Owing to the increasing incidence and prevalence of inflammatory bowel disease (IBD) worldwide, effective and safe treatments for IBD are urgently needed. Hydrogen sulfide (H₂S) is an endogenous gasotransmitter and plays an important role in inflammation. To date, H₂S-releasing agents are viewed as potential anti-inflammatory drugs. The slow-releasing H₂S donor 5-(4-hydroxyphenyl)-3H-1,2-dithiole-3-thione (ADT-OH), known as a potent therapeutic with chemopreventive and cytoprotective properties, has received attention recently. Here, we reported its anti-inflammatory effects on dextran sodium sulfate (DSS)-induced acute (7 days) and chronic (30 days) colitis. We found that ADT-OH effectively reduced the DSS-colitis clinical score and reversed the inflammation-induced shortening of colon length. Moreover, ADT-OH reduced intestinal inflammation by suppressing the nuclear factor kappa-B pathway. In vivo and in vitro results showed that ADT-OH decreased intestinal permeability by increasing the expression of zonula occludens-1 and occludin and blocking increases in myosin II regulatory light chain phosphorylation and epithelial myosin light chain kinase protein expression levels. In addition, ADT-OH restored intestinal microbiota dysbiosis characterized by the significantly increased abundance of Muribaculaceae and Alistipes and markedly decreased abundance of Helicobacter, Mucispirillum, Parasutterella, and Desulfovibrio. Transplanting ADT-OH-modulated microbiota can alleviate DSS-induced colitis and negatively regulate the expression of local and systemic proinflammatory cytokines. Collectively, ADT-OH is safe without any short-term (5 days) or long-term (30 days) toxicological adverse effects and can be used as an alternative therapeutic agent for IBD treatment.
Humans ; Mice ; Animals ; Gastrointestinal Microbiome ; Intestinal Barrier Function ; Mice, Inbred C57BL ; Colitis/metabolism* ; Inflammatory Bowel Diseases/drug therapy* ; Inflammation ; Anti-Inflammatory Agents/pharmacology* ; Disease Models, Animal

Bacterial antitumor therapy has great application potential given its unique characteristics, including genetic manipulation, tumor targeting specificity and immune system modulation. However, the nonnegligible side effects and limited efficacy of clinical treatment limit their biomedical applications. Engineered bacteria for therapeutic applications ideally need to avoid their accumulation in normal organs and possess potent antitumor activity. Here, we show that macrophage-mediated tumor-targeted delivery of Salmonella typhimurium VNP20009 can effectively reduce the toxicity caused by administrating VNP20009 alone in a melanoma mouse model. This benefits from tumor-induced chemotaxis for macrophages combined with their slow release of loaded strains. Inspired by changes in the tumor microenvironment, including a decrease in intratumoral dysfunctional CD8⁺ T cells and an increase in PDL1 on the tumor cell surface, macrophages were loaded with the engineered strain VNP-PD1nb, which can express and secrete anti-PD1 nanoantibodies after they are released from macrophages. This novel triple-combined immunotherapy significantly inhibited melanoma tumors by reactivating the tumor microenvironment by increasing immune cell infiltration, inhibiting tumor cell proliferation, remodeling TAMs to an M1-like phenotype and prominently activating CD8⁺ T cells. These data suggest that novel combination immunotherapy is expected to be a breakthrough relative to single immunotherapy.

Objective: To evaluate the effect of vertical incision with superomedial pedicle for the treatment of female asymmetric hypermastia. Methods: The total of 31 patients with asymmetric breast hypertrophy were admitted from May 2012 to November 2018. All patients were female with an average age of 37.8 (28-55) years. Mammoplasty was performed by vertical incision with superomedial pedicle. According to the preoperative design, the epidermis of the pedicle, the excess skin and glandular tissue were removed. The superomedial pedicle was rotated upward and to be fixed on the major pectoralis fascia. After the fixation of the nipple areola, the incision was closed. Results: The mean follow up was (8.4±3.0) months, with a range from 6 to 18 months.One patient was unsatisfied with scar hyperplasia. One patient had slight mastoptosis 6 months after operation and received favorable outcome after revision. The rest of 29 patients had satisfactory results. Conclusions For patients with asymmetric breast hypertrophy, the new location of nipples on both sides should be determined by the degree of mastoptosis and hypermastia. So that, symmetry breast as well as smaller breast can be obtained.

Stromal vascular fraction(SVF)are the remaining cells after removing mature fat cells in the adipose tissue. Containing a certain amount of adipose derived stem cells(ADSCs), SVF also includes many other cells, which may have the potential of promoting angiogenesis. In this review, the role of SVF in angiogenesis after fat transplantation was summarized by intensive reading relative literature in recent years. The result is that angiogenesis and fat graft revascularization are regulated by various factors: SVF promotes secretion of a diverse array of cytokines and growth which are capable of stabilizing endothelium vascular network. ADSCs have the potential of differentiating into smooth muscle cells and endothelial cells which can coroperate to form new blood vessels.

Objective To construct pET21a-sBAFF by cloning the extracellular regions of 134-285 amino acids of BAFF, a member of human TNF family, and then express the gene in prokaryotic cells and purify the expressed product.Methods cDNA of K562 cell line was used as the template to amplify sBAFF gene to construct pET21a-sBAFF.Expression of sBAFF in E.coli BL21 was induced by IPTG, and the expressed proteins were assayed by SDS-PAGE.The bacteria were analyzed by sonication, and the target proteins mainly existed as inclusion bodies.Then sBAFF was purified by Ni2 +-IDA affinity chromatography.SDS-PAGE electrophoreses displayed that the expressed sBAFF migrated with a relative molecular weight of 18000.ResuIts The induction parameters such as temperature and inducing time were optimized.The target protein accounted for 38.59%of the total bacterial proteins.After refolding, 38.14% of sBAFF proteins were polymerized as an active trimer.The dimer form of sBAFF, which is representative of wrongly refolded product, accounted for very few.ConcIusion The expression and purification of BAFF which formed active trimer after refolding pave the way for its further function study and provide a novel approach for the development of BAFF-targeted therapeutics for autoimmune diseases.

As a classic fluorescent detect technique, fluorescence resonance energy transfer (FRET) has been widely used in biological researches. Researchers have developed a series of fluorescence detect probes which were based on FRET. Caspase family plays an important role in apoptosis pathway, especially Caspase-8 which located, at the initial of death receptor mediated apoptosis pathway, whose its activation can trigger subsequent precaspases' activation and lead to apoptosis. So it is of great significance to detect the activation of Caspase-8 in apoptosis assay. In this study, a fluorescent probe based on FRET has been designed which can detect the activity change of Caspase-8 in cells. To identify the effectiveness and specificity of the probe, we measure the Caspase-8 activity under the Caspase-8 specifically activated apoptosis inducer RGD-TRAIL with the flow cytometry FRET detection platform. The results show that the probe can respond to the activity change of Caspase-8 in apoptotic cells, and the change can be quantified rapidly by flow cytometry. The study provides a more efficient and convenient detection method of Caspase-8 activity in living cells.

OBJECTIVETo investigate a new endoscopic transaxillary technique for release of the sternocleidomastoid (SCM) in congenital muscular torticollis (CMT).

METHODSFrom May 2008 to March 2014, a total of 25 cases (male 7 and female 18), ranging in age from 14 to 31 years (mean age, 17.6 years), were operated for torticollis by endoscopic-assisted surgery. The sternal and clavicular attachments of the sternocleidomastoid were released by skin lift approach.

RESULTSThe primary healing was achieved in all the 25 cases with no injury of major vessels or nerves. The patients were followed up for 6 months with satisfactory result and invisible scar.

CONCLUSIONSThe subcutaneous endoscopic transaxillary and skin lift approach for the CMT provides good functional and cosmetic outcomes.

Adolescent ; Adult ; Axilla ; Cicatrix ; Clavicle ; Endoscopy ; methods ; Female ; Humans ; Male ; Neck Muscles ; surgery ; Torticollis ; congenital ; surgery ; Treatment Outcome ; Young Adult

Objective To synthesize 99Tcm-TP5-3 and evaluate its biodistribution and kinetics as a molecular probe for the detection of apoptosis,and evaluate tumor apoptosis after a single dose of paclitaxel chemotherapy in MDA-MB-231 breast tumor model.Methods TP5-3 was labeled with 99Tcm directly,and analyzed with HPLC.The radioactivity in tissues was measured and expressed as ％ID/g and T/NT (tumor/muscle).The mice bearing MDA-MB-231 breast tumor were divided into two groups:the treatment group which was given a single dose of paclitaxel (40 mg· kg-1,via tail vein),and the control group which was injected with the same volume of normal saline.After therapy,99Tcm-TP5-3 was injected via tail vein in both groups (100 μ1 for each mouse).MicroSPECT/CT was performed at 3 h postinjection.Radioactivity in different tissues was determined after imaging.Apoptotic cells were measured with flow cytometry.The morphological changes of the apoptotic cells were observed by light microscopies.One-way analysis of variance,two-sample t test and linear correlation analysis were used to analyze the data.Results The radiolabeling efficiency was ＞ 95％ and the radiochemical purity of 99Tcm-TP5-3 was (96.0± 1.5)％ at room temperature for 4 h.The predominant uptake was found in the kidneys at 30 min postinjection ((8.48± 1.07) ％ID/g),with rapid tracer clearance from the circulation.By comparison with activity at 5 min postinjection ((13.74± 4.21) ％ID/g),85％ of the initial activity reduced in blood at 4 h ((2.07±0.35) ％ID/g; F=11.310,P＜ 0.05).99Tcm-TP5-3 was mainly accumulated in the kidneys,liver and stomach,and excreted via the kidneys.T/NT in the treated group was 4.21±0.06,which was significantly higher than that of the control group (1.57±0.67; t =12.820,P＜0.05).The radioactivity of tumor tissue in the treatment group was much higher than that in the control group (4.82±0.54) ％ID/g vs (1.44±0.38) ％ID/g,t=0.679,P＜0.05).The tumor uptake of 99Tcm-TP5-3 in the treatment group positively correlated well with the apoptotic cells (r =0.985,P＜0.05).Histopathology further confirmed that a large number of apoptosis had occurred in the tumor after paclitaxel treatment.Conclusion 99Tcm-TP5-3 appears to have potential to be a useful molecular probe for imaging tumor cell apoptosis.

Objective:To study the biological characteristics of condylar chondrocytes isolated from mechanical stress stimulated TMJ condylar cartilage of rats.Methods:The rat models of mechanical stress stimulated condylar cartilage were made by class III orthope-dic force for 14 days.The cartilage from control and experimental rats were observed in gross view.The cell harvest rate and viability were examined,proteomic analysis was performed.Results:After stress stimulation the thickness,the elasticity of condylar cartilage and number of chondrocytes were significantly reduced.The weight of mandibular cartilage was decreased(P<0.01).The harvest rate and the viability rate of the cells were decreased(P<0.01).The chondrocytes in the experimental group appeared to be elongated. Proteomic analysis showed that stress-related proteins,signal transduction proteins were up-regulated;cytoskeleton proteins,cell prolif-erative proteins were down-regulated.Conclusion:Mechanical stress stimulation of condylar cartilage may result in biological activity and protein changes of the condylar cartilage chondrocytes.

To explore the structure and function of thioredoxin glutathione reductase (TGR) from Schistosoma j aponi-cum ,the homologous model of TGR in Schistosoma j aponicum was constructed by Swiss-Pdbviewer based on sequence and structure alignment .The potential substrates binding sites of TGR were analyzed and these sites of various TGRs were also as-sessed .Our results showed that the homologous model of Schistosoma japonicum TGR based on Schistosoma mansoni TGR structure was proved to be reasonable by PROCHECK program .Analysis of binding sites showed that NADPH and GDS bind-ing sites were conservative sites and GSH binding site was a specific site for parasite .Our data suggested that inhibitors which work in NADPH and GDS binding sites of other various TGRs may also interact with TGR form Schistosoma j aponicum .GSH binding region might be one of the potential targets for design of specific inhibitors of parasite TGRs .In addition ,C-terminal of TGR plays an important role in electron transfer and may participate in the binding of the substrate .Thus compound inhibiting swing of C-terminal could effectively restrain Schistosoma j aponicum TGR activity .