[Simultaneous determination and toxicokinetic study of six compounds from Zhachong Shisanwei Pills in plasma of chronic cerebral ischemia rats by LC-MS/MS].

A liquid chromatography-tandem mass spectrometry method was established and validated for determining the concentrations of costunolide(CO), piperine(PI), agarotetrol(AG), glycyrrhizic acid(GL), vanillic acid(VA), and glycyrrhetinic acid(GA) in rat plasma. This method was then applied to the toxicokinetic study of these six compounds in rats with chronic cerebral ischemia(CCI) following multiple oral doses of Zhachong Shisanwei Pills. Finally, the effects of continuous multiple-dose administration of Zhachong Shisanwei Pills on the liver of CCI rats were investigated.

Discovery of a Highly Promising Disulfide Derivative Scaffold as Inhibitor of SARS-CoV-2 Main Protease.

The main protease (M) of Severe Acute Respiratory Syndrome Coronavirus (SARS-CoV-2) represents a promising target for antiviral drugs aimed at combating COVID-19. Consequently, the development of M inhibitor is an ideal strategy for combating the virus. In this study, we identified twenty-two dithiocarbamates (1 a-h), dithiocarbamate-Cu(II) complexes (2 a-hCu) and disulfide derivatives (2 a-e, 2 i) as potent inhibitors of M, with IC value range of 0.

Inhalable spray-dried porous microparticles containing dehydroandrographolide succinate phospholipid complex capable of improving and prolonging pulmonary anti-inflammatory efficacy in mice.

Due to the unique physiological barriers within the lungs, there are considerable challenges in developing drug delivery systems enabling prolonged drug exposure to respiratory epithelial cells. Here, we report a PulmoSphere-based dry powder technology that incorporates a drug-phospholipid complex to promote intracellular retention of dehydroandrographolide succinate (DAS) in respiratory epithelial cells following pulmonary delivery. The DAS-phospholipid complex has the ability to self-assemble into nanoparticles.

Discovery of hydroxamate as a promising scaffold dually inhibiting metallo- and serine-β-lactamases.

The bacterial infection mediated by β-lactamases MβLs and SβLs has grown into an emergent health threat, however, development of a molecule that dual inhibits both MβLs and SβLs is challenging. In this work, a series of hydroxamates 1a-g, 2a-e, 3a-c, 4a-c were synthesized, characterized by H and C NMR and confirmed by HRMS. Biochemical assays revealed that these molecules dually inhibited MβLs (NDM-1, IMP-1) and SβLs (KPC-2, OXA-48), with an IC value in the range of 0.

The pulmonary pharmacokinetics and anti-inflammatory effects after intratracheal and intravenous administration of Chuankezhi injection.

Background: Chuankezhi injection (CKZ) is a traditional Chinese medicine for the treatment of respiratory diseases and has been often used off-label as a nebulization therapy. However, little is known about the aerosolization performance and pulmonary fate of the inhaled CKZ. This study aimed to evaluate the aerodynamic characteristics of nebulizer generated aerosols and to compare the properties of pharmacokinetics, lung distribution and anti-inflammation effects of CKZ after intratracheal and intravenous administration.

Dihydroxyphenyl-substituted thiosemicarbazone: A potent scaffold for the development of metallo-β-lactamases inhibitors and antimicrobial.

The superbug infection mediated by metallo-β-lactamases (MβLs) has grown into anemergent health threat, and development of MβL inhibitors is an ideal strategy to combat the infection. In this work, twenty-five thiosemicarbazones 1a-e, 2a-e, 3a-e, 4a-d, 5a-d and 6a-b were synthesized and assayed against MβLs ImiS, NDM-1 and L1. The gained molecules specifically inhibited NDM-1 and ImiS, exhibiting an IC value in the range of 0.

Comparison of plasma and pulmonary availability of chlorogenic acid, forsythiaside A and baicalin after intratracheal and intravenous administration of Shuang-Huang-Lian injection.

Ethnopharmacological Relevance: The off-label nebulization of Shuang-Huang-Lian (SHL) injection is often utilized to treat respiratory tract infections in China. However, the pulmonary biopharmaceutics of SHL was generally unknown, limiting the rational selection of therapeutic dose and dose frequency.

Aim Of The Study: To characterize the size distribution of nebulized aerosols and to compare the pharmacokinetics and the lung distribution of three chemical makers of SHL, chlorogenic acid (CHA), forsythiaside A (FTA) and baicalin (BC), after intratracheal and intravenous administration of SHL to rats.

Comparison of pulmonary availability and anti-inflammatory effect of dehydroandrographolide succinate via intratracheal and intravenous administration.

Dehydroandrographolide succinate (DAS) injection, which was approved in China for the treatment of viral pneumonia and upper respiratory tract infections, is often off-label used for nebulization therapy to avoid the adverse drug reactions associated with the injection. However, the aerodynamic properties and pulmonary fate of nebulized DAS was largely uninvestigated. In this study, the main objectives were to evaluate the in vitro aerodynamic deposition profiles of nebulizer generated aerosols and comparatively investigate the local drug availability and anti-inflammatory efficacy of DAS between intratracheal and intravenous dosing.

Fluticasone propionate nanosuspensions for sustained nebulization delivery: An in vitro and in vivo evaluation.

This study intended to investigate the in vivo pulmonary fate of intratracheally dosed nanosuspensions of fluticasone propionate (FP). Three FP suspensions, including a microsuspension and two nanosuspensions with different dissolution profiles, were prepared and they exhibited comparable aerodynamic performances after nebulization via a jet nebulizer. Following intratracheal administration to rats, the microsuspension underwent extensive mucociliary clearance, leading to a limited absorption time whereas the nanosuspensions decreased the mucociliary clearance and allowed dissolution rate-limiting and extended pulmonary absorption, resulting in prolonged pulmonary retention and long-acting anti-inflammatory efficacy in a lipopolysaccharide induced lung injury model.

Comparison of different fractionation strategies for in-depth phosphoproteomics by liquid chromatography tandem mass spectrometry.

Phosphorylation, a major posttranslational modification of proteins, plays an important role in protein activity and cell signaling. However, it is difficult to detect protein phosphorylation because of its low abundance and the fact that the analysis can be hindered by the presence of highly abundant non-phosphoproteins. In order to reduce the sample complexity and improve the efficiency of identification of phosphopeptides, aliphatic hydroxy acid-modified metal oxide chromatography (HAMMOC) was utilized to enrich phosphopeptides from a murine macrophage cell lysate.

Intracellular hydrogelation preserves fluid and functional cell membrane interfaces for biological interactions.

Cell membranes are an intricate yet fragile interface that requires substrate support for stabilization. Upon cell death, disassembly of the cytoskeletal network deprives plasma membranes of mechanical support and leads to membrane rupture and disintegration. By assembling a network of synthetic hydrogel polymers inside the intracellular compartment using photo-activated crosslinking chemistry, we show that the fluid cell membrane can be preserved, resulting in intracellularly gelated cells with robust stability.

[DNA repair of CHL cells and HeLa cells after DNA damage induced by different oxidative agents].

Objective: To investigate DNA repair in CHL cells and HeLa cells after DNA damage induced by different oxidative agents.

Methods: CHL cells and HeLa cells were exposed to various damaging agents, CHL cells: H(2)O(2) for 25 min, K(2)Cr(2)O(7) for 105 min, doxorubicin (Dox) for 75 min HeLa cells: H(2)O(2) for 25 min, K(2)Cr(2)O(7) for 105 min; then cells were continuously cultured for 0-3 h after washing. Alkaline single cell gel electrophoresis (ASCGE) assay was used to detect DNA strand breaks.