New Study Led by Cancer Science Institute of Singapore at NUS Suggests That Combined Therapy of PARP Inhibitors and Standard Chemotherapy Drugs Could Combat the Disease

A team of scientists led by Research Associate Professor Motomi Osato and Professor Yoshiaki Ito from the Cancer Science Institute of Singapore (CSI Singapore) at the National University of Singapore (NUS) found that a drug originally designed for killing a limited type of cancer cells with DNA repair defects could potentially be used to treat leukemia and other cancers.

The new study suggests that treatment with poly (ADP-ribose) polymerase (PARP) inhibitors, together with standard chemotherapy drugs, could be more effective in combating leukemia. In the same study, researchers found that the inactivation of RUNX genes causes DNA repair defects and promotes the development of leukemia and other cancers. The study was first published online in the leading journal Cell Reports last month.

Unlike other cancers that are more commonly seen in the elderly, leukemia is notorious for its high prevalence among young people. There has been little advancement in the treatment of leukemia. Chemotherapy with or without hematopoietic stem cell transplantation remains the current standard of care, resulting in a cure rate of around 50%. The RUNX family genes are among the most frequently inactivated genes in leukemia and other cancers. According to previous studies, RUNX1 is one of the most frequently mutated genes in leukemia and RUNX3 is associated with the development of the disease.


Continue Reading

In this study, the research team also showed the link between the RUNX family genes and the pathway of a rare human congenital disease called Fanconi anemia for the first time. The disease is caused by mutations in one of the 15 genes responsible for the repair of a specific type of damaged DNA. In the early stages of this study, the researchers found that RUNX deficiency resulted in an inability to produce blood cells and a massive expansion of abnormal hematopoietic cells. They recognized that these clinical manifestations are symptoms of Fanconi anemia and started investigating RUNX functions in this DNA repair pathway.

Further research showed that RUNX proteins play a critical and central role in the Fanconi anemia pathway by facilitating the recruitment of a protein involved in the repair of DNA damage called FANCD2 to sites of DNA damage. This previously unknown relationship between RUNX and Fanconi anemia prompted the research team to test the possibility that PARP inhibitors, a drug type originally designed for killing a limited type of cancer cells with DNA repair defects, could be applied in the treatment of leukemia and cancers with RUNX alterations. These types of cancer were previously not thought to have DNA repair defects. The researchers demonstrated that the drug was effective in the treatment of leukemia and other cancers in cell culture experiments.

Dr. Osato said, “Common sense is often a veil that keeps us from understanding the truth. PARP inhibitors have been with us for quite some time, but nobody has realized their application for leukemia. Our study has shed light on the possibility of a more effective treatment using a combined therapy with PARP inhibitors which can potentially be extended to other types of common cancers.”

The team is currently conducting further drug efficacy testing with xenograft models, as a preclinical study.

The above story is reprinted from materials provided by National University of Singapore, via Newswise.

Note: Materials may be edited for content, style, and length. For further information, please contact the source cited above.

Disclaimer: This article is not intended to provide medical advice, diagnosis, or treatment. Views expressed here do not necessarily reflect those of the Medical Bag or its staff.