AC-73 and Syrosingopine Inhibit SARS-CoV-2 Entry into Megakaryocytes by Targeting CD147 and MCT4.

Coagulation disorders are described in COVID-19 and long COVID patients. In particular, SARS-CoV-2 infection in megakaryocytes, which are precursors of platelets involved in thrombotic events in COVID-19, long COVID and, in rare cases, in vaccinated individuals, requires further investigation, particularly with the emergence of new SARS-CoV-2 variants. CD147, involved in the regulation of inflammation and required to fight virus infection, can facilitate SARS-CoV-2 entry into megakaryocytes. MCT4, a co-binding protein of CD147 and a key player in the glycolytic metabolism, could also play a role in SARS-CoV-2 infection. Here, we investigated the susceptibility of megakaryocytes to SARS-CoV-2 infection via CD147 and MCT4. We performed infection of Dami cells and human CD34+ hematopoietic progenitor cells induced to megakaryocytic differentiation with SARS-CoV-2 pseudovirus in the presence of AC-73 and syrosingopine, respective inhibitors of CD147 and MCT4 and inducers of autophagy, a process essential in megakaryocyte differentiation. Both AC-73 and syrosingopine enhance autophagy during differentiation but only AC-73 enhances megakaryocytic maturation. Importantly, we found that AC-73 or syrosingopine significantly inhibits SARS-CoV-2 infection of megakaryocytes. Altogether, our data indicate AC-73 and syrosingopine as inhibitors of SARS-CoV-2 infection via CD147 and MCT4 that can be used to prevent SARS-CoV-2 binding and entry into megakaryocytes, which are precursors of platelets involved in COVID-19-associated coagulopathy.

Syrosingopine Enhances 20S Proteasome Activity and Degradation of α-Synuclein.

Cellular proteins are degraded by the 26S proteasome in the ubiquitin-proteasome system in an ATP-dependent manner, whereas intrinsically disordered proteins (IDPs) are degraded by the 20S proteasome independent of ATP and ubiquitin. The accumulation and aggregation of IDPs are considered to be the etiology of neurodegenerative diseases. Notably, the 20S proteasome has a cylindrical structure, and its gate on the α-ring is closed in the inactive form. The compounds that open the gate promote the degradation of IDPs and prevent their accumulation, and therefore, such compounds may be promising therapeutic agents for neurodegenerative diseases. After screening the Prestwick Phytochemical Library, several yohimbine-type and ergot alkaloids were identified that enhance the 20S proteasome activity. Among them, syrosingopine was the most potent activator of the 20S proteasome and enhanced the degradation of fluorogenic substrates and α-synuclein, an IDP. Furthermore, in HeLa cells, syrosingopine enabled the binding of a membrane-permeable fluorescent probe to the catalytic site of the 20S proteasome by opening the gate.

A Holistic Evolutionary and 3D Pharmacophore Modelling Study Provides Insights into the Metabolism, Function, and Substrate Selectivity of the Human Monocarboxylate Transporter 4 (hMCT4).

Monocarboxylate transporters (MCTs) are of great research interest for their role in cancer cell metabolism and their potential ability to transport pharmacologically relevant compounds across the membrane. Each member of the MCT family could potentially provide novel therapeutic approaches to various diseases. The major differences among MCTs are related to each of their specific metabolic roles, their relative substrate and inhibitor affinities, the regulation of their expression, their intracellular localization, and their tissue distribution. MCT4 is the main mediator for the efflux of L-lactate produced in the cell. Thus, MCT4 maintains the glycolytic phenotype of the cancer cell by supplying the molecular resources for tumor cell proliferation and promotes the acidification of the extracellular microenvironment from the co-transport of protons. A promising therapeutic strategy in anti-cancer drug design is the selective inhibition of MCT4 for the glycolytic suppression of solid tumors. A small number of studies indicate molecules for dual inhibition of MCT1 and MCT4; however, no selective inhibitor with high-affinity for MCT4 has been identified. In this study, we attempt to approach the structural characteristics of MCT4 through an in silico pipeline for molecular modelling and pharmacophore elucidation towards the identification of specific inhibitors as a novel anti-cancer strategy.

Decomposition Profile Data Analysis for Deep Understanding of Multiple Effects of Natural Products.

It is difficult to understand the entire effect of a natural product because such products generally have multiple effects. We propose a strategy to understand these effects effectively by decomposing them with a profile data analysis method we developed. A transcriptome profile data set was obtained from a public database and analyzed. Considering their high similarity in structure and transcriptome profile, we focused on rescinnamine and syrosingopine. Decomposed effects predicted clear differences between the compounds. Two of the decomposed effects, SREBF1 activation and HDAC inhibition, were investigated experimentally because the relationship between these effects and the compounds had not yet been reported. Analyses in vitro validated these effects, and their strength was consistent with predicted scores. Moreover, the number of outliers in decomposed effects per compound was higher in natural products than in drugs in the data set, which is consistent with the nature of the effects of natural products.

Observation on the clinical effect of thunder-fire moxibustion combined with acupressure on ocular muscle spasm: A clinical randomized controlled trial.

INTRODUCTION: With the rapid development of social economy, peoples dependence on computers and mobile phones is increasing day by day. This causes people to often overuse. Therefore, the incidence of Ocular muscle spasm has been increasing year by year in recent years. The disease usually starts and hides, which seriously affects the patients social image, daily life, and work. METHODS/DESIGN: We will compare the clinical efficacy of thunder-fire moxibustion combined with acupressure with pure thunder-fire moxibustion on Ocular muscle spasm using random control method. DISCUSSION: We aim to find a simple, safe, simple and effective Chinese medicine nursing technology that relieves Ocular muscle spasm. TRIAL REGISTRATION: ClinicalTrials.gov,ChiCTR2000034187, Registered on 27 June 2020.

Effects of vitamin D supplementation on cardiovascular risk factors in shift workers: Study protocol for randomized, double-blind, placebo-controlled clinical trial.

OBJECTIVE: The present clinical study aims to describe protocol to evaluate the effects of vitamin D3 supplementation on the cardiovascular risk factors in a population of rotating shift workers. DESIGN: A randomized, double-blind, placebo-controlled, parallel group clinical trial testing 2 oral dosages of cholecalciferol (14,000 IU and 28,000 IU per week) for 12 months. SETTING: The primary outcome for evaluation is an 18% reduction in hypertriglyceridemia (≥150 mg/dL) between pre and postintervention measurements. Baseline characteristics of the study population will be summarized separately within each randomized group, and will use tests for continuous and categorical variables. For all tests, a P < .05 will be considered significant. The analysis of primary and secondary outcomes will use an intention-to-treat population and a per-protocol population. The primary and secondary outcomes will be compared separately between each treatment group and placebo, using binary logistic regression or regressão de Poisson for proportions (for binary outcomes) and using linear regression for differences in means (for continuous endpoints), with 95% confidence intervals. PARTICIPANTS: Rotating shift workers, adults aged between 18 and 60 years, with hypovitaminosis D and alterations in at least 1 of the following parameters: fasting glucose, high-density lipoprotein cholesterol, triglycerides, low-density lipoprotein cholesterol, blood pressure, and waist circumference. CONCLUSION: This clinical trial aims to contribute to the gap in knowledge about the potential, dose, and time of vitamin D supplementation to generate beneficial effects on triglycerides in a population at increased risk for hypertriglyceridemia and vitamin D deficiency.

Dual Inhibition of the Lactate Transporters MCT1 and MCT4 Is Synthetic Lethal with Metformin due to NAD+ Depletion in Cancer Cells.

Highly glycolytic cancer cells prevent intracellular acidification by excreting the glycolytic end-products lactate and H+ via the monocarboxylate transporters 1 (MCT1) and 4 (MCT4). We report that syrosingopine, an anti-hypertensive drug, is a dual MCT1 and MCT4 inhibitor (with 60-fold higher potency on MCT4) that prevents lactate and H+ efflux. Syrosingopine elicits synthetic lethality with metformin, an inhibitor of mitochondrial NADH dehydrogenase. NAD+, required for the ATP-generating steps of glycolysis, is regenerated from NADH by mitochondrial NADH dehydrogenase or lactate dehydrogenase. Syrosingopine treatment leads to high intracellular lactate levels and thereby end-product inhibition of lactate dehydrogenase. The loss of NAD+ regeneration capacity due to combined metformin and syrosingopine treatment results in glycolytic blockade, leading to ATP depletion and cell death. Accordingly, ATP levels can be partly restored by exogenously provided NAD+, the NAD precursor nicotinamide mononucleotide (NMN), or vitamin K2. Thus, pharmacological inhibition of MCT1 and MCT4 combined with metformin treatment is a potential cancer therapy.

Clinical and Regulatory Aspects of Companion Diagnostic Development in Oncology.

Nearly 20 years have passed since the US Food and Drug Administration (FDA) approved the first companion diagnostic and today this type of assay governs the use of 21 different anticancer drugs. The regulators deem these assays essential for the safe and effective use of a corresponding therapeutic product. The companion diagnostic assays are important both during the drug development process as well as essential treatment decision tools after the approval of the drugs.

Syrosingopine sensitizes cancer cells to killing by metformin.

We report that the anticancer activity of the widely used diabetic drug metformin is strongly potentiated by syrosingopine. Synthetic lethality elicited by combining the two drugs is synergistic and specific to transformed cells. This effect is unrelated to syrosingopine's known role as an inhibitor of the vesicular monoamine transporters. Syrosingopine binds to the glycolytic enzyme α-enolase in vitro, and the expression of the γ-enolase isoform correlates with nonresponsiveness to the drug combination. Syrosingopine sensitized cancer cells to metformin and its more potent derivative phenformin far below the individual toxic threshold of each compound. Thus, combining syrosingopine and codrugs is a promising therapeutic strategy for clinical application for the treatment of cancer.

Homology modeling, molecular dynamics, and virtual screening of NorA efflux pump inhibitors of Staphylococcus aureus.

Emerging drug resistance in clinical isolates of Staphylococcus aureus might be implicated to the overexpression of NorA efflux pump which is capable of extruding numerous structurally diverse compounds. However, NorA efflux pump is considered as a potential drug target for the development of efflux pump inhibitors. In the present study, NorA model was constructed based on the crystal structure of glycerol-3-phosphate transporter (PDBID: 1PW4). Molecular dynamics (MD) simulation was performed using NAMD2.7 for NorA which is embedded in the hydrated lipid bilayer. Structural design of NorA unveils amino (N)- and carboxyl (C)-terminal domains which are connected by long cytoplasmic loop. N and C domains are composed of six transmembrane α-helices (TM) which exhibits pseudo-twofold symmetry and possess voluminous substrate binding cavity between TM helices. Molecular docking of reserpine, totarol, ferruginol, salvin, thioxanthene, phenothiazine, omeprazole, verapamil, nalidixic acid, ciprofloxacin, levofloxacin, and acridine to NorA found that all the molecules were bound at the large hydrophobic cleft and indicated significant interactions with the key residues. In addition, structure-based virtual screening was employed which indicates that 14 potent novel lead molecules such as CID58685302, CID58685367, CID5799283, CID5578487, CID60028372, ZINC12196383, ZINC72140751, ZINC72137843, ZINC39227983, ZINC43742707, ZINC12196375, ZINC66166948, ZINC39228014, and ZINC14616160 have highest binding affinity for NorA. These lead molecules displayed considerable pharmacological properties as evidenced by Lipinski rule of five and prophecy of toxicity risk assessment. Thus, the present study will be helpful in designing and synthesis of a novel class of NorA efflux pump inhibitors that restore the susceptibilities of drug compounds.

Molecular and biochemical characterization of a benzenoid/phenylpropanoid meta/para-O-methyltransferase from Rauwolfia serpentina roots.

The monoterpenoid indole alkaloids, reserpine and rescinnamine contain 3, 4, 5-trimethoxybenzoate or 3, 4, 5-trimethoxycinnamate, respectively, within their structures and they accumulate in different plant organs and particularly within roots of Rauwolfia serpentina. This plant also accumulates acylated sugars substituted with 3, 4, 5-trimethoxybenzoate and 3, 4, 5-trimethoxycinnamate. In the present study, transcriptome and metabolome analyses of R. serpentina roots allowed the identification of 7 candidate O-methytransferase (OMT) genes that might be associated with the formation of 3, 4, 5-trimethoxybenzoate and 3, 4, 5-trimethoxycinnamate and led to the molecular cloning of 4 genes for functional expression and analysis. Two candidate genes were expressed in E. coli and were shown to use different phenolics as methyl acceptors. RsOMT1, a member of the caffeoyl CoA-OMT-like family of genes, converted 3, 5 dimethoxy-4-hydroxycinnamic, caffeic and 3, 4, 5 trihydroxybenzoic acids to trimethoxycinnamic-, ferulic/isoferulic- and 3-methoxy, 4, 5 dihydroxybenzoic or 4-methoxy, 3, 5 dihydroxybenzoic acids, respectively, when supplied with these substrates. RsOMT3, a member of the caffeic acid-OMT-like family of genes, only converted caffeic acid to ferulic acid. Both enzymes showed considerable promiscuity with respect to various flavonoid substrates that they accepted. The para-O-methylation activity of RsOMT1 is quite rare and unusual for plant OMTs. The involvement of RsOMT1 and RsOMT3 in the assembly of trimethoxybenzoic and trimethoxycinnamic acids is discussed.

Nature and health.

Urbanization, resource exploitation, and lifestyle changes have diminished possibilities for human contact with nature in urbanized societies. Concern about the loss has helped motivate research on the health benefits of contact with nature. Reviewing that research here, we focus on nature as represented by aspects of the physical environment relevant to planning, design, and policy measures that serve broad segments of urbanized societies. We discuss difficulties in defining "nature" and reasons for the current expansion of the research field, and we assess available reviews. We then consider research on pathways between nature and health involving air quality, physical activity, social cohesion, and stress reduction. Finally, we discuss methodological issues and priorities for future research. The extant research does describe an array of benefits of contact with nature, and evidence regarding some benefits is strong; however, some findings indicate caution is needed in applying beliefs about those benefits, and substantial gaps in knowledge remain.

Liquid chromatography/tandem mass spectrometry method for the quantification of deserpidine in human plasma: Application to a pharmacokinetic study.

A sensitive and rapid liquid chromatography/tandem mass spectrometric (LC/MS/MS) method was developed and validated for the determination of deserpidine in human plasma. The plasma samples were prepared using liquid-liquid extraction (LLE) with ethyl ether-dichloromethane (3:2, v/v). Chromatographic separation was accomplished on an Ultimate XB-C18 column. The mobile phase consisted of methanol-5mM ammonium acetate-formic acid (72:28:0.036, v/v/v). Detection of deserpidine and the internal standard tropisetron was achieved by tandem mass spectrometry with an electrospray ionization interface in positive ion mode. The lower limit of quantification was 4.0pg/ml. The linear range of the method was from 4.0 to 2000pg/ml. The intra- and inter-day precisions were lower than 14.7% in terms of relative standard deviation (RSD), and the accuracy was within +/-8.7% in terms of relative error (RE). This validated method was successfully applied for the evaluation of pharmacokinetics of deserpidine after a single oral administration dose of 0.25mg deserpidine to 22 healthy volunteers.

Specific derivatization of the vesicle monoamine transporter with novel carrier-free radioiodinated reserpine and tetrabenazine photoaffinity labels.

Two iodophenylazide derivatives of reserpine and one iodophenylazide derivative of tetrabenazine have been synthesized and characterized as photoaffinity labels of the vesicle monoamine transporter (VMAT2). These compounds are 18-O-[3-(3'-iodo-4'-azidophenyl)-propionyl]methyl reserpate (AIPPMER), 18-O-[N-(3'-iodo-4'-azidophenethyl)glycyl]methyl reserpate (IAPEGlyMER), and 2-N-[(3'-iodo-4'-azidophenyl)-propionyl]tetrabenazine (TBZ-AIPP). Inhibition of [3H]dopamine uptake into purified chromaffin granule ghosts showed IC50 values of approximately 37 nM for reserpine, 83 nM for AIPPMER, 200 nM for IAPEGlyMER, and 2.1 microM for TBZ-AIPP. Carrier-free radioiodinated [125I]IAPEGlyMER and [125I]TBZ-AIPP were synthesized and used to photoaffinity label chromaffin granule membranes. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) analysis showed specific [125I]IAPEGlyMER labeling of a polypeptide that migrated as a broad band (approximately 55-90 kDa), with the majority of the label located between 70 and 80 kDa. The labeling by [125I]IAPEGlyMER was blocked by 100 nM reserpine, 10 microM tetrabenazine, 1 mM serotonin, and 10 mM (-)-norepinephrine and dopamine. Analysis of [125I]TBZ-AIPP-labeled chromaffin granule membranes by SDS-PAGE and autoradiography demonstrated specific labeling of a similar polypeptide, which was blocked by 1 microM reserpine and 10 microM tetrabenazine. Incubation of [125I]TBZ-AIPP-photolabeled chromaffin granule membranes in the presence of the glycosidase N-glycanase shifted the apparent molecular weight of VMAT2 to approximately 51 kDa. These data indicate that [125I]IAPEGlyMER and [125I]TBZ-AIPP are effective photoaffinity labels for VMAT2.

Synthesis of deserpidine from reserpine.

The Rauwolfia alkaloids reserpine (1) and deserpidine (2), two alkaloids from Rauwolfia species, have been widely used for their antihypertensive action. Deserpidine (2) is a compound with limited availability from natural sources, and its synthesis from 1 in six steps (41% overall yield) is reported here.

Reserpine-induced central effects: pharmacological evidence for the lack of central effects of reserpine methiodide.

Reserpine, an alkaloid from Rauwolfia serpentina, was widely used for its antihypertensive action. However, its use has been reduced because of its sedative and extra pyramidal symptoms. In the present investigation, reserpine methiodide (RMI), a quaternary analogue of reserpine, was synthesized and pharmacologically evaluated in rats and mice for its central (barbiturate hypnosis, spontaneous motor activity, body temperature, and avoidance of conditioned response) and peripheral actions (blood pressure) in comparison with reserpine. The results indicate that reserpine produced a dose-dependent depression of the central nervous system. RMI at doses equal to and double the equimolar doses of reserpine did not produce any behavioural changes compared with control animals. Nevertheless, both reserpine and RMI were found to produce dose-dependent reduction in the blood pressure of anaesthetized rats, although only at higher doses of RMI, indicating that quaternization of reserpine not only attenuated the entry of RMI into the central nervous system, but also reduced its access to the target tissue in the periphery. It is speculated that the hypotensive actions of RMI may also be due to peripheral depletion of catecholamines.

Colorimetric determination of indolic drugs.

A colorimetric method has been developed for the quantitative determination of the rescinnamine, reserpine upto (-10(-4M)), Yohimbine on complexation with bromothymol blue. The coloured complexes exhibit absorption maxima in the region 415-416 nm. The RSD (Relative Standard Deviation) of the method is 2.02%. The method is simple, easy, rapid and convenient for routine analysis of the indolic drugs.

Reserpine methonitrate, a novel quaternary analogue of reserpine augments urinary excretion of VMA and 5-HIAA without affecting HVA in rats.

BACKGROUND: Reserpine, an alkaloid from Rauwolfia serpentina was widely used for its antihypertensive action in the past. In later years, its use has been reduced because of precipitation of depression and extra pyramidal symptoms due to its central action. In the present investigation, reserpine methonitrate (RMN), a novel quaternary analogue of reserpine was synthesised and evaluated biochemically for its central and peripheral amine depleting actions in rats while its influence on the blood pressure was measured in anaesthetized rats in comparison with reserpine RESULTS: Reserpine treatment (5 mg/kg) produced a significant increase in the urinary excretion of VMA, 5-HIAA and HVA while RMN at doses of equal to and double the equimolar doses of reserpine (5 and 10 mg/kg) produced significant increase in VMA and 5-HIAA excretion without producing any effect on HVA excretion compared to control animals. Reserpine in the dose range of 0.5 to 15 microg/kg produced significant reduction in blood pressure compared to control. RMN was also found to produce significant decrease in blood pressure at doses of 10, 25 and 50 microg/kg body weight in comparison to control. The results indicated peripheral depletion of biogenic amines by RMN without affecting the central stores of the amines. CONCLUSIONS: The present study clearly indicated that the quaternization of reserpine restricts its transfer across the blood-brain barrier and could be the reason for its selective peripheral action. It is also clear that the hypotensive actions of RMN could be due to peripheral depletion of catecholamines.

Leveraging structural approaches: applications of NMR-based screening and X-ray crystallography for inhibitor design.

In the last several years, NMR strategies in drug discovery have evolved from a primarily structural focus to a set of technologies that are non-structural in nature but that have a much greater impact on the identification and optimization of real drug leads. NMR-based screening methods, such as the SHAPES strategy, help rapidly identify good starting points for drug design in a relatively high throughput implementation. The SHAPES method uses simple NMR techniques to detect binding of a limited, but diverse library of low molecular weight, soluble compounds to a potential drug target. SHAPES library compounds are derived largely from molecular frameworks most commonly found in known therapeutic agents. The NMR experiments used in these protocols are based on the well-known NMR techniques, and may be applied to targets with no limitation on molecular weight and no requirement for isotope labeling. Following screening, SHAPES hits may be used to guide virtual screening, synthesis of combinatorial libraries, and bias the first compounds that undergo high throughput screening. Integration of the SHAPES strategy with iterative X-ray crystallographic structure determination can be very useful in deriving an initial structural pharmacophore model and achieving significant in vitro potency in a short time frame. Here, examples are provided of how the combination of NMR SHAPES screening, virtual screening, molecular modeling and X-ray crystallography has led to novel drug scaffolds in several drug discovery programs: JNK3 MAP kinase and the fatty acid binding protein, aP2.