Artemisinin derivatives inhibit adipogenic differentiation of 3T3-L1 preadipocytes through upregulation of CHOP.

Artemisinin derivatives could inhibit adipogenic differentiation of 3T3-L1 preadipocytes and prevent obesity in mice. However, the molecular mechanism remains largely unclear. Our research was designed to investigate the specific molecular target of artemisinin derivatives in adipogenic differentiation of 3T3-L1 preadipocytes. Here, we revealed that in response to dihydroartemisinin (DHA) or artesunate (ATS), intracellular lipid was decreased in a concentration dependent manner as shown by BODIPY staining. Quantitative PCR analysis showed that expression of Cebpa, Pparg, Fabp4 and Plin was significantly decreased by DHA treatment in a concentration and time dependent manner. Also, DHA treatment remarkably downregulated expression of CCAAT/enhancer-binding protein α (C/EBPα) and nuclear receptor peroxisome proliferation-activated receptor γ (PPARγ) of adipogenic induced 3T3-L1 cells as assayed by western blotting. RNA-seq analysis identified thousands of differential expression genes (DEGs), among which CHOP expression was significantly improved in DHA treated cells. Upregulation of CHOP was verified by quantitative PCR and western blotting, respectively. Knockdown of CHOP by the specific shRNA revealed that the inhibition of adipogenesis by DHA was strongly blocked, resulting in restored lipid accumulation and expression of adipogenic molecules. In conclusions, the inhibitory effect of DHA on adipogenic differentiation of 3T3-L1 preadipocytes was exerted in a concentration and time dependent manner, which was mediated by expression of CHOP.

Silk Fibroin-Laponite Porous Microspheres as Cell Microcarriers for Osteogenic Differentiation.

Silk fibroin (SF) has garnered significant attention as a natural polymer for fabricating porous scaffolds in various engineering applications. However, the limited osteoinductive property of SF has hindered its efficacy in bone repair applications. In this study, we constructed an SF-based injectable porous microcarrier that is doped with laponite (LAP), containing magnesium ions (Mg2+). The influence of freezing temperatures and concentrations of SF and LAP on the structural parameters of SF-LAP microcarriers was investigated. The SF-LAP microcarrier exhibited a porosity of 76.7 ± 1.2% and a controlled pore size of 24.6 ± 4.0 µm. At the 6 weeks of in vitro degradation test, a mild alkaline level in culture medium containing SF-LAP microcarriers was detected. The release of Mg2+ from the SF-LAP microcarrier was maintained at a concentration within the range of 1.2-2.3 mM during the 6 weeks. The seeded human adipose-derived stem cells in the SF-LAP microcarrier demonstrated a significant enhancement in osteogenic differentiation compared with cells seeded in the pure SF microcarrier, as evidenced by quantitative alkaline phosphatase activity and the expression of osteogenic marker genes. These findings underscore the potential of the SF-LAP microcarrier as an ideal cell carrier in the treatment of bone defects.

A thermo-sensitive and injectable hydrogel derived from a decellularized amniotic membrane to prevent intrauterine adhesion by accelerating endometrium regeneration.

Objective To investigate the effect of the injectable hydrogel generated from a decellularized amniotic membrane (dAM)-gel on preventing the development of an intrauterine adhesion (IUA) on a rat model. Methods The dAM-gel was developed from an amniotic membrane (AM) by a process of decellularization, lyophilization, and enzyme digestion. Histological analysis, residual component determination, electronic microscopy and turbidimetric gelation kinetics analysis were performed to characterize the dAM-gel. The proliferation and migration of endometrial cells on the dAM-gel coated surface was examined. IUA was surgically created in rats and received dAM-gel injection immediately after wound creation. Gene profiles of epithelial cells cultured on the dAM-gel coated surface were evaluated by RNA-sequencing. Results The collagen content was retained in the dAM-gel, while the GAG content decreased significantly compared with fresh AM (fAM). Gelation of the gel was temperature-sensitive and showed a matrix concentration-dependent manner. Transplantation of the dAM-gel significantly reduced fibrosis of IUA with a recovered uterine cavity, regenerated endometrium and increased microvascular density, along with elevated pregnancy rate compared with endometrium damage groups. Migration of epithelial cells was greatly promoted by the dAM-gel in a surgically created uterine wound model. By comparing the RNA-sequence data of epithelial cells that were cultured on dAM-gel coated and non-coated surfaces, respectively, distinct gene profiles relative to the cellular migration, adhesion and angiogenesis and involved signaling pathway were identified. Conclusions The injectable dAM-gel developed from AM offers a promising option for preventing endometrial fibrosis by promotion of the re-epithelialization of the damaged endometrium.

Effect of water bath-assisted water extraction on physical and chemical properties of soybean oil body emulsion.

Soybean oil body (SOB), rich in polyunsaturated fatty acids and biologically active substances, is used as a natural emulsifier in food processing. In addition, SOB is healthier than synthetic emulsifiers. However, the physical and chemical properties of the SOB emulsion directly affect its application in food processing. In order to study the effect of water bath extraction (WBAE) on SOBs, the effects of WBAE method on the composition of SOBs, the zeta potential, average particle size, oxidation stability, and viscosity characteristics of SOB emulsions were researched. It was found that both protein and moisture contents of SOB decreased with increasing WBAE temperature; however, lipid content increased. These results were attributed to the exogenous proteins gradually denatured and dissociated with extraction temperature from 60°C to 100°C. Increasing the extraction temperature, the average particle size of the SOB emulsions increased, the oxidative stability was improved, the Zeta potential and viscosity decreased, and the fluidity of emulsions was improved. The SOB extracted at 100°C has broad application prospects in food, and this research is meaningful for supplying fundamental information for selecting proper extraction temperature of SOBs.

Mouse tail models of secondary lymphedema: fibrosis gradually worsens and is irreversible.

Although the mouse tail model of secondary lymphedema has been widely used in research, our knowledge regarding some of the characteristic changes in this model is lacking. Therefore, in the current study, we aimed to identify pathologic changes after surgery. Tail lymphedema was created in C57BL/6J mice by disconnecting both superficial and deep lymphatic vessels. The surgery resulted in chronic edema formation with the proliferation of subcutaneous adipose tissue, deposition of fibrotic tissue, and gradual increase in CD4+ T lymphocyte infiltration. Furthermore, dramatic expansion and an increased number of lymphatic vessels were observed postoperatively. Lymphatic reflux was established at least 8 weeks after surgery, as evidenced by staining of the scar from the surgical excision. In addition, tissue fibrosis was irreversible, although CD4+ T cell infiltration, tail swelling, and subcutaneous adipose hyperplasia were alleviated over time. We also show that necrosis could be effectively avoided by paying attention to several details in the modeling process. As animal models play a key role in exploring the pathophysiology of disease, our findings provide strong support for the study of lymphedema. The irreversibility of fibrosis suggests the importance of treating lymphedema by preventing fibrosis development.