Our cellular immune system has to cope constantly with foodborne substances that enter the bloodstream postprandially. Here, they may activate leukocytes via specific but yet mostly unknown receptors. Ectopic RNA expression out of gene families of chemosensory receptors, i.e., the ∼400 ORs, ∼25 TAS2R bitter-taste receptors, and the TAS1R umami- and sweet-taste receptor dimers by which we typically detect foodborne substances, has been reported in a variety of peripheral tissues unrelated to olfaction or taste. In the present study, we have now discovered, by gene-specific RT-PCR experiments, the mRNA expression of most of the Class I ORs (TAS1R) and TAS2R in 5 different types of blood leukocytes. Surprisingly, we did not detect Class II OR mRNA. By RT-qPCR, we show the mRNA expression of human chemosensory receptors and their cow orthologs in PMN, thus suggesting an evolutionary concept. By immunocytochemistry, we demonstrate that some olfactory and taste receptors are expressed, on average, in 40-60% of PMN and T or B cells and largely coexpress in the same subpopulation of PMN. The mRNA expression and the size of subpopulations expressing certain chemosensory receptors varied largely among individual blood samples, suggesting a regulated expression of olfactory and taste receptors in these cells. Moreover, we show mRNA expression of their downstream signaling molecules and demonstrate that PTX abolishes saccharin- or 2-PEA-induced PMN chemotactic migration, indicating a role for Gi-type proteins. In summary, our data suggest "chemosensory"-type subpopulations of circulating leukocytes.
Drinking or gargling Salvia officinalis L. infusion (sage infusion) is thought to soothe a sore throat, tonsillitis, and inflamed, red gums, although structure-based scientific evidence for the key anti-inflammatory compounds in sage infusion is scarce. Human gingival fibroblasts (HGF-1) were treated with sage infusion (SI) or SI fractions containing either its volatile components and water (aqueous distillate, AD) or its dry matter (DM) for six hours. SI, AD, and DM reduced a mean phorbol-12-myristate-13-acetate/ionomycin (PMA/I)-stimulated release of the pro-inflammatory interleukins IL-6 and IL-8 by more than 50% (p < 0.05). Cellular uptake experiments and subsequent GC-MS analysis using stable-isotope-labeled internal standards revealed the presence of 1,8-cineole, borneol, camphor, and α-/β-thujone in SI-treated cells; LC-MS analysis demonstrated the presence of rosmarinic acid. A significant, more than 50% mean inhibition of PMA/I-induced IL-6 and IL-8 release was demonstrated for the volatile compounds 1,8-cineole, borneol, camphor, and thujone, but not for the nonvolatile rosmarinic acid when applied in concentrations representative of sage infusion. Therefore, the volatile compounds were found to be more effective than rosmarinic acid. 1,8-Cineole, borneol, camphor, and α-/β-thujone chiefly contribute to the anti-inflammatory activity of sage infusion in human gingival fibroblasts.
Compared to dark chocolate, which is mainly produced from roasted cocoa and sucrose, milk chocolates contain different dairy products, such as milk powder, butter fat, or dairy cream. This difference in recipe renders a typical aroma attributed to this type of chocolate, often described as milky or creamy. To get an idea of the odorants responsible for this odor note, an aroma extract dilution analysis was applied on a distillate obtained by extraction and SAFE distillation of a commercial milk chocolate evaluated with an intense "milky, creamy" attribute. The identification experiments in combination with the flavor dilution (FD) factors revealed 48 odor-active compounds, among which phenylacetic acid (honey-like) and vanillin (vanilla-like) showed the highest FD factors followed by 2-methoxyphenol (smoky) and nonanoic acid (musty, pungent). The quantitation of 40 odorants by stable isotope dilution assays (SIDA) and a subsequent calculation of odor activity values (OAV; ratio of concentration to odor threshold) revealed dimethyl trisulfide (cabbage-like) and butanoic acid (sweaty) with the highest OAVs (>170), followed by 3methylbutanoic acid (sweaty), acetic acid (vinegar-like), and phenylacetic acid. An aroma recombinate prepared with 39 reference odorants in the same concentrations as those determined for the compounds in the milk chocolate showed a good similarity with the overall aroma profile of the milk chocolate. A comparison of the results with the recent literature data on dark chocolates also evaluated by the Sensomics approach suggested that, in particular, methanethiol and a series of lactones may contribute to the milky, creamy odor note because these were reported with much lower odor activities in the dark chocolates.
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