Overall, these findings suggest that beta-elemene exerts broad-spectrum antitumour activity against many types of solid carcinoma and supports a proposal of beta-elemene as a new potentially therapeutic drug for castration-resistant prostate cancer and other solid tumours.
Mutant cancer subpopulations have the potential to derail durable patient responses to molecularly targeted cancer therapeutics, yet the prevalence and size of such subpopulations are largely unexplored. We employed the sensitive and quantitative Allele-specific Competitive Blocker PCR approach to characterize mutant cancer subpopulations in ductal carcinomas (DCs), examining five specific hotspot point mutations (PIK3CA H1047R, KRAS G12D, KRAS G12V, HRAS G12D, and BRAF V600E). As an approach to aid interpretation of the DC results, the mutations were also quantified in normal breast tissue. Overall, the mutations were prevalent in normal breast and DCs, with 9/9 DCs having measureable levels of at least three of the five mutations. HRAS G12D was significantly increased in DCs as compared to normal breast. The most frequent point mutation reported in DC by DNA sequencing, PIK3CA H1047R, was detected in all normal breast tissue and DC samples and was present at remarkably high levels (mutant fractions of 1.1 × 10− 3 to 4.6 × 10− 2) in 4/10 normal breast samples. In normal breast tissue samples, PIK3CA mutation levels were positively correlated with age. However, the PIK3CA H1047R mutant fraction distributions for normal breast tissues and DCs were similar. The results suggest PIK3CA H1047R mutant cells have a selective advantage in breast, contribute to breast cancer susceptibility, and drive tumor progression during breast carcinogenesis, even when present as only a subpopulation of tumor cells.
Tumors secrete proangiogenic factors to induce the ingrowth of blood vessels from the stroma. These peptides bind to cell surface receptors on vascular endothelial cells (ECs), triggering signaling cascades that activate and repress batteries of downstream genes responsible for the angiogenic phenotype. To determine if microRNAs (miRNAs) affect regulation of the EC phenotype by GAX, a homeobox gene and negative transcriptional regulator of the angiogenic phenotype, we tested the effect of miR-221 on GAX expression. miR-221 strongly upregulated GAX, suggesting that miR-221 downregulates a repressor of GAX. We next expressed miR-221 in ECs and identified ZEB2, a modulator of the epithelial-mesenchymal transition, as being strongly downregulated by miR-221. Using miR-221 expression constructs and an inhibitor, we determined that ZEB2 is upregulated by serum and downregulates GAX, while the expression of miR-221 upregulates GAX and downregulates ZEB2. A mutant miR-221 fails to downregulate ZEB2 or upregulate GAX. Finally, using chromatin immunoprecipitation, we identified two ZEB2 binding sites that modulate the ability of ZEB2 to downregulate GAX promoter activity. We conclude that miR-221 upregulates GAX primarily through its ability to downregulate the expression of ZEB2. These observations suggest a strategy for inhibiting angiogenesis by either recapitulating miR-221 expression or inhibiting ZEB2 activation.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.