterning technique. This technique involves placing cells on surfaces of various shapes, allowing manipulation of their form and observing the division process. The research indicated that elongated cells more often maintain their shape during division. This could be crucial for a better understanding of cancer cell division mechanisms and the development of new therapeutic methods.

Research published in "Science" may lead to rewriting biology textbooks because it demonstrates that the classical approach to mitosis did not account for all aspects of this process. This discovery could also influence future research on tissue and organ development.