Milk exosomes: an oral drug delivery system with great application potential.

Exosomes are extracellular vesicles with the smallest diameter, usually divided into cellular sources and body fluid sources. Due to their special properties different from cell-derived exosomes, the application of milk exosomes as an oral drug delivery system has increased greatly. This article introduces the physical and chemical properties of exosomes, separation technology, dyeing and labeling technology, targeted modification technology, and the application of milk exosomes in drug loading and disease therapies.

2', 4'-Dihydroxy-2,3-dimethoxychalcone: A pharmacological inverse agonist of RORγt ameliorating Th17-driven inflammatory diseases by regulating Th17/Treg.

Multiple sclerosis, inflammatory bowel disease and organ transplant rejection are related to Th17 cell development and inflammatory respond. RORγt, a specific transcription factor regulating Th17 cell differentiation, is a pivotal target for the treatment of diseases. However, the clinical application of RORγt inverse agonists reported so far has been hindered due to limited efficacy and toxic side effects.

Baicalin Promotes CNS Remyelination via PPARγ Signal Pathway.

Background And Objectives: Demyelinating diseases in the CNS are characterized by myelin sheath destruction or formation disorder that leads to severe neurologic dysfunction. Remission of such diseases is largely dependent on the differentiation of oligodendrocytes precursor cells (OPCs) into mature myelin-forming OLGs at the demyelinated lesions, which is defined as remyelination. We discover that baicalin (BA), a natural flavonoid, in addition to its well-known antiinflammatory effects, directly stimulates OLG maturation and CNS myelin repair.

Fabrication of rigid and macroporous agarose microspheres by pre-cross-linking and surfactant micelles swelling method.

A novel combined method of pre-cross-linking and surfactant micelles swelling was proposed in this study to fabricate highly cross-linked and macroporous agarose (HMA) microspheres. Agarose was chemically modified by allylglycidyl ether (AGE) as heterobifunctional cross-linker via its active glycidyl moieties before gel formation and pre-cross-linking was achieved. By this means, the effective concentration of cross-linker presented in agarose gel increased significantly, and thus cross-linking with a high-efficiency was achieved.

Multiscale evaluation of pore curvature effects on protein structure in nanopores.

Protein structure in nanopores is an important determinant in porous substrate utilization in biotechnology and materials science. To date, accurate residue details of pore curvature induced protein binding and unfolding were still unknown. Here, a multiscale ensemble of chromatography, NMR hydrogen and deuterium (H/D) exchange, confocal scanning and molecular docking simulations was combined to obtain the protein adsorption information induced by pore size and curvature.

Thermal-sensitive hydrogels as nasal vaccine delivery systems.

The National Key Laboratory of Biochemical Engineering established in 1995 is affiliated with the Institute of Process Engineering, Chinese Academy of Sciences (CAS), and located in Zhong-guan-cun (Beijing, China). The National Key Laboratory of Biochemical Engineering is working towards developments in the fields of bio-reaction, bioseparation and bio-formulation, by chemical and material methods. Over the last 5 years, approximately 200 scientists and students have worked at the laboratory, and published over 400 articles.

Porogen effects in synthesis of uniform micrometer-sized poly(divinylbenzene) microspheres with high surface areas.

A new method of synthesizing uniform poly(divinylbenzene) (polyDVB) microspheres with high specific surface areas was designed by combining Shirasu porous glass (SPG) membrane emulsification, suspension polymerization, and post-crosslinking techniques. It was shown that the physicochemical properties of porogens have a great influence on the size distribution and porous features of microspheres. The low aqueous solubility of porogen facilitated preparation of uniform emulsions and microspheres, and high aqueous solubility led to polydispersed emulsions and poor microsphere yields.