Summary
Somites are embryonic precursors of the axial skeleton and skeletal muscles, and establish the segmental vertebrate body plan. Somitogenesis is controlled in part by a segmentation clock that requires oscillatory expression of genes including Lunatic fringe (Lfng). Oscillatory genes must be tightly regulated both at the transcriptional and post-transcriptional levels for proper clock function. Here we demonstrate that microRNA-mediated regulation of Lfng is essential for proper segmentation during chick somitogenesis. We find that mir-125a-5p targets evolutionarily conserved sequences in the Lfng 3′UTR, and that preventing interactions between mir-125a-5p and Lfng transcripts in vivo causes abnormal segmentation and perturbs clock activity. This provides strong evidence that miRNAs function in the post-transcriptional regulation of oscillatory genes in the segmentation clock. Further, this demonstrates that the relatively subtle effects of miRNAs on target genes can have broad effects in developmental situations that have critical requirements for tight post-transcriptional regulation.
Estimations of RNA abundance and DNA methylation by quantitative PCR (qPCR) from formalin-fixed, paraffin-embedded (FFPE) tissue specimens are not yet routine in clinical laboratory practice. Excluding specimens with poorly preserved nucleic acids is an important quality-control step for avoiding unreliable results. Because the assays for RNA abundance and DNA methylation have different critical limiting factors, we examined the extent of overlap of excluded specimens for RNA abundance versus methylated DNA. The transcript abundance of three reference genes and of the test gene, estrogen receptor 1 (ESR1), was estimated by SYBR Green qPCR in 250 breast cancer specimens. The estrogen receptor (ER) protein was identified by IHC, and concordance between ESR1 and ER was estimated by Cohen's κ. TaqMan PCR for the ALU-C4 sequence was performed with bisulfite-treated DNA to determine usability in the MethyLight assay. Excluding specimens with mean reference gene CT values exceeding the group mean by >1 SD led to significant improvement of the concordance of ESR1 and ER. Specimens with usable DNA after bisulfite treatment likewise had ALU-C4 CT values of less than the group mean + 1 SD. Samples with low-quality RNA and DNA were partly nonoverlapping. RNA and DNA extracted from the same FFPE block need separate exclusion criteria for qPCR assays of transcript abundance and methylated DNA.
Glutamine is a conditionally essential nutrient for many cancer cells, but it remains unclear how consuming glutamine in excess of growth requirements confers greater fitness to glutamine-addicted cancers. By contrasting two breast cancer subtypes with distinct glutamine dependencies, we show that glutamine-indispensable triple-negative breast cancer (TNBC) cells rely on a non-canonical glutamine-to-glutamate overflow, with glutamine carbon routed once through the TCA cycle. Importantly, this single-pass glutaminolysis increases TCA cycle fluxes and replenishes TCA cycle intermediates in TNBC cells, a process that achieves net oxidation of glucose but not glutamine. The coupling of glucose and glutamine catabolism appears hard-wired via a distinct TNBC gene expression profile biased to strip and then sequester glutamine nitrogen, but hampers the ability of TNBC cells to oxidise glucose when glutamine is limiting. Our results provide a new understanding of how metabolically rigid TNBC cells are sensitive to glutamine deprivation and a way to select vulnerable TNBC subtypes that may be responsive to metabolic-targeted therapies.
The proportion of estrogen receptor (ER)-negative and triple-negative (TN) breast cancer in Indian women is higher than that reported in the West, and this difference persists even after their migration to the West. The causes for this significant difference are not entirely clear. Hypermethylation of the ER promoter, an epigenetic alteration, is known to be one of the mechanisms by which the expression of ER is suppressed. Two thirds of breast cancer specimens from an Indian center tested, using the highly sensitive, methylation-specific polymerase chain reaction (MSP) technique, were reported positive. We have used a quantitative assay, the MethyLight, to better assess the extent of methylation in the ESR1 promoter region in 98 breast cancer tumor specimens from Indian women. In addition, the amount of ER transcripts was determined by quantitative reverse transcriptase polymerase chain reaction. Using the stringent cutoff of at least 4% of the target sequence being methylated, 27% of TN tumors were methylated. In addition they demonstrated the highest levels of methylation. In contrast less than 2% ER-positive tumors were hypermethylated. While the proportion of hypermethylated tumors are lower in this study than that estimated using MSP, our results support the notion of increased epigenetic deregulations in ER-negative tumors in general and TN tumors in particular. The development of this assay also permits a rational approach to the selection of patients for clinical trials examining the efficacy of demethylating agents in the treatment of ER-negative breast cancer.
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