Nuclear magnetic resonance spectroscopy of fluorine-19 nucleus ( F 19 -NMR) emerges as a powerful tool because of the high sensitivity due to its high natural abundance, broad spectral range, and the simplicity of a spin-half system. However, it is still seldom utilized in the chemistry classroom or research. This article thus aims to demonstrate the power of NMR by investigating the kinetics when a F 19 - tag reacts with individual amino acids (AA) and eventually utilizing the approach to identify and quantify various AAs from a complex mixture such as a metabolomics sample. The F 19 - tag named 2,5-dioxopyrrolidin-1-yl-2-(trifluoromethyl)benzoate was synthesized following a previously established method. The reaction kinetics of the tag was then continuously measured using F 19 NMR in the presence of selected AAs. The estimated reaction rate constants to form the F 19 - tags with each AA differ, which could be used as an identification tool. The tag formations were typically completed in 24-48 h in water for all the samples. These demonstrations suggest that F 19 - tags could form the basis for chemical kinetics and AA detection using F 19 -NMR.

The abnormal PI3K/AKT/mTOR pathway is one of the most common genomic abnormalities in breast cancers including triple-negative breast cancer (TNBC), and pharmacologic inhibition of these aberrations has shown activity in TNBC patients. Here, we designed and identified a small-molecule Comp34 that suppresses both AKT and mTOR protein expression and exhibits robust cytotoxicity towards TNBC cells but not nontumorigenic normal breast epithelial cells. Mechanically, long noncoding RNA (lncRNA) AL354740.1-204 (also named as NUDT3-AS4) acts as a microRNA sponge to compete with AKT1/mTOR mRNAs for binding to miR-99s, leading to decrease in degradation of AKT1/mTOR mRNAs and subsequent increase in AKT1/mTOR protein expression. Inhibition of lncRNA-NUDT3-AS4 and suppression of the NUDT3-AS4/miR-99s association contribute to Comp34-affected biologic pathways. In addition, Comp34 alone is effective in cells with secondary resistance to rapamycin, the best-known inhibitor of mTOR, and displays a greater in vivo antitumor efficacy and lower toxicity than rapamycin in TNBC xenografted models. In conclusion, NUDT3-AS4 may play a proproliferative role in TNBC and be considered a relevant therapeutic target, and Comp34 presents promising activity as a single agent to inhibit TNBC through regulation of NUDT3-AS4 and miR-99s.

Hirschsprung disease (HSCR) is a birth defect with an approximate incidence of 1/5,000 live births, and up to one-third of HSCR patients develop Hirschsprung-associated enterocolitis (HAEC), the leading cause of HSCR-related death. Very little is known about the pathogenesis, prevention, and early diagnosis of HAEC. Here, we used a prospective study to investigate the enteric microbiome composition at the time of surgery as a predictor for developing postoperative HAEC. We identified a microbiome signature containing 21 operational taxonomic units (OTUs) that can potentially predict postoperative HAEC with ~85% accuracy. Furthermore, we identified exclusive breastfeeding as a novel protective factor for total HAEC (i.e., preoperative and postoperative HAEC combined). In addition, we discovered that breastfeeding was associated with a lowered risk for HAEC potentially mediated by modulating the gut microbiome composition characterized by a lower abundance of Gram-negative bacteria and lower LPS concentrations. In conclusion, modulating the gut microbiome by encouraging breastfeeding might prevent HAEC progression in HSCR patients.