ASSESSMENT OF THE FEASIBILITY OF CO-ADMINISTRATION OF PHENOLIC DIETARY COMPOUNDS WITH PHENYLEPHRINE TO INCREASE ITS BIOAVAILABILITY

R-(-)-Phenylephrine (PE) is the most commonly used nonprescription oral nasal decongestant in the United States. It is a selective α1-adrenergic receptor agonist and has many years of safe usage. However, the efficacy of PE is controversial, due to its extensive pre-systemic metabolism, which leads to low and variable oral bioavailability (38 ± 9%, mean ± SD). Sulfation plays a very important role in pre-systemic metabolism of PE. The sulfation of PE occurs at its phenolic group, which is the preferred structural feature of many sulfotransferase (SULT) substrates. Compounds with phenolic groups have similar structures to PE, which may share the same SULT isoforms with PE and have the potential to inhibit PE sulfation. Co-administration of the phenolic compounds from the Food and Drug Administration’s (FDA) “Generally Recognized as Safe” (GRAS) list, Everything Added to Food in the United States (EAFUS), or dietary supplements along with PE could be an effective strategy to inhibit the pre-systemic sulfation of PE. The primary side effect of PE is hypertension. Since monoamine oxidase (MAO) inhibitors may increase the risk of hypertension, they should not be taken with PE. In order to increase the oral bioavailability and eventually improve the efficacy of PE, this research project aimed to investigate the feasibility of inhibiting the pre-systemic sulfation of PE with phenolic dietary compounds. Considering the safety issue, this research project also aimed to investigate whether these phenolic dietary compounds have inhibitory effects on MAO-A/B. A human colon adenocarcinoma epithelial cell line (LS180), which shows sulfation activity, was used as a model to test the effect of these phenolic compounds on the sulfation of PE. The extent of disappearance of PE was significantly (p \u3c 0.05) decreased to the following (mean ± SEM, as % of control) when incubated with phenolic dietary compounds in LS180 cells for 14 - 19 hrs: curcumin 24.5 ± 14.0%, guaiacol 51.3 ± 8.0%, isoeugenol 73.9 ± 4.3%, pterostilbene 70.6 ± 4.2%, resveratrol 14.2 ± 28.0%, zingerone 52.4 ± 14.6%, and the combinations eugenol + propylparaben 42.6 ± 8.4%, vanillin + propylparaben 37.0 ± 11.2%, eugenol + propylparaben + vanillin + ascorbic acid 31.1 ± 10.9%, eugenol + vanillin 57.5 ± 20.6%, and pterostilbene + zingerone 36.5 ± 7.0%. The combinations of curcumin + resveratrol and curcumin + pterostilbene + resveratrol + zingerone almost completely inhibited PE disappearance. PE sulfate formation was inhibited 67.0 ± 4.2% (mean ± SEM, as % of control) by guaiacol and 71.7 ± 2.6% by pterostilbene + zingerone. The combinations of curcumin + resveratrol and curcumin + pterostilbene + resveratrol + zingerone inhibited ≥ 99% of PE sulfate formation. These results were consistent with those from analysis of the disappearance of PE in LS180 cells. These phenolic inhibitors for sulfation were also tested to see whether they have any inhibitory effects on MAO-A or B. Significant inhibition was found with curcumin, guaiacol, isoeugenol, pterostilbene, resveratrol, and zingerone on both MAO-A and B. Further kinetic studies were conducted to investigate the concentration of an inhibitor at which the enzyme activity is reduced by half (IC50) (mean ± SEM) of these inhibitors. The most potent inhibitor for MAO-A was resveratrol (0.313 ± 0.008 μM) followed by isoeugenol (3.72 ± 0.20 μM), curcumin (12.9 ± 1.3 μM), pterostilbene (13.4 ± 1.5 μM), zingerone (16.3 ± 1.1 μM), and guaiacol (131 ± 6 μM). The most potent inhibitor for MAO-B was pterostilbene (0.138 ± 0.013 μM), followed by curcumin (6.30 ± 0.11 μM), resveratrol (15.8 ± 1.3 μM), isoeugenol (102 ± 5 μM), and guaiacol (322 ± 27 μM). Since these phenolic compounds all have relatively low oral bioavailability, any MAO inhibition which could occur systemically is expected to be limited. Most inhibitory effects on MAO-A and B if any would be limited to the GI tract and liver. In conclusion, several compounds and combinations showed inhibition on PE sulfation in LS180 cell model, which may have potential to inhibit the pre-systemic sulfation of PE to improve its oral bioavailability. These compounds also showed the unexpected inhibition on human MAO-A and B with different potency, which could guide the selection of phenolic dietary compounds for further studies, along with the sulfation inhibition results and their pharmacokinetic (PK) properties such as bioavailability

Tetrahedrally coordinated carbonates in Earth's lower mantle

Carbonates are the main species that bring carbon deep into our planet through subduction. They are an important rock-forming mineral group, fundamentally distinct from silicates in Earth's crust in that carbon binds to three oxygen atoms, while silicon is bonded to four oxygens. Here, we present experimental evidence that under the sufficiently high pressures and high temperatures existing in the lower mantle, ferromagnesian carbonates transform to a phase with tetrahedrally coordinated carbons. Above 80 GPa, in situ synchrotron infrared experiments show the unequivocal spectroscopic signature of the high-pressure phase of (Mg,Fe)CO$_3$. Using ab-initio calculations, we assign the new IR signature to C-O bands associated with tetrahedrally coordinated carbon with asymmetric C-O bonds. Tetrahedrally coordinated carbonates are expected to exhibit substantially different reactivity than low pressure three-fold coordinated carbonates, as well as different chemical properties in the liquid state. Hence this may have significant implications on carbon reservoirs and fluxes and the global geodynamic carbon cycle

Identification Method for RLG Random Errors Based on Allan Variance and Equivalent Theorem

AbstractAn identification method using Allan variance and equivalent theorem is proposed to identify non-stationary sensor errors mixed out of different simple noises. This method firstly derives the discrete Allan variances of all component noises inherent in noise sources in terms of their different equations; then the variances are used to estimate the parameters of all component noise models; finally, the original errors are represented by the sum of the non-stationary component noise model and the equivalent model mixed out of the stationary and critically stationary component noises. Results of two examples for identification confirm the superiority of this approach regardless of the errors being stationary or not. The comparison of results of real ring laser gyro (RLG) errors processed by various methods shows that the proposed approach is more suited to depict the original noises than common ones

Doming Modes and Dynamics of Model Heme Compounds

Synchrotron far-IR spectroscopy and density-functional calculations are used to characterize the low-frequency dynamics of model heme FeCO compounds. The “doming” vibrational mode in which the iron atom moves out of the porphyrin plane while the periphery of this ring moves in the opposite direction determines the reactivity of oxygen with this type of molecule in biological systems. Calculations of frequencies and absorption intensities and the measured pressure dependence of vibrational modes in the model compounds are used to identify the doming and related normal modes

The Mean-Reverting 4/2 Stochastic Volatility Model: Properties And Financial Applications

Financial markets and instruments are continuously evolving, displaying new and more refined stylized facts. This requires regular reviews and empirical evaluations of advanced models. There is evidence in literature that supports stochastic volatility models over constant volatility models in capturing stylized facts such as smile and skew presented in implied volatility surfaces. In this thesis, we target commodity and volatility index markets, and develop a novel stochastic volatility model that incorporates mean-reverting property and 4/2 stochastic volatility process. Commodities and volatility indexes have been proved to be mean-reverting, which means their prices tend to revert to their long term mean over time. The 4/2 stochastic volatility process integrates two processes that have contrary behaviors. As a result, not only is the 4/2 stochastic volatility process able to reproduce smile and skew , but also model the asset price time series very well even in the most extreme situation like financial crisis where the assets\u27 prices become highly volatile. In the one-dimensional study, we derive a semi-closed form conditional characteristic function (c.f.) for our model and propose two feasible approximation approaches. Numerical study shows that the approximations are able to approximate the c.f. well in a large region of the parametric space. With the approximations, we are able to price options using c.f. based pricing algorithms which outperform Monte Carlo simulation in speed. We are also the first to study two estimation methods for the 4/2 stochastic volatility process. We show numerically that the estimation methods produce consistent estimators. By applying our model to empirical data, especially volatility indexes data, we find evidence for an embedded 4/2 stochastic volatility process, which also can be seen by observing drastic spikes from data. In option pricing applications, we realize there can be 20% difference on option prices if the underlying model is specified by a 4/2 stochastic volatility process as opposed to a 1/2 stochastic volatility process. We further test our approximation approaches by comparing the option prices generated by Monte Carlo simulation and those obtained from Fast Fourier Transform using the approximated c.f., the error turns out to be negligible. We next consider a generalized multivariate model based on our one-dimensional mean-reverting 4/2 stochastic volatility model and principal component stochastic volatility framework to capture the behavior of multiple commodities or volatility indexes. The model structure enables us to express the model in terms of a linear combination of independent one-dimensional mean-reverting 4/2 stochastic volatility processes. We find a quasi-closed form c.f. for the generalized model and analytic approximations of the c.f. under certain model assumptions. We propose a scaling factor to connect empirical variance series to theoretical variances and estimate the parameters with the methodology developed for our one-dimensional mean-reverting 4/2 stochastic volatility model. The effectiveness of our approximation approaches is supported by comparing the Value-at-Risk (VaR) values of a portfolio of two risky assets and a cash account using Monte Carlo simulations and the approximated distributions

Signatures of a Pressure-Induced Topological Quantum Phase Transition in BiTeI

We report the observation of two signatures of a pressure-induced topological quantum phase transition in the polar semiconductor BiTeI using x-ray powder diffraction and infrared spectroscopy. The x-ray data confirm that BiTeI remains in its ambient-pressure structure up to 8 GPa. The lattice parameter ratio c/a shows a minimum between 2.0-2.9 GPa, indicating an enhanced c-axis bonding through pz band crossing as expected during the transition. Over the same pressure range, the infrared spectra reveal a maximum in the optical spectral weight of the charge carriers, reflecting the closing and reopening of the semiconducting band gap. Both of these features are characteristics of a topological quantum phase transition, and are consistent with a recent theoretical proposal.Comment: revised final versio

Effect of Lixujieyu recipe in combination with Five Elements music therapy on chronic fatigue syndrome

AbstractObjectiveTo observe the clinical effects of the Lixujieyu recipe combined with Five Elements music therapy on chronic fatigue syndrome (CFS) identified as the symptom patterns of liver stagnation and spleen deficiency in terms of Traditional Chinese Medicine.MethodsPatients with CFS were randomly divided into treatment group 1 (Lixujieyu recipe combined with Gong-Tune, n = 15); treatment group 2 (Lixujieyu recipe combined with Jiao-Tune, n = 15); treatment group 3 (Lixujieyu recipe combined with Yu-Tune, n = 15); treatment group 4 (Lixujieyu recipe combined with Shang-Tune, n = 15); treatment group 5 (Lixujieyu recipe combined with Zhi-Tune, n = 15); and the control group (Lixujieyu recipe alone, n = 15). Chinese medicine was given twice daily, and music was listened to for 45 minutes daily, 5 days a week. All patients were treated for 4 weeks. Patients were assessed via the Fatigue Scale, the Hamilton Depression Rating Scale, and the Hamilton Anxiety Rating Scale before and after treatment.ResultsTreatment groups 1 and 2 had better effects on relieving the symptoms of physical fatigue related to anxiety and depression than the control group (P < 0.05).ConclusionLixujieyu recipe combined with Gong-Tune or Jiao-Tune significantly relieved the symptoms of CFS

Characterizations of alveolar repair after mandibular second molar extraction: an experimental study in rats

Characterizations of rat mandibular second molar extraction socket with significantly different buccal and lingual alveolar ridge width remain unclear. Objective: To observe alterations in the alveolar ridge after extraction of mandibular second molars, and to examine processes of alveolar socket healing in an experimental model of alveolar ridge absorption and preservation. Methodology: Eighteen Wistar rats were included and divided into six groups regarding healing time in the study. Bilateral mandibular second molars were extracted. The rats with tooth extraction sockets took 0, 1.5, 2, 3, 4 and 8 weeks of healing. Histological observation, tartrate-resistant acidic phosphatase (TRAP) staining, Masson’s trichrome staining, immunohistochemical staining and micro-computed tomography (micro-CT) were applied to estimate alterations in the alveolar ridge. Results: Different buccal and lingual alveolar ridge width led to different height loss. Lingual wall height (LH) decreased significantly two weeks after tooth extraction. Buccal wall height rarely reduced its higher ridge width. From two to eight weeks after extraction, bone volume (BV/TV), density (BMD), and trabecular thickness (Tb.Th) progressively increased in the alveolar socket, which gradually decreased in Tb.Sp and Tb.N. LH showed no significant change during the same period. Osteogenic marker OCN and OPN increased during bone repair from two to eight weeks. The reduced height of the lingual wall of the tooth extraction socket was rarely repaired in the later repair stage. Osteoclast activity led to absorption of the alveolar ridge of the alveolar bone wall within two weeks after operation. We observed positive expression of EMMPRIN and MMP-9 in osteoclasts that participated in the absorption of the spire region. Conclusion: Extraction of rat mandibular second molars may help the study of alveolar ridge absorption and preservation. The EMMPRIN-MMP-9 pathway may be a candidate for further study on attenuating bone resorption after tooth extraction

Microbial TLR Agonists and Humoral Immunopathogenesis in HIV Disease

Although T cells are the primary and most-studied targets of the Human Immunodeficiency Virus (HIV), B cells, especially memory B lymphocytes, are also chronically depleted in the course of HIV disease. Although the lack of CD4+ T cell help may explain these deficiencies, intrinsic defects in B lymphocytes appear to contribute to B cell depletion and reduced antibody (Ab) production in the setting of HIV, especially of some antigens eliciting T cell-independent responses. The gut mucosal barrier is disrupted in HIV disease, resulting in increased systemic exposure to microbial products such as Toll-Like Receptor (TLR) agonists. The association of enhanced systemic levels of TLR agonists and B cell dysfunction in HIV disease is not understood. This review discusses the potential role of microbial TLR agonists in the B cell depletion, enhanced autoantibody production and impaired responses to vaccination observed in HIV-infected hosts. Increased microbial translocation in HIV infection may drive B cells to produce autoantibodies and increase susceptibilities of B cells to apoptosis through activation-induced cell death. Determining the mechanisms of B cell perturbations in HIV disease will inform the design of novel strategies of improve immune responses to vaccines, reduce opportunistic infections and slow disease progression