by University of Tsukuba Credit: Kateryna Kon/Shutterstock
Cells contain diverse populations of molecules called lipids, which are organic fatty compounds. Lipid metabolism, the synthesis and breakdown of these lipids, plays a key role in regulating the composition and functions of cells and cell membranes. An enzyme known as ELOVL6 elongates chains of fatty acids and is important in several cellular metabolic processes. However, the relationship between lipid metabolism and blood development and disorders is an area of research with minimal activity so far.
Now, a team from the University of Tsukuba, aiming to fill that knowledge gap, has shown that ELOVL6 plays a significant role in the development of acute myeloid leukemia (AML), a type of blood cancer, through a pathway that controls cell movement. They also showed that high ELOVL6 levels are linked to shorter survival of leukemia patients. The findings are published in the journal Leukemia.
The team observed that a deletion of ELOVL6 in bone marrow stem cells, which are responsible for producing all types of blood cells, altered cellular lipid contents and inhibited engraftment in mice—a process where transplanted stem cells travel through the blood to the bone marrow. Importantly, the loss of ELOVL6 also prevented the development of leukemia in a mouse model.
Analysis of gene expression profiles showed that the cells lacking ELOVL6 had alterations to genes involved in cytoskeletal remodeling and chemotaxis—machinery involved in cell movement. Detailed molecular studies confirmed that ELOVL6 loss impaired cytoskeletal remodeling and chemotaxis, likely through dysfunction of PI3K and Rac1, which are vital cellular regulatory molecules.
“Taken together, this indicates that relatively small changes to the cell membrane lipid content can have unforeseen and drastic effects on the development of blood cancers,” explains senior author Professor Shigeru Chiba. Interestingly, the group noted that though blood production and AML pathology are closely related, ELOVL6 loss did not affect normal blood production or function.
The group used data available from online databases to show a link between high levels of ELOVL6 and a worse overall survival from AML. “ELOVL6 and its downstream pathways had never before been considered as potential targets for leukemia treatment, as this link between lipids and blood function was unexplored,” explains Professor Chiba.
Now, however, this study reveals that ELOVL6 and its associated pathways are very promising targets for the development of novel therapies for leukemia, and is expected to springboard further research into the relationships between lipid metabolism and cancer.
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