The screened compounds from Ligustri Lucidi Fructus using the immobilized calcium sensing receptor column exhibit osteogenic activity in vitro.

Calcium sensing receptor (CaSR) has become the novel target of treating osteoporosis with herbal medicine Ligustri Lucidi Fructus (LLF), however, the bioactive compounds responsible for anti-osteoporosis are hard to clarify due to the complexity and diversity of chemical constituents in it. Herein, the immobilized CaSR column was packed with stationary phase materials, which were derived from integrating CLIP-tagged CaSR directly out of crude cell lysates onto the surface of silica gels (5.83 mg/g) in a site-specific covalent manner.

Solid-phase extraction with the functionalization of calcium-sensing receptors onto magnetic microspheres as an affinity probe can capture ligands selectively from herbal extract.

Magnetic solid phase extraction with the functionalization of protein onto micro- or nano-particles as a probe is favorable for the discovery of new drugs from complicated natural products. Herein, we aimed to develop a rapid method by immobilizing halogenated alkane dehalogenase (Halo)-tagged calcium-sensing receptor (CaSR) directly out of crude cell lysates onto the surface of magnetic microspheres (MM) with no need to purify protein. Thereby we achieved CaSR-functionalized MM for revealing adsorption characteristics of agonist neomycin and screening ligands from herbal medicine Radix Astragali (RA).

A rapid approach to capture the potential bioactive compounds from Rhizoma Drynariae, utilizing disease-associated mutation in calcium sensing receptor to alter the binding affinity for agonists.

Rhizoma Drynariae (RD) was used clinically to treat osteoporosis in China due to stimulating bone formation and inhibiting bone resorption, however, the bioactive constituents with the dual effect on bone are still unknown exactly. Disease-causing mutations in calcium sensing receptor (CaSR) can alter parathyroid hormone secretion and affect Ca release from bone and Ca reabsorption from kidney, which gives an indication that CaSR is a potential target for developing therapeutics to manage osteoporosis. Herein, a chromatographic approach was established, by immobilizing the mutant CaSR onto the surface of silica gels as stationary phase in a one-step procedure and then adding the different amino acids into mobile phase as competitors, for exploring the binding features of the known agonists and further screening ligands from RD.

Identifying potential ligands specifically binding to beta1-adrenoceptor from Radix Aconiti Lateralis Praeparata extract by affinity chromatographic method.

As expressed predominantly in cardiac tissue, beta1-adrenoceptor (β-AR) is broadly accepted as one of the main targets for drugs against cardiovascular ailments. However, the discovery of β-AR ligand is gravely challenged due to the lack of efficient screening method. This work developed a general strategy for pursuing β-AR ligands from the herbal extract by immobilizing haloalkane dehalogenase (Halo)-tagged β-AR onto microspheres coated with 6-chlorohexanoic acid, and applying the immobilized β-AR in the analysis of ligand-receptor interaction.

Extracellular domain of human calcium sensing receptor immobilized to silica beads as biomaterial: A rapid chromatographic method for recognizing ligands from complex matrix 'Shuangdan'.

Human calcium-sensing receptor (CaSR), a member of the G-protein-coupled receptor superfamily (GPCR), has been a therapeutic target for developing new drugs against calciotropic disorders and non-calciotropic diseases. The highly efficient methodologies for pursuing novel ligands/drugs remained a challenge due to the redundant purification processes of membrane protein in some widely-used methods including NMR, X-ray crystallography, Fluorescence Titration Spectroscopy, and Circular Dichroism. Herein, extracellular domain (ECD) of CaSR as its functional fragment was used to develop a rapid chromatographic method, which involved the synthesis of stationary phase material based on the site-specific covalent reaction of Halogenated alkane dehalogenase (Halo)-tagged ECD of CaSR in cell lysate with 6-chlorocaproic acid modified silica beads, the use of the immobilized CaSR column for revealing the interaction of three known agonists with CaSR and further screening ligands from complex matrix like Chinese herb medicine 'Shuangdan'.