Identification and molecular study on the interaction of Schisandrin C with human 5-HT3A receptor.

Schisandrin C (Sch C) is one of the main components of Schisandra chinensis (Schisandra). Since the olden times, Schisandra has been used as a traditional herbal medicine in Asia. Recent studies have shown that Schisandra is effective against irritable bowel syndrome (IBS) in an animal model and affects IBS through the 5-HT3A pathway in the IBS rat model. However, there lacks fundamental research on the interaction of specific components of Schisandra with the 5-HT3A receptor for the treatment of IBS. We hypothesized that a component of Schisandra binds to the 5-HT3A receptor and identified Sch C via a screening work using two electrode-voltage clamps (TEVC). Thus, we aimed to elucidate the neuropharmacological actions between Sch C and the 5-HT3A receptor at molecular and cellular levels. Co-treatment of Sch C with 5-HT inhibited I5-HT in a reversible, concentrate-dependent, like-competition, and voltage-independent manner, and IC50 values of Sch C. Besides, the main binding positions of Sch C were identified through 3D modeling and point mutation were V225A and V288Y on 5-HT3A receptor. Thus, we suggest the potential of Sch C in treating IBS in a manner that suppresses excessive neuronal serotonin signaling in the synapse of sensory neurons and enterochromaffin (EC) cells. In conclusion, the results demonstrate the mechanism of interaction between Sch C and 5-HT3A receptor and reveal Sch C as a novel antagonist.

High yield and efficient expression and purification of the human 5-HT3A receptor.

AIM: To establish a method for efficient expression and purification of the human serotonin type 3A receptor (5-HT3A) that is suitable for structural studies. METHODS: Codon-optimized cDNA of human 5-HT3A was inserted into a modified BacMam vector, which contained an IgG leader sequence, an 8×His tag linked with two-Maltose Binding Proteins (MBP), and a TEV protease cleavage site. The BacMam construct was used to generate baculoviruses for expression of 5-HT3A in HEK293F cells. The proteins were solubilized from the membrane with the detergent C12E 9, and purified using MBP affinity chromatography. The affinity tag was removed by TEV protease treatment and immobilized metal ion affinity chromatography. The receptors were further purified by size-exclusion chromatography (SEC). Western blot and SDS-PAGE were used to detect 5-HT3A during purification. The purified receptor was used in crystallization and analyzed with negative stain electron microscopy (EM). RESULTS: The BacMam system yielded 0.5 milligram of the human 5-HT3A receptor per liter of cells. MBP affinity purification resulted in good yields with high purity and homogeneity. SEC profiles indicated that the purified receptors were pentameric. No protein crystals were obtained; however, a reconstructed 3D density map generated from the negative stain EM data fitted well with the mouse 5-HT3A structure. CONCLUSION: With the BacMam system, robust expression of the human 5-HT3A receptor is obtained, which is monodisperse, therefore enabling 3D reconstruction of an EM map. This method is suitable for high-throughput screening of different constructs, thus facilitating structural and biochemical studies of the 5-HT3A receptor.

Large scale expression and purification of the mouse 5-HT3 receptor.

Receptors of the Cys-loop family are central to neurotransmission and primary therapeutic targets. In order to decipher their gating and modulation mechanisms, structural data is essential. However, structural studies require large amounts of pure, functional receptors. Here, we present the expression and purification of the mouse serotonin 5-HT3 receptor to high purity and homogeneity levels. Inducible expression in human embryonic kidney 293 cells in suspension cultures with orbital shaking resulted in yields of 6-8mg receptor per liter of culture. Affinity purification using a strep tag provided pure protein in active form. Further deglycosylation and removal of the purification tag led to a pentameric receptor after size-exclusion chromatography, at the milligram scale. This material is suitable for crystallography, as demonstrated by X-ray diffraction of receptor crystals at low resolution.

Bacterially expressed human serotonin receptor 3A is functionally reconstituted in proteoliposomes.

Human serotonin receptor 3A (5-HT3A) is a ligand-gated ion channel regulated by serotonin. A fusion protein (P9-5-HT3A) of 5-HT3A with the P9 protein, a major envelope protein of bacteriophage phi6, was highly expressed in the membrane fraction of Escherichia coli, and the expressed protein was purified to homogeneity using an affinity chromatography. P9-5-HT3A was observed as mixed oligomers in detergents. The purified P9-5-HT3A was efficiently reconstituted into proteoliposomes, and the serotonin-dependent ion-channel activity of P9-5-HT3A was observed by measuring the increased fluorescence of Fluo-3 attributed to the formation of a complex with the Ca(2+) ions released from the proteoliposomes. Alanine substitution for Trp178 of 5-HT3A abolished the serotonin-dependent ion-channel activity, confirming the importance of Trp178 as a ligand-binding site. Furthermore, the ion-channel activity of the reconstituted P9-5-HT3A was effectively blocked by treatment with ondansetron, an antagonist of 5-HT3A. The bacterial expression system of human 5-HT3A and the proteoliposomes reconstituted with 5-HT3A would provide biophysical and structural analyses of 5-HT3A.

High-level expression and purification of Cys-loop ligand-gated ion channels in a tetracycline-inducible stable mammalian cell line: GABAA and serotonin receptors.

The human neuronal Cys-loop ligand-gated ion channel superfamily of ion channels are important determinants of human behavior and the target of many drugs. It is essential for their structural characterization to achieve high-level expression in a functional state. The aim of this work was to establish stable mammalian cell lines that enable high-level heterologous production of pure receptors in a state that supports agonist-induced allosteric conformational changes. In a tetracycline-inducible stable human embryonic kidney cells (HEK293S) cell line, GABA(A) receptors containing α1 and ß3 subunits could be expressed with specific activities of 29-34 pmol/mg corresponding to 140-170 pmol/plate, the highest expression level reported so far. Comparable figures for serotonin (5-HT(3A)) receptors were 49-63 pmol/mg and 245-315 pmol/plate. The expression of 10 nmol of either receptor in suspension in a bioreactor required 0.3-3.0 L. Both receptor constructs had a FLAG epitope inserted at the N-terminus and could be purified in one step after solubilization using ANTI-FLAG affinity chromatography with yields of 30-40%. Purified receptors were functional. Binding of the agonist [(3)H]muscimol to the purified GABA(A)R was enhanced allosterically by the general anesthetic etomidate, and purified 5-hydroxytryptamine-3A receptor supported serotonin-stimulated cation flux when reconstituted into lipid vesicles.