Objective To explore the expression differences of the docking protein 1(DOK1)gene in multiple tissues of mice during the development stage from prediabetes to type 2 diabetes mellitus(T2DM),as well as its correlation with blood lipid levels.Methods The mice were divided into the 0 d group(control),the 20 d group,the 40 d group,the 60 d group,the 80 d group and the T2DM group.The 0 d group was fed with normal diet,while the other four groups were fed with high-fat diet to establish the prediabetes model.On this basis,the T2DM group was given low-dose multiple intraperitoneal injections of streptozotocin(STZ)to establish the T2DM model.The fasting and intraperitoneal glucose tolerance test(IPGTT)and insulin tol-erance test(IPITT)blood glucose of mice in each group were detected,and the expression of the DOK1 gene in nine tissues(heart,liver,kidney,skeletal muscle,pancreas,adipose,spleen,lung and colon tissues)was de-tected by qPCR.The level of DOK1 in serum was determined by ELISA,and the lipid level in serum was measured by an automatic biochemical analyzer.The correlations between serum DOK1 and TG,TC,HDL-C,LDL-C,lipoprotein A[LP(a)],and free fatty acids(FFA)were analyzed by Spearman correlation analysis.Re-sults The prediabetic and T2DM model mice were successfully established.Compared with the 0 d group,the blood glucose and lipid levels in the 80 d group and the T2DM group were significantly increased(P<0.001).Compared with the 0 d group,the expression level of DOK1 mRNA in the T2DM group was significantly de-creased in heart,liver,kidney,skeletal muscle,pancreas and adipose tissue(P<0.05).Compared with the 0 d group,the expression level of DOK1 mRNA in the 80 d group was significantly decreased in heart,liver,kid-ney and skeletal muscle tissue(P<0.05).Compared with the 0 d group,the expression levels of DOK1 mR-NA in the 40 d group and the 60 d group was significantly decreased in the liver tissues(P<0.05).Compared with group 0 d,there was no statistically significant difference in the expression level of DOK1 mRNA in the spleen,lung and colon tissues among each group(P>0.05).DOK1 in the 80 d group and the T2DM group was negatively correlated with TG,TC,LDL-C,LP(a),and FFA(r=-0.787 8,-0.727 2,-0.763 7,-0.764 2,-0.892 5,P<0.001),while positively correlated with HDL-C(r=0.961 3,P<0.001).Conclu-sion The reduction of DOK is related to the mechanism of insulin resistance and may play a key role in lipid metabolism disorders associated with diabetes.

To investigate the in vitro inhibitory mechanism of Nymphaea candida total flavonoids(NCTF)against Staphylococcus aureus(S.aureus)and its safety in mice,this study first deter-mined the antibacterial effect of NCTF on the clinically isolated strain S.aureus-C1.Subsequently,the inhibitory mechanism of NCTF on S.aureus-C1 was explored by measuring its effects on bac-terial growth curves,microstructure,intracellular AKP and LDH levels,and biofilm formation.Safety evaluation included determination of LD50 and MDT in mice,as well as analysis of serum biochemical parameters,organ indices,and histopathological observations.Results showed that NCTF effectively inhibited S.aureus-C1 proliferation,with an inhibition zone diameter of(18.98±0.67)mm and a MIC of 6.25 g/L.A concentration of 2×MIC nearly completely suppressed bacte-rial growth.Scanning electron microscopy revealed structural damage to bacterial cells,including collapse and shrinkage.AKP and LDH assays indicated significantly increased AKP activity(P＜0.05)and decreased intracellular LDH activity(P＜0.05)in the supernatant of drug-treated groups,demonstrating NCTF-induced disruption of cell walls and membranes leading to leakage of AKP and LDH.Crystal violet staining of biofilms showed significant inhibition rates of(43.77±9.16)％and(61.71±9.82)％at 2 × MIC and 4 × MIC concentrations,respectively(P＜0.05).Safe-ty assessments indicated low toxicity of NCTF in mice,with transient effects that returned to nor-mal levels within a short period.These findings demonstrate that NCTF exhibits potent antibacte-rial activity against S.aureus-C1 by damaging bacterial cell structures,increasing cell wall/mem-brane permeability,reducing biofilm formation,and displaying low toxicity.This study provides scientific evidence for clinical drug screening against bovine mastitis and the development of Nym-phaea candida resources.

To investigate the in vitro inhibitory mechanism of Nymphaea candida total flavonoids(NCTF)against Staphylococcus aureus(S.aureus)and its safety in mice,this study first deter-mined the antibacterial effect of NCTF on the clinically isolated strain S.aureus-C1.Subsequently,the inhibitory mechanism of NCTF on S.aureus-C1 was explored by measuring its effects on bac-terial growth curves,microstructure,intracellular AKP and LDH levels,and biofilm formation.Safety evaluation included determination of LD50 and MDT in mice,as well as analysis of serum biochemical parameters,organ indices,and histopathological observations.Results showed that NCTF effectively inhibited S.aureus-C1 proliferation,with an inhibition zone diameter of(18.98±0.67)mm and a MIC of 6.25 g/L.A concentration of 2×MIC nearly completely suppressed bacte-rial growth.Scanning electron microscopy revealed structural damage to bacterial cells,including collapse and shrinkage.AKP and LDH assays indicated significantly increased AKP activity(P＜0.05)and decreased intracellular LDH activity(P＜0.05)in the supernatant of drug-treated groups,demonstrating NCTF-induced disruption of cell walls and membranes leading to leakage of AKP and LDH.Crystal violet staining of biofilms showed significant inhibition rates of(43.77±9.16)％and(61.71±9.82)％at 2 × MIC and 4 × MIC concentrations,respectively(P＜0.05).Safe-ty assessments indicated low toxicity of NCTF in mice,with transient effects that returned to nor-mal levels within a short period.These findings demonstrate that NCTF exhibits potent antibacte-rial activity against S.aureus-C1 by damaging bacterial cell structures,increasing cell wall/mem-brane permeability,reducing biofilm formation,and displaying low toxicity.This study provides scientific evidence for clinical drug screening against bovine mastitis and the development of Nym-phaea candida resources.

Rotator cuff injury often leads to shoulder pain and dysfunction. For the injured rotator cuff tendon without continuous interruption, conservative treatment is often used. However, the shoulder is used frequent in daily life, which makes that the rotator cuff injury generally shows gradual aggravation and eventually progresses to complete tear due to poor blood supply of the rotator cuff tendon tissue and weak repair ability. In order to reverse the pathophysiological changes after rotator cuff injury and promote the repair of injured rotator cuff tendon, a series of conservative treatments for rotator cuff injury have been explored. Extracorporeal shock wave therapy (ESWT) is one of the representative treatments, but its molecular biological mechanism in promoting rotator cuff repair is still unclear. Therefore, the authors review the progress of ESWT for rotator cuff injury from aspects of the molecular biological mechanism and clinical application status, so as to provide a reference for future researches and clinical application of ESWT.

Objective:To investigate influences of ginsenoside Rg1 regulating miR-144-3p on neuroinflammation and blood-brain barrier damage in rats with experimental cerebral hemorrhage,and its regulation on formyl peptide receptor 2(FPR2)/p38 path-way.Methods:Ninety SD rats were randomly divided into control group,cerebral hemorrhage group,ginsenoside Rg1 low-dose group(10 mg/kg),ginsenoside Rg1 high-dose group(40 mg/kg),ginsenoside Rg1 high-dose+ago-miR-144-3p group(40 mg/kg ginseno-side Rg1+ago-miR-144-3p),with 18 mice in each group.Except for control group,experimental intracerebral hemorrhage rat model was constructed by injecting collagenase Ⅱ into right caudate nucleus,and then each group was given intraperitoneal administration and intracerebral injection as required.Neurological damage in rats was scored;rat brain water content was determined by dry-wet spe-cific gravity method;levels of TNF-α,IL-6 and IL-1β in rat brain tissues homogenate were determined by ELISA;ultrastructure around cerebral edema was observed by electron microscope;permeability of blood-brain barrier in rats was determined by Evans blue(EB)method;expressions of miR-144-3p/FPR2/p38 pathway were determined by qRT-PCR and Western blot.Results:Compared with control group,blood-brain barrier damage was aggravated in cerebral hemorrhage group,neurological function damage score,brain water content,miR-144-3p,TNF-α,IL-6,IL-1β,p38 mRNA,p-p38/p38 expressions in brain homogenate were increased(P<0.05),FPR2 mRNA and protein expressions were decreased(P<0.05);compared with cerebral hemorrhage group,blood-brain barrier damage was reduced in ginsenoside Rg1 low-dose group and ginsenoside Rg1 high-dose group,neurological function damage score,brain water content,miR-144-3p,TNF-α,IL-6,IL-1β,p38 mRNA,p-p38/p38 expressions in brain homogenate were decreased(P<0.05),FPR2 mRNA and protein expressions were increased(P<0.05);ago-miR-144-3p was able to reverse protective effects of gin-senoside Rg1 on blood-brain barrier and neuroinflammation in rats(P<0.05).Conclusion:Ginsenoside Rg1 may inhibit blood-brain barrier damage and neuroinflammation in rats by regulating miR-144-3p/FPR2/p38 axis.

The spatiotemporal distribution of growth factors in bone tissue-engineered repair and reconstruction is critical. Growth factors can be used in bone tissue engineering through different encapsulation methods. Different encapsulation methods make growth factors have different release kinetics. At present, the common physical entrapment, easily degradable carrier and simple spatial structure usually result in poor sustained release of growth factors by burst release. The optimization of release methods of growth factors enables their release at different times and spaces in a biomimetric manner, which is conducive to improving the effect of tissue repair and avoiding the adverse effects of excessive factors. Starting from the necessity of spatiotemporal sustained release of growth factors, the authors summarize growth factors can attain spatiotemporal sustained release by being directly immobilized on the surface of the carrier, encapsulated in the carrier, encapsulated in the microparticles and encapsulated in the carrier by the microparticles and review the spatiotemporal sustained release of growth factors in different encapsulation methods, so as to provide a reference for optimizing spatiotemporal release of growth factor in bone tissue engineering.

The rotator cuff injury is a kind of chronic tendon disease related to overuse injury. The main clinical manifestations of this disease include shoulder pain and dysfunction，which seriously affects people 's life quality and work capability. Although previous studies have shown that inflammation and de- generation of collagen matrix are closely related to the occurrence and development of this disease，the pathogenesis of the disease is still unclear. In this study，the authors review the pathologic mechanisms of rotator cuff injuries from aspects of oxidative stress，inflammation，macrophage and non-coding RNA so as to provide a reference for subsequent research and treatment.

OBJECTIVETo evaluate the effects of Icariin (ICA) on the proliferation and osteogenic differentiation of human periodontal ligament stem cells (hPDLSCs) in vitro and in vivo.

METHODSAn enzymatic digestion block was used in vitro to culture hPDLSCs, which were separated and purified by limited dilution cloning. The hPDLSCs were identified using cell-surface markers and cocultured with 1 x 10(-7) mol.L-1 ICA solution. The proliferation ability of these cells was determined by thiazolyl blue tetrazolium bromide (MTT) assay. After staining with alkaline phosphatase (ALP), osteogenesis was detected by enzyme-linked immunosorbent assay. Osteoblast-related genes were analyzed by reverse transcription-polymerase chain reaction. Alizarin red staining was performed to measure the level of calcium deposition. The hPDLSCs were cocultured with 1 x 10(-7) mol.L-1 ICA and nano-hydroxyapatite scaffolds in vivo before transplantation into subcutaneous tissues of nude mice. Osteogenic abilities were histochemically analyzed after 30 days of induction.

RESULTSThe hPDLSCs were affected by 1 x 10(-7) mol.L-1 ICA, and MTT assay showed that the proliferation of the groups treated with ICA in vitro was better than that of the control groups on the second day. The ALP activity of the treated hPDLSCs was significantly enhanced after cell culture for 3, 5, and 7 days. The gene expression of osteoblastic markers was also significantly enhanced after 7 days. The deposition of mineralization after incubation with 1 x 10(-7) mol.L-1 ICA increased compared with the control after cell culture for 14, 21, and 28 days. Furthermore, the bone expression of the treatment groups in vivo was significantly enhanced compared with that of the control groups.

CONCLUSIONTreatment with 1 x 10(-7) mol.L-1 ICA can significantly promote proliferation and differentiation of hPDLSCs in vitro and in vivo. ICA can effectively function as a bioactive growth factor in periodontal tissue engineering to replace traditional growth factors.

Alkaline Phosphatase ; Animals ; Cell Culture Techniques ; Cell Differentiation ; Cell Proliferation ; Coculture Techniques ; Enzyme-Linked Immunosorbent Assay ; Flavonoids ; Humans ; Mice ; Mice, Nude ; Osteoblasts ; Osteogenesis ; Periodontal Ligament ; Stem Cells

Objective??To?evaluate?the?effects?of?Icariin?(ICA)?on?the?proliferation?and?osteogenic?differentiation?of?human?periodontal?ligament?stem?cells?(hPDLSCs)?in vitro and?in vivo. Methods??An?enzymatic?digestion?block?was?used?in vitro?to?culture?hPDLSCs,?which?were?separated?and?purified?by?limited?dilution?cloning.?The?hPDLSCs?were?identified?using?cell-surface?markers?and?cocultured?with?1×10?7 mol·L?1 ICA?solution.?The?proliferation?ability?of?these?cells?was?determined?by?thiazolyl?blue?tetrazolium?bromide?(MTT)?assay.?After?staining?with?alkaline?phosphatase?(ALP),?osteogenesis?was?detected?by?enzyme-linked?immunosorbent?assay.?Osteoblast-related?genes?were?analyzed?by?reverse?transcription-polymerase?chain?reaction.?Alizarin?red?staining?was?performed?to?measure?the?level?of?calcium?deposition.?The?hPDLSCs?were?cocultured?with?1×10?7 mol·L?1 ICA?and?nano-hydroxyapatite?scaffolds?in vivo?before?transplantation?into?subcutaneous?tissues?of?nude?mice.?Osteogenic?abilities?were?histochemically?analyzed?after?30?days?of?induction.?Results??The?hPDLSCs?were?affected?by?1×10?7 mol·L?1 ICA,?and?MTT?assay?showed?that?the?proliferation?of?the?groups?treated?with?ICA?in vitro?was?better?than?that?of?the?control?groups?on?the?second?day.?The?ALP?activity?of?the?treated?hPDLSCs?was?significantly?enhanced?after?cell?culture?for?3,?5,?and?7?days.?The?gene?expression?of?osteoblastic?markers?was?also?significantly?enhanced?after?7?days.?The?deposition?of?mineralization?after?incubation?with?1×10?7 mol·L?1?ICA?increased?compared?with?the?control?after?cell?culture?for?14,?21,?and?28?days.?Furthermore,?the?bone?expression?of?the?treatment?groups?in vivo?was?significantly?enhanced?com-pared?with?that?of?the?control?groups.?Conclusion??Treatment?with?1×10?7 mol·L?1 ICA?can?significantly?promote?proliferation?and?differentiation?of?hPDLSCs?in vitro?and?in vivo.?ICA?can?effectively?function?as?a?bioactive?growth?factor?in?periodontal?tissue?engineering?to?replace?traditional?growth?factors.

With the development of tissue engineering, a variety of forms of silk fibroin (SF) scaffolds has been applied to research of constructing variety of organization based on cells, which has become scientific focus in recent years. In this paper we introduced the source and structure of SF and the fabrication method of the scaffold, and also address the SF application progress in several relevant fields of tissue engineering, such as bone, cartilage, skin, blood vessel and nerves. Finally, we discuss the future leading prospect of the SF in order to provide reference for subsequent research.
Fibroins ; Humans ; Tissue Engineering ; Tissue Scaffolds