Metabolic Transformation
of DMBA-Induced Carcinogenesis
and Inhibitory Effect of Salvianolic Acid B and Breviscapine Treatment
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Abstract
Oral cancer typically develops from hyperplasia through
dysplasia
to carcinoma with a multistep process of carcinogenesis involving
genetic alterations resulting in aberrant cellular appearance, deregulated
cell growth, and carcinoma. The metabolic transformation during the
process of oral carcinogenesis and its implications for cancer therapy
have not been extensively investigated. Here, we report a metabonomic
study on a classical model of 7,12-dimethylbenz(a)anthracene (DMBA)-induced
oral carcinogenesis in hamsters to delineate characteristic metabolic
transformation during the carcinogenesis using gas chromatography
time-of-flight mass spectrometry (GC–TOF MS). Salvianolic acid
B (Sal-B), isolated from <i>Salvia miltiorrhiza</i> Bge, and Breviscapine,
a flavonoid isolated from Herba Erigerontis, were used to treat the
hamsters exposed to DMBA to investigate the molecular mechanism of
the inhibitory effect of the two agents on oral carcinogenesis. The
dynamic changes of serum metabolic profiles indicated that both Sal-B
and Breviscapine were able to attenuate DMBA-induced metabolic perturbation,
which is consistent with the histopathological findings that Sal-B
and Breviscapine significantly decreased the squamous cell carcinoma
(SCC) incidence in the two treatment groups. Significant alterations
of key metabolic pathways, including elevated glutaminolysis and glycolysis,
and decreased cholesterol and myo-inositol metabolism, were observed
in the DMBA-induced model group, which were attenuated or normalized
by Sal-B or Breviscapine treatment. Elevated inflammation and tumor
angiogenesis at gene and metabolite expression levels were also observed
in DMBA-induced oral dysplasia and SCC but were attenuated or normalized
by Sal-B and Breviscapine along with significantly decreased incidences
of SCC formation