ABSTRACT: Advanced
studies of microRNAs (miRNAs) have revealed their manifold biological
functions, including control of cell proliferation, cell cycle and cell death.
However, it seems that their roles as key regulators of metabolism have drawn
more and more attention in the recent years. Cancer cells display increased
metabolic autonomy in comparison to non-transformed cells, taking up nutrients
and metabolizing them in pathways that support growth and proliferation. MiRNAs
regulate cell metabolic processes through complicated mechanisms, including
directly targeting key enzymes or transporters of metabolic processes and
regulating transcription factors, oncogenes / tumor suppressors as well as
multiple oncogenic signaling pathways. MiRNAs like miR-375, miR-143, miR-14 and
miR-29b participate in controlling cancer cell metabolism by regulating the
expression of genes whose protein products either directly regulate metabolic
machinery or indirectly modulate the expression of metabolic enzymes, serving
as master regulators, which will hopefully lead to a new therapeutic strategy
for malignant cancer. This review focuses on miRNA regulations of cancer cell
metabolism,including glucose uptake, glycolysis, tricarboxylic acid cycle and
insulin production, lipid metabolism and amino acid biogenesis, as well as
several oncogenic signaling pathways. Furthermore, the challenges of
miRNA-based strategies for cancer diagnosis, prognosis and therapeutics have
been discussed.
Source: Roles of microRNA on
cancer cell metabolism. Chen B, Li H, Zeng X, Yang P, Liu X, Zhao X, Liang S (zizi2006@scu.edu.cn). J Transl Med. 2012
Nov 20;10(1):228.
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