PHARMACEUTICAL RESEARCH
Vitamin C may boost effectiveness of acute myeloid
leukemia treatment
A simple adjustment to patients'
therapeutic regimen may improve the effectiveness of the standard epigenetic
treatment for myeloid dysplastic syndrome (MDS) and acute myeloid leukemia
(AML). New findings published today in the Proceedings of the National Academy
of Sciences showed in lab studies that supplementing an epigenetic cancer drug
called decitabine with vitamin C enhanced the drug's ability to impede cancer
cell growth and trigger cellular self-destruction in cancer cell lines. A pilot
clinical trial based on this work is ongoing in adult patients with MDS or AML
at Rigshospitalet in Copenhagen, Denmark. It combines a similar drug called
azacitidine - the standard of care therapy - with vitamin C. Many cancer
patients are deficient in vitamin C; the proposed approach seeks to correct
this deficiency rather than overload patients with the vitamin.
"If the pilot trial is
successful, we plan to pursue a larger trial to explore this strategy's
potential as a straightforward and cost-effective way to improve the existing
therapy for AML and MDS," said Peter Jones, Ph.D., D.Sc., co-senior author
of the PNAS study, chief scientific officer at Van Andel Research Institute
(VARI) and co-leader of the Van Andel Research Institute-Stand Up To Cancer
(VARI-SU2C) Epigenetics Dream Team. "At the same time, we must urge patience
and caution. Only a clinical trial that combines azacitidine with the blinded
addition of either vitamin C or a placebo will give the true answer as to
whether or not vitamin C increases the efficacy of azacitidine in patients. We
must emphasize that our trial is limited to a certain subset of patients with
MDS or AML on a specific therapeutic regimen. We do not have evidence that this
approach is appropriate for other cancers or chemotherapies."
The proposed strategy reflects a
continuing move toward combination therapies, particularly when it comes to
epigenetic approaches, which target the mechanisms that control whether genes
are switched "on" or "off." In cancer, these switches
inappropriately activate or silence important genes, such as those that regulate
cell growth and life cycle, ultimately leading to tumors. Epigenetic therapies
are thought to work in two ways to fix these errors in cancer cells--by
correcting the "position" of the gene switches and by making the cell
appear as though it's infected by a virus, triggering the immune system.
The trial is led by Kirsten Grønbæk,
M.D., DMSc., chief hematologist and professor at University of Copenhagen's
Rigshospitalet and member of the VARI-SU2C Epigenetics Dream Team, which is
supporting the trial and associated research. It will include 20 patients;
preliminary results are expected by spring or summer 2017.
"This type of combination
therapy is promising but more work is needed to determine its safety and
efficacy," Grønbæk said. "It is truly exciting to consider that there
could be a simple and elegant approach to help patients fight MDS and AML.
However, as a physician, I strongly urge patients to wait for the results of
the clinical trial and to discuss all dietary and supplemental changes with their
doctors."
An estimated 13,000 people in the
U.S. are diagnosed with MDS annually and about 20,000 are diagnosed with AML.
Currently, only about half of patients with MDS and AML respond to the
epigenetic therapy alone.
The research reported in the paper
was conducted by Grønbæk and Jones' teams in collaboration with Gangning Liang,
M.D., Ph.D., at University of Southern California's Keck School of Medicine,
and Stephen Baylin, M.D., co-leader of the VARI-SU2C Epigenetics Dream Team and
co-head of Cancer Biology at Johns Hopkins University's Sidney Kimmel
Comprehensive Cancer Center. It is supported by the VARI-SU2C Epigenetics Dream
Team, the National Cancer Institute, the Vicky Joseph Cancer Research Fund, the
Novo Nordisk Foundation, the Danish Cancer Society and the Lundbeck Foundation.
Liu M, Ohtani H, Zhou W, Ørskov AD,
Charlet J, Zhang YW, Shen H, Baylin SB, Liang G, Grønbæk K, Jones PA.
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