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@#Adeno-associated virus (AAV) is a common viral vector used in gene therapy.Because of its high safety and its ability to target a variety of cells, it has been widely used in preclinical and clinical studies.However, during the design and production, AAV vectors have many key quality attributes that affect their safety and efficacy.The development and application of biological mass spectrometry technology provides a convenient platform for the research on biological macromolecules, especially in the aspects of protein sequence, structure and interaction.For AAV vectors, mass spectrometry can facilitate the determination or characterization of capsid protein ratio, post-translational modification, serotype, and empty capsid ratio, thus assisting in the quality control of AAV vectors.Compared with the existing methods, mass spectrometry has the advantages of smaller amount of sample size, faster and more sensitive analysis, being more suitable for the analysis of complete AAV vectors with higher mass resolution, and can distinguish empty capsids, full capsids and partial capsids.In the future, mass spectrometry technology is expected to play a more important role in the design and production of AAV vectors through the coupling of more efficient protein separation technology with mass spectrometry, the development of new information processing software platforms and new mass spectrometry detection techniques.
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ObjectiveTo explore the pharmacodynamic ingredients of Zhenqi Fuzheng granules (ZFG) for immunomodulatory through spectrum-effect relationship analysis, which provides experimental basis for improving the quality standard of ZFG. MethodEighteen batches of ZFG from six manufacturers were collected for analysis. The fingerprints were established by high performance liquid chromatography (HPLC). Acetonitrile (A)-0.1% formic acid aqueous solution (B) were adopted as the mobile phase with gradient elution (0-15 min, 5%A; 15-23 min, 5%-8%A; 23-30 min, 8%-11%A; 30-45 min, 11%-18%A; 45-60 min, 18%-21%A; 60-67 min, 21%-23%A; 67-90 min, 23%-37%A), the detection wavelength was 220 nm. Chemometric analysis such as similarity analysis and hierarchical cluster analysis (HCA) were subsequently used to analyze the similarities and chemical differences among these samples. A cyclophosphamide-induced immunodeficiency mouse model was used to evaluate the immune-enhancing effects of the products from different manufacturers. The spectrum-effect relationship between HPLC fingerprints and the immunomodulatory effects was examined using Spearman bivariate correlation analysis. HPLC coupled with mass spectrometry (HPLC-MSn) was used to identify the spectrum-effect related peaks with electrospray ionization, positive and negative ion modes, and scanning range of m/z 100-1 500. ResultThe HPLC fingerprint of ZFG was established, and twenty peaks with good resolution were selected as common peaks. The results of quality analysis and pharmacodynamic test showed there were significant differences in both ingredients content and immune-enhancing effects of ZFG from different manufacturers. Through spectrum-effect relationship study, twelve peaks were screened as bioactive ingredients peaks. Thereafter, eight peaks among them were subsequently identified by HPLC-MSn. They were salidroside (peak 2), echinacoside (peak 5), calycosin-7-glucoside (peak 6), isomer of specnuezhenide (peak 7), isonuezhenide (peak 9), calycosin (peak 11), nuezhenide G13 or oleonuezhenide (peak 14), and formononetin (peak 18), respectively. ConclusionThere are differences in quality and efficacy of ZFG produced by different manufacturers. Through spectrum-effect relationship analysis, the medicinal ingredients of ZFG for immune-enhancing effects are screened, which can provide reference for the improvement of its quality standard.
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Objective:To establish the fingerprint of Baoyuantang substance benchmark, and to analyze and identify the common peaks. Method:A total of 15 batches of Baoyuantang substance benchmark were prepared, ultra performance liquid chromatography-diode array detector method (UPLC-PDA) was used to establish the fingerprint of the substance benchmark, and the methodology was developed. The chromatographic conditions were as follows:ACQUITY UPLC BEH Shield C<sub>18</sub> column (2.1 mm×100 mm, 1.7 μm), mobile phase of 0.05% formic acid solution (A) and 0.05% formic acid acetonitrile solution ( B) for gradient elution (0-0.5 min, 5%-19%B; 0.5-6 min, 19%B; 6-10 min, 19%-27%B; 10-20 min, 27%-45%B; 20-20.1 min, 45%-95%B; 20.1-23 min, 95%B), the flow rate of 0.4 mL·min<sup>-1</sup>, the column temperature of 30 ℃, the detection wavelength at 203 nm and 260 nm, and the injection volume of 2 μL. Similarity evaluation system of traditional Chinese medicine fingerprint (2012 edition) was used to establish the fingerprint and generate the control fingerprint. The chemical constituents of Baoyuantang substance benchmark were identified by comparison of standard substances and UPLC-electrospray ionization tandem mass spectrometry (UPLC-ESI-MS/MS) with full information tandem mass spectrometry (MS<sup>E</sup>) and scanning range of <italic>m</italic>/<italic>z</italic> 50-1 200. Result:The similarities of 15 batches of Baoyuantang substance benchmark were above 0.90 by comparing with the control fingerprint. There were 37 common peaks, 22 of which were identified through UPLC-ESI-MS/MS, including liquiritin, violanthin, ginsenoside Rg<sub>1</sub>, ginsenoside Rb<sub>1</sub>, ginsenoside Re and so on. These components were all from Astragali Radix, Ginseng Radix et Rhizoma, Zingiberis Rhizoma Recens and Glycyrrhizae Radix et Rhizoma. Conclusion:This method is accurate, stable and reliable, which will basically reflect the overall chemical composition characteristics of Baoyuantang, and it provides experimental basis for development of the granules of this famous classical formulas.
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RESUMEN Actualmente, hay un creciente interés por el estudio de Cannabis sativa y sus componentes ya que se le atribuye propiedades terapéuticas en el tratamiento de enfermedades. En Colombia y específicamente en el departamento del Cauca se comercializan productos de cannabis tanto para fines no medicinales como terapéuticos. En consecuencia, es necesario el análisis de estos productos de manera que se pueda conocer la composición de los mismos y el posible efecto que pueda tener sobre la salud. El análisis de los componentes de estos productos se llevó a cabo empleando la cromatografía líquida de alta resolución (CLAR) y espectrometría de masas (EM), de tal manera que permitieron la identificación de las principales especies cannabinoides; Δ9-tetra hidrocannabinol (THC), cannabidiol (CBD), cannabinol (CBN), cannabigerol (CBG). La separación de los analitos se llevó a cabo mediante la implementación de una columna analítica C18 de fase reversa, elución isocrática 1 mL/ min, presión del sistema 800 PSI, una mezcla de acetonitrilo ACN y buffer fosfato (KHPO4) en relación 65/35 como fase móvil, volumen de inyección de 10 µL, un tiempo de análisis de 15 min, y detección a 220 nm.
SUMMARY Cannabis sativa has now experienced an increasing interest in the study of its components since it is attributed therapeutic properties in the treatment of diseases. In Colombia and specifically in the Cauca Department, Cannabis products are marketed both for non-medicinal and therapeutic purposes. Consequently, it is necessary to analyze these products in such a way that the composition of the products and their possible effect on health can be known. The analysis ofthe components of these products was carried out using high performance liquid chromatog-raphy (HPLC) and mass spectrometry (MS), in such a way that they allowed the identification of the main cannabinoid species; Δ9-tetra hydrocannabinol (THC), cannabidiol (CBD), cannabinol (CBN), cannabigerol (CBG). The separation of the analytes was carried out by means of the implementation of a reverse phase C18 analytical column, isocratic elution 1 mL/min, system pressure 800 PSI, a mixture of acetonitrile ACN and phosphate buffer (KHPO4) in relation 65/35 as mobile phase, injection volume of10 µL, analysis time of15 min, and detection at 220 nm.
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Organic acids are widely distributed in plants and related products, and participate in a wide range of metabolic pathways (e.g. tricarboxylic acid cycle), showing diverse pharmacological activities. As a widely used Chinese patent medicine, its adverse reactions are often reported. Therefore, we should further clarify the chemical components of Shenfu injection, and prepare strict quality standards to ensure the safety and effectiveness of its clinical use. Shenfu injection is prepared from red ginseng (steamed roots of Panax ginseng) and black prepared lateral roots of Aconitum carmichaelii (Heishunpian) by using modern extraction process, and organic acids are regarded as one of its main components. In current study, a hydrophilic interaction chromatography (HILIC) coupled with mass spectrometric method (HILIC-LC-MS) was developed and validated for the simultaneous determination of 14 organic acids, including cinnamic acid, ferulic acid, 4-hydroxylbenzoic acid, L-(+)-lactic acid, adipic acid, fumaric acid, caffeic acid, succinic acid, maleic acid, malonic acid, D-malic acid, (-)-shikimic acid, D-tartaric acid, and quinic acid in Shenfu injection. Satisfactory retention and separation were achieved for all organic acids on HILIC chromatographic column. Except cinnamic acid (231 μg•L⁻¹), lactic acid (113 μg•L⁻¹) and malonic acid (32.5 μg•L⁻¹), the limit of quantitation for the remaining 11 compounds were less than 10 μg•L⁻¹. D-Malic acid, malonic acid, quinic acid, L-(+)-lactic acid, and cinnamic acid were observed to have higher contents in Shenfu injection (>1.89 mg•L⁻¹), whereas caffeic acid and adipic acid were undetectable in all batches. Above all, the developed method is suitable for the simultaneous determination of organic acids in Shenfu and some other traditional Chinese medicine injections.
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AIM: To establish a quick,accurate,sensitive method for analysing sildenafil citrate illegally added into traditional Chinese medicinal preparation. METHODS: The ultra performance liquid chromatography-quadrupole mass spectrometry method was used.Electrospay ionization(ESI) source was applied and operated in the positive and negative ion mode.The compound of sildenafil citrate illegally added into traditional Chinese medicinal preparations were identified according to the spectrum,chromatographic behavior and mass spectral data by comparison with those of reference substance. RESULTS: Sildenafil citrate was found in two formulations of three. CONCLUSION: The method is selective and sensitive and can be used to detect the sildenafil citrate illegally added into traditional Chinese medicinal preparations.