New insights on DNA replication can help develop novel cancer treatment
A study by the Centre for Chromosome Biology at NUI Galway, Ireland,
in partnership with the University of Zurich, has uncovered new insights
into how the replication of DNA occurs which can be applied to help
develop novel cancer treatments.
The breakthrough research looked at a protein called CDC7 which is a trigger for cancer cells to replicate their DNA and form tumors. The NUI Galway research shows how drugs that block CDC7 work, indicating how they could be further developed to stop cancer growth.
The key characteristic of all cancers is that cells divide in an uncontrolled way forming a tumour. When a cell divides into two cells its DNA needs to be replicated so that both mother cell and daughter cell get a complete copy of the DNA.
There are specific points on the DNA called origins of replication and CDC7 works by activating a set of proteins at these origins to trigger the initiation of DNA replication. Drugs that act against CDC7 block initiation of DNA replication and therefore block the growth of cancer cells.
He added: "We know that many types of cancers are stressed by constantly replicating their DNA and we have discovered that when replication stress occurs in cancer cells, CDC7 works with another protein called MRE11 to overcome the stress and restart replication, so the cancer cells can keep growing. However, if drugs that block CDC7 are added, the cancer cells are unable to overcome the replication stress."
The new research is particularly relevant for the more aggressive cancers such as pancreatic and colon cancers which have high levels of replication stress, diseases in which drugs that block CDC7 are likely to be particularly effective.
The researchers also found that if cells have a mutation in the breast cancer gene BRCA2, CDC7 actually increases DNA damage, increasing the likelihood of breast cancer developing and suggesting that drugs that block CDC7 could also be investigated to help in the prevention of certain types of breast cancers.
Professor Noel Lowndes, Director of the Centre for Chromosome Biology said " This study, published in the prestigious journal EMBO Reports, demonstrates how basic research, that increases our knowledge biological processes, is vital to uncover new directions to take in the effort to develop effective cancer treatments.
The breakthrough research looked at a protein called CDC7 which is a trigger for cancer cells to replicate their DNA and form tumors. The NUI Galway research shows how drugs that block CDC7 work, indicating how they could be further developed to stop cancer growth.
The key characteristic of all cancers is that cells divide in an uncontrolled way forming a tumour. When a cell divides into two cells its DNA needs to be replicated so that both mother cell and daughter cell get a complete copy of the DNA.
There are specific points on the DNA called origins of replication and CDC7 works by activating a set of proteins at these origins to trigger the initiation of DNA replication. Drugs that act against CDC7 block initiation of DNA replication and therefore block the growth of cancer cells.
Cancer incidence is continuously increasing both in Ireland and
around the world with scientists and researchers constantly looking for
new and innovative treatments. My team has shown that CDC7 has another
role to play in addition to activating proteins at replication origins."Corrado Santocanale, Professor of Molecular Medicine, School of Natural Sciences, National University of Ireland Galway
Santocanale is also a professor in the centre for chromosome biology and discipline of biochemistry.
He added: "We know that many types of cancers are stressed by constantly replicating their DNA and we have discovered that when replication stress occurs in cancer cells, CDC7 works with another protein called MRE11 to overcome the stress and restart replication, so the cancer cells can keep growing. However, if drugs that block CDC7 are added, the cancer cells are unable to overcome the replication stress."
The new research is particularly relevant for the more aggressive cancers such as pancreatic and colon cancers which have high levels of replication stress, diseases in which drugs that block CDC7 are likely to be particularly effective.
The researchers also found that if cells have a mutation in the breast cancer gene BRCA2, CDC7 actually increases DNA damage, increasing the likelihood of breast cancer developing and suggesting that drugs that block CDC7 could also be investigated to help in the prevention of certain types of breast cancers.
Professor Noel Lowndes, Director of the Centre for Chromosome Biology said " This study, published in the prestigious journal EMBO Reports, demonstrates how basic research, that increases our knowledge biological processes, is vital to uncover new directions to take in the effort to develop effective cancer treatments.
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