CINCINNATI - Researchers have identified a genetic/molecular network that fuels a high-risk and aggressive form of Acute Myeloid Leukemia (AML) and its precursor disease Myelodysplastic Syndrome (MDS) - providing a possible therapeutic strategy for an essentially untreatable form of the blood cancer.
Scientists from the Cancer and Blood Diseases Institute (CBDI) at Cincinnati Children's Hospital Medical Center report their results in a study posted online Sept. 4 by Cell Reports.
The specific forms of AML and MDS in the current study involve deletions on the arm of a specific chromosome in blood cells (del(5q). In patients with less aggressive forms of del(5q) MDS, the percentage of bone marrow blasts in their blood (the earliest, most immature cells of the myeloid cell line) is less than 5 percent. This means treatment prognosis for those patients typically is good, according to the study's lead investigator, Daniel Starczynowski PhD, a researcher in the division of Experimental Hematology and Cancer Biology, part of the CBDI at Cincinnati Children's.
"Unfortunately, a large portion of del(5q) AML and MDS patients have increased number of bone marrow blasts and additional chromosomal mutations," Starczynowski said. "These patients have very poor prognosis because the disease is very resistant to available treatments such as chemotherapy and radiation. Finding new therapies is important and this study identifies new therapeutic possibilities."
The researchers conducted their study in human AML/MDS cells and mouse models of del(5q) AML/MDS. They found that reduced expression of a certain gene in blood cells (miR-146a) led to activation of a molecular signaling network involving several components of NF-kB, one of which involved a protein called p62 - a critical regulator of cell metabolism, cellular remodeling and certain cancers.
Deletion of the miR-146a gene led to overexpression of p62, which caused sustained activation of what researchers identified as an NF-kB signaling network. This fueled the survival and aggressive growth of leukemic cells in cells and in mouse models.
Earlier attempts in previous studies to directly inhibit NF-kB (a key molecular facilitator to the leukemic process) have not proven successful, according to investigators on the current paper. So the authors performed follow-up laboratory tests to look for possible vulnerabilities to NF-kB and a potential workaround by targeting instead p62 within the NF-kB signaling network.
The researcher next tested inhibiting/knocking down p62 as an experimental treatment strategy in mouse models of leukemia and in human cells. The authors reported that targeting p62 prevented expansion of leukemic cells in mouse models and reduced the number of leukemia cell colonies by 80 percent in human AML/MDS cells.
Starczynowski stressed that significant additional research is needed to further verify the findings and learn more about the molecular processes involved. He also cautioned that laboratory results in mouse models do not necessarily translate to humans, and it isn't known at this time how the findings might be directly applicable to clinical treatment.
First author on the study was Jing Fang, MD, PhD, a research associate in Starczynowki's laboratory.
Funding support for the research came in part from the Cincinnati Children's Hospital Research Foundation, the American Society of Hematology, the National Institutes of Health (RO1HL111103), the Department of Defense. Umbilical cord blood samples were received through the Normal Donor Repository in the Translational Core Laboratory at Cincinnati Children's and was supported by a grant from the National Institute of Diabetes, Digestive and Kidney Diseases' Center of Excellence in Experimental Hematology (P30DK090971).
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