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Query: UMLS:C0699790 (
colon cancer
)
28,837
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Metabolic alterations play an important role in cancer and yet, few metabolic cancer driver genes are known. Here we perform a combined genomic and metabolic modeling analysis searching for metabolic drivers of colorectal cancer. Our analysis predicts
FUT9
, which catalyzes the biosynthesis of Ley glycolipids, as a driver of advanced-stage
colon cancer
. Experimental testing reveals
FUT9
's complex dual role; while its knockdown enhances proliferation and migration in monolayers, it suppresses
colon cancer
cells expansion in tumorspheres and inhibits tumor development in a mouse xenograft models. These results suggest that
FUT9
's inhibition may attenuate tumor-initiating cells (TICs) that are known to dominate tumorspheres and early tumor growth, but promote bulk tumor cells. In agreement, we find that
FUT9
silencing decreases the expression of the colorectal cancer TIC marker CD44 and the level of the OCT4 transcription factor, which is known to support cancer stemness. Beyond its current application, this work presents a novel genomic and metabolic modeling computational approach that can facilitate the systematic discovery of metabolic driver genes in other types of cancer.
...
PMID:An integrated computational and experimental study uncovers FUT9 as a metabolic driver of colorectal cancer. 2919 8
Cancer stem cells (CSCs) are located in dedicated niches, where they remain inert to chemotherapeutic drugs and drive metastasis. Although plasticity in the CSC pool is well appreciated, the molecular mechanisms implicated in the regulation of cancer stemness are still elusive. Here, we define a fucosylation-dependent reprogramming of
colon cancer
cells towards a stem cell-like phenotype and function. De novo transcriptional activation of
Fut9
in the murine colon adenocarcinoma cell line, MC38, followed by RNA seq-based regulon analysis, revealed major gene regulatory networks related to stemness. Lewis
x
, Sox2, ALDH and CD44 expression, tumorsphere formation, resistance to 5-FU treatment and in vivo tumor growth were increased in
FUT9
-expressing MC38 cells compared to the control cells. Likewise, human CRC cell lines highly expressing
FUT9
displayed phenotypic features of CSCs, which were significantly impaired upon
FUT9
knock-out. Finally, in primary CRC
FUT9
+
tumor cells pathways related to cancer stemness were enriched, providing a clinically meaningful annotation of the complicity of
FUT9
in stemness regulation and may open new avenues for therapeutic intervention.
...
PMID:FUT9-Driven Programming of Colon Cancer Cells towards a Stem Cell-Like State. 3292 26
