OBJECTIVETo construct an double-layered tube-shaped poly (lactic-co-glycolic acid) (PLGA) scaffold composited with vascular endothelial growth factor (VEGF)/ platelet-derived growth factor (PDGF), and to evaluate in vivo the axial vascularization from femoral arteriovenous bundle encapsulated.

METHODSEighteen male adult New Zealand rabbits were assigned randomly into 3 groups: Experimental group (n = 8), experimental control group (n = 8), empty control group (n=2). The femoral arteriovenous bundle were separated and encapsulated in double-layered tubeshaped PLGA scaffold prepared by solution casting and particle leaching. According to the way of cell factors being composited to the prepared double-layered scaffold: 1) experimental group: VEGF in inner layer and PDGF in outer layer; 2) experimental control group: VEGF in inner layer with blank outer layer; 3) empty control group: Pure blank. Specimens were retrieved at 7, 10, 14, 21 days postoperatively (7, 10 days in empty control group). The histological evaluation was performed.

RESULTSAt 7 days postoperatively, blood vessel sprouts were observed in experimental group and experimental control group, radially from the central femoral arteriovenous bundle. At 10 days postoperatively, completely penetrations of the double-layered scaffold by abundant new generated blood vessel sprouts were observed, and density descended gradiently from inside to outside. At 14 days postoperatively, new blood vessels in experimental group showed more thickness and layered structure of the wall, while monolayer endothelial cells in experimental control group. At 21 days postoperatively, new blood vessels in experimental group showed more mature characteristics, while less density of blood vessels in experimental control group. There was no obvious blood vessel structure in empty control group.

CONCLUSIONThe double-layered tube-shaped PLGA scaffold composited with VEGF/PDGF could induce early angiogenesis.

Animals ; Lactic Acid ; Male ; Polyglycolic Acid ; Rabbits ; Tissue Engineering ; Vascular Endothelial Growth Factor A

Exponential growth of the mass spectrometry (MS) data is exhibited when the mass spectrometry-based proteomics has been developing rapidly. It is a great challenge to develop some quick, accurate and repeatable methods to identify peptides and proteins. Nowadays, the spectral library searching has become a mature strategy for tandem mass spectra based proteins identification in proteomics, which searches the experiment spectra against a collection of confidently identified MS/MS spectra that have been observed previously, and fully utilizes the abundance in the spectrum, peaks from non-canonical fragment ions, and other features. This review provides an overview of the implement of spectral library search strategy, and two key steps, spectral library construction and spectral library searching comprehensively, and discusses the progress and challenge of the library search strategy.

Ectoine is an amino acid derivative and an important natural product in halophilic microorganisms. It plays an important role in protecting cells and stabilizing biological macromolecules, and can be widely used in biomedical fields such as drug preparation adjuvants, organ transplantation and preservation, skin wound repair and cosmetics. Due to the medical value and commercial market demand of ectoine, this article summarized the recent advances in the microbial production of ectoine, including the mutation and breeding of hyper-producing strains, construction of genetically and metabolically engineered strains, optimization of fermentation processes, and extraction and purification processes. The application of multi-omics technologies and computational biology to develop an ectoine producing cell factory was prospected, with the aim to provide a reference for ectoine overproduction.
Amino Acids, Diamino/metabolism* ; Fermentation