ZNF554 Inhibits Endometrial Cancer Progression via Regulating RBM5 and Inactivating WNT/β-Catenin Signaling Pathway

Objective:Uterine corpus endometrial carcinoma(UCEC),a kind of gynecologic malignancy,poses a significant risk to women’s health.The precise mechanism underlying the development of UCEC remains elusive.Zinc finger protein 554(ZNF554),a member of the Krüppel-associated box domain zinc finger protein superfamily,was reported to be dysregulated in various illnesses,including malignant tumors.This study aimed to examine the involvement of ZNF554 in the development of UCEC.Methods:The expression of ZNF554 in UCEC tissues and cell lines were examined by qRT-PCR and Western blot assay.Cells with stably overexpressed or knocked-down ZNF554 were established through lentivirus infection.CCK-8,wound healing,and Transwell invasion assays were employed to assess cell proliferation,migration,and invasion.Propidium iodide(PI)staining combined with fluorescence-activated cell sorting(FACS)flow cytometer was utilized to detect cell cycle distribution.qRT-PCR and Western blotting were conducted to examine relative mRNA and protein levels.Chromatin immunoprecipitation assay and luciferase reporter assay were used to explore the regulatory role of ZNF554 in RNA binding motif 5(RBM5).Results:The expression of ZNF554 was found to be reduced in both UCEC samples and cell lines.Decreased expression of ZNF554 was associated with higher tumor stage,decreased overall survival,and reduced disease-free survival in UCEC.ZNF554 overexpression suppressed cell proliferation,migration,and invasion,while also inducing cell cycle arrest.In contrast,a decrease in ZNF554 expression resulted in the opposite effect.Mechanistically,ZNF554 transcriptionally regulated RBM5,leading to the deactivation of the Wingless(WNT)/β-catenin signaling pathway.Moreover,the findings from rescue studies demonstrated that the inhibition of RBM5 negated the impact of ZNF554 overexpression onβ-catenin and p-glycogen synthase kinase-3β(p-GSK-3β).Similarly,the deliberate activation of RBM5 reduced the increase inβ-catenin and p-GSK-3βcaused by the suppression of ZNF554.In vitro experiments showed that ZNF554 overexpression-induced decreases in cell proliferation and migration were counteracted by RBM5 knockdown.Additionally,when RBM5 was overexpressed,it hindered the improvements in cell proliferation and migration caused by reducing the ZNF554 levels.Conclusion:ZNF554 functions as a tumor suppressor in UCEC.Furthermore,ZNF554 regulates UCEC progression through the RBM5/WNT/β-catenin signaling pathway.ZNF554 shows a promise as both a prognostic biomarker and a therapeutic target for UCEC.

Netrin-1 signaling pathway mechanisms in neurodegenerative diseases

Netrin-1 and its receptors play crucial roles in inducing axonal growth and neuronal migration during neuronal development.Their profound impacts then extend into adulthood to encompass the maintenance of neuronal survival and synaptic function.Increasing amounts of evidence highlight several key points:(1)Diminished Netrin-1 levels exacerbate pathological progression in animal models of Alzheimer’s disease and Parkinson’s disease,and potentially,similar alterations occur in humans.(2)Genetic mutations of Netrin-1 receptors increase an individuals’susceptibility to neurodegenerative disorders.(3)Therapeutic approaches targeting Netrin-1 and its receptors offer the benefits of enhancing memory and motor function.(4)Netrin-1 and its receptors show genetic and epigenetic alterations in a variety of cancers.These findings provide compelling evidence that Netrin-1 and its receptors are crucial targets in neurodegenerative diseases.Through a comprehensive review of Netrin-1 signaling pathways,our objective is to uncover potential therapeutic avenues for neurodegenerative disorders.

木兰脂素调控Fyn-STAT5通路治疗变应性鼻炎

目的:探讨木兰脂素调控致密物酪氨酸激酶(dense tyrosine kinase Fyn, Fyn)/信号转导和转录激活因子5(signal transducers and activators of transduction 5,STAT5)通路治疗变应性鼻炎(allergic rhinitis, AR)的效果。方法:将58只豚鼠采用随机数字表法分为建模组(n=50)、空白组(n=8)。建模组采用卵清白蛋白抗原混悬液全身及局部攻击建立AR模型,将建模成功的豚鼠随机分为模型组、氯雷他定组(1.05 mg·kg^(-1))及木兰脂素低剂量组(20 mg·kg^(-1))、木兰脂素中剂量组(40 mg·kg^(-1))、木兰脂素高剂量组(80 mg·kg^(-1))。给予相应药物灌胃干预,模型组和空白组以等体积生理盐水灌胃,灌胃体积为10 mL·kg^(-1),每天1次,连续7 d。对比干预前后各组豚鼠鼻部症状评分;HE染色观察各组豚鼠鼻黏膜组织病理变化。体外分离并鉴定各组豚鼠鼻黏膜成纤维细胞,转化生长因子-β1干预各组成纤维细胞后采用Western Blot检测Fyn、STAT5、干细胞因子(stem cell factor, SCF)、白细胞介素-10(interleukin-10,IL-10)蛋白表达水平;RT-qPCR检测Fyn mRNA、STAT5 mRNA、SCF mRNA、IL-10 mRNA表达水平。结果:与模型组比较,木兰脂素各剂量组豚鼠鼻部症状评分显著降低(P<0.05),鼻黏膜病理变化明显减轻。各组鼻黏膜成纤维细胞中波形蛋白均呈强阳性表达,提示鼻黏膜成纤维细胞成功分离;与模型组比较,木兰脂素各剂量组Fyn、SCF蛋白与mRNA表达水平明显降低(P<0.05),STAT5、IL-10蛋白与mRNA表达水平明显升高(P<0.05),且呈剂量依赖性。结论:木兰脂素可减轻AR豚鼠的鼻部症状和鼻黏膜组织病理改变,其作用机制可能与调控Fyn-STAT5通路进而调节免疫反应有关。

MiR-146a-5p targeting SMAD4 and TRAF6 inhibits adipogenensis through TGF-β and AKT/mTORC1 signal pathways in porcine intramuscular preadipocytes

Background: Intramuscular fat(IMF) content is a vital parameter for assessing pork quality. Increasing evidence has shown that microRNAs(miRNAs) play an important role in regulating porcine IMF deposition. Here, a novel miRNA implicated in porcine IMF adipogenesis was found, and its effect and regulatory mechanism were further explored with respect to intramuscular preadipocyte proliferation and differentiation.Results: By porcine adipose tissue miRNA sequencing analysis, we found that miR-146a-5p is a potential regulator of porcine IMF adipogenesis. Further studies showed that miR-146a-5p mimics inhibited porcine intramuscular preadipocyte proliferation and differentiation, while the miR-146a-5p inhibitor promoted cell proliferation and adipogenic differentiation. Mechanistically, miR-146a-5p suppressed cell proliferation by directly targeting SMAD family member 4(SMAD4) to attenuate TGF-β signaling. Moreover, miR-146a-5p inhibited the differentiation of intramuscular preadipocytes by targeting TNF receptor-associated factor 6(TRAF6) to weaken the AKT/mTORC1 signaling downstream of the TRAF6 pathway.Conclusions: MiR-146a-5p targets SMAD4 and TRAF6 to inhibit porcine intramuscular adipogenesis by attenuating TGF-β and AKT/mTORC1 signaling, respectively. These findings provide a novel miRNA biomarker for regulating intramuscular adipogenesis to promote pork quality.

Small interfering RNA targeting HMGN5 induces apoptosis via modulation of a mitochondrial pathway and Bcl-2 family proteins in prostate cancer cells

We investigated the importance of HMGN5, a nuclear protein that binds to nucleosomes, unfolds chromatin, and affects transcription, in the LNCaP prostate cancer cell line. We also examined the molecular mechanisms that promote apoptosis of LNCaP cells after infection with small interfering RNA （siRNA） targeting HMGN5 （siRNA-HMGN5）. The androgen-dependent LNCaP human prostate cancer cells were infected with siRNA-HMGN5. Apoptosis was detected using the Annexin V-PE/7-AAD double staining and the terminal deoxynucleotidyl transferase-mediated dUTP-biotin nick end labeling （TUNEL） assays. Mitochondrial membrane potential was measured by JC-1 staining. HMGN5and GAPDHmRNA expression were determined using real-time PCR. Bcl-2 and other apoptosis-related protein levels were determined by Western blot analysis. Caspase activity was measured by cleavage of the caspase substrate. Infection with siRNA targeting HMGN5 efficiently and specifically reduced the HMGN5 expression in LNCaP cells. The downregulation of HMGN5 induced remarkable apoptosis of LNCaP cells and resulted in the reduction of mitochondrial membrane potential. The induction of cell apoptosis was accompanied by the upregulation of Bax, the Bax/Bcl-2 ratio and the activation of caspase3. The HMGN5-targeted siRNA was effective in downregulating the expression of HMGN5 in androgen-dependent prostate cancer cells and inducing cell apoptosis via the regulation of a caspase-related mitochondrial pathway and Bcl-2 family proteins. This study suggests that HMGN5 may be a potential molecular target with therapeutic relevance for the treatment of prostate cancer.

Down-regulation of mi R-30a-3p/5p promotes esophageal squamous cell carcinoma cell proliferation by activating the Wnt signaling pathway

AIM To investigate the potential role of micro RNA-30 a(mi R-30 a) in esophageal squamous cell carcinoma(ESCC).METHODS Expression of mi R-30 a-3 p/5 p was analyzed using microarray data and fresh ESCC tissue samples. Both in vitro and in vivo assays were used to investigate the effects of mi R-30 a-3 p/5 p on ESCC cell proliferation. Furthermore,Kyoto Encyclopedia of Genes and Genomes analysis was performed to explore underlying mechanisms involved in ESCC,and then,assays were carried out to verify the potential molecular mechanism of mi R-30 a in ESCC.RESULTS Low expression of mi R-30 a-3 p/5 p was closely associated with advanced ESCC progression and poor prognosis of patients with ESCC. Knock-down of mi R-30 a-3 p/5 p promoted ESCC cell proliferation. Increased mi R-30 a-3 p/5 p expression inhibited the Wnt signaling pathway by targeting Wnt2 and Fzd2.CONCLUSION Down-regulation of mi R-30 a-3 p/5 p promotes ESCC cell proliferation by activating the Wnt signaling pathway through inhibition of Wnt2 and Fzd2.

Tauroursodeoxycholic acid(TUDCA)improves intestinal barrier function associated with TGR5-MLCK pathway and the alteration of serum metabolites and gut bacteria in weaned piglets

Background:Tauroursodeoxycholic acid(TUDCA),a hydrophilic bile acid,is the main medicinal component of bear bile and is commonly used to treat a variety of hepatobiliary diseases.Meanwhile,TUDCA has been shown to modulate the intestinal barrier function and alleviate DSS-induced colitis in mice.However,the effect of TUDCA on the intestinal barrier of weaned piglets remains largely unclear.Methods:The weaned piglets and porcine IPEC-J2 intestinal epithelial cells were used to investigate the effects of TUDCA on intestinal barrier function in weaned piglets and explore the possible underlying mechanisms.In vivo,72 healthy weaned piglets were randomly allocated into 2 groups according to their gender and body weight,and piglets were fed the basal diet with 0(control,CON)and 200 mg/kg TUDCA for 30 d,respectively.Three female and three male piglets reflecting the average bodyweight were slaughtered in each group and samples were collected.In vitro,IPEC-J2 cells were subjected to 100μmol/L TUDCA to explore the possible underlying mechanisms.Results:Our results demonstrated that dietary TUDCA supplementation significantly reduced the diarrhea incidence of weaned piglets,possibly attributing to the TUDCA-enhanced intestinal barrier function and immunity.In addition,TUDCA supplementation altered serum metabolites and the relative abundance of certain gut bacteria,which might contribute to the improved intestinal barrier function.Furthermore,the in-vitro results showed that TUDCA improved the E.coli-induced epithelial barrier impairment of IPEC-J2 cells and increased Takeda G-coupled protein receptor 5(TGR5)protein expression.However,knockdown of TGR5 and inhibition of myosin light chain kinase(MLCK)pathway abolished the TUDCA-improved epithelial barrier impairment in E.coli-treated IPEC-J2 cells,indicating the involvement of TGR5-MLCK in this process.Conclusions:These findings showed that TUDCA improved intestinal barrier function associated with TGR5-MLCK pathway and the alteration of serum metabolites and gut bacteria in weaned piglets,suggesting the potential application of TUDCA in improving gut health in piglet production.

Hepatitis C virus core protein-induced miR-93-5p upregulation inhibits interferon signaling pathway by targeting IFNAR1

AIM To investigate the mechanism by which hepatitis C virus(HCV) core protein-induced mi R-93-5 p up-regulation regulates the interferon(IFN) signaling pathway.METHODS HCV-1 b core protein was exogenously expressed in Huh7 cells using pc DNA3.1(+) vector. The expression of mi R-93-5 p and interferon receptor 1(IFNAR1) was measured using quantitative reverse transcriptionpolymerase chain reaction and Western blot. The protein expression and phosphorylation level of STAT1 were evaluated by Western blot. The overexpression and silencing of mi R-93-5 p and IFNAR1 were performed using mi R-93-5 p agomir and antagomir, and pc DNA3.1-IFNAR1 and IFNAR1 si RNA, respectively. Luciferase assay was used to identify whether IFNAR1 is a target of mi R-93-5 p. Cellular experiments were also conducted.RESULTS Serum mi R-93-5 p level was increased in patients with HCV-1 b infection and decreased to normal level after HCV-1 b clearance, but persistently increased in those with pegylated interferon-α resistance, compared with healthy subjects. Serum mi R-93-5 p expression had an AUC value of 0.8359 in distinguishing patients with pegylated interferon-α resistance from those with pegylated interferon-α sensitivity. HCV-1 b core protein increased mi R-93-5 p expression and induced inactivation of the IFN signaling pathway in Huh7 cells. Furthermore, IFNAR1 was identified as a direct target of mi R-93-5 p, and IFNAR1 restore could rescue mi R-93-5 p-reduced STAT1 phosphorylation, suggesting that the mi R-93-5 p-IFNAR1 axis regulates the IFN signaling pathway.CONCLUSION HCV-1 b core protein-induced mi R-93-5 p up-regulation inhibits the IFN signaling pathway by directly targeting IFNAR1, and the mi R-93-5 p-IFNAR1 axis regulates STAT1 phosphorylation. This axis may be a potential therapeutic target for HCV-1 b infection.

Tomato SlPti5 plays a regulative role in the plant immune response against Botrytis cinerea through modulation of ROS system and hormone pathways

While SlPti5 has been shown to play a crucial role in the regulation of antagonistic genes in Solanum lycopersicum and Arabidopsis against pathogen infection,there have been no comprehensive studies on the effects of SlPti5 on the regulatory response mechanism of reactive oxygen species(ROS) system and hormone pathways during growth and disease resistance of tomato plants.Here,we investigated the function of SlPti5 in the defense response of tomato against Botrytis cinerea utilizing a virus-induced gene silencing(VIGS)-based system.Expression profile analysis showed that SlPti5 was significantly induced upon B.cinerea infection,with high expression levels in the leaves and fruit of tomato.VIGS-based silencing of SlPti5 inhibited early vegetative growth,increased the plant’s susceptibility to infection,promoted the development of ROS,affected the expression of genes involved in the ROS scavenging system,and attenuated the expression of genes associated with pathogenesis and the ethylene/jasmonic acid signaling pathways.In sum,our data demonstrated that SlPti5 stimulates the immune response of tomato plant to Botrytis cinerea infection by involving the ethylene(ET)-and jasmonic acid(JA)-mediated pathways and modulating the expression of some key pathogenesis-related(PR) genes.

Phytochemical analysis of Berberis lyceum methanolic extract and its antiviral activity through the restoration of MAPK signaling pathway modulated by HCV NS5A

Objective:To evaluate the antiviral activity and phytochemicals of selected plant extracts and their effect on the mitogen-activated protein kinase(MAPK)signaling pathway modulated by hepatitis C virus(HCV)nonstructural protein 5 A(NS5A).Methods:A total of ten plant extracts were initially screened for their toxicities against Hep G2 cells.The non-toxic plants were tested for their inhibitory effect on the expression of HCV NS5A at both m RNA and protein levels using real-time PCR and Western blotting assays,respectively.The differential expression of the genes associated with MAPK pathway in the presence of NS5A gene and plant extract was measured through real-time PCR.Subsequently,the identification of secondary metabolites was carried out by phytochemical and HPLC analysis.Results:The phytochemical profiling of Berberis lyceum revealed the presence of alkaloids,phenols,saponins,tannins,flavonoids,carbohydrates,terpenoids,steroids,and glycosides.Similarly,quercetin,myricetin,gallic acid,caffeic acid,and ferulic acid were identified through HPLC analysis.The methanolic extract of Berberis lyceum strongly inhibited HCV RNA replication with an IC50 of 11.44μg/m L.RT-PCR and Western blotting assays showed that the extract reduced the expression of HCV NS5A in a dosedependent manner.Berberis lyceum extract also attenuated NS5A-induced dysregulation of the MAPK signaling pathway.Conclusions:Our findings suggest that Berberis lyceum extract strongly inhibits HCV propagation by reducing HCV NS5A-induced perturbation of MAPK signaling.

Facile synthesis of Bi_(12)O_(17)Br_2 and Bi_4O_5Br_2 nanosheets:In situ DRIFTS investigation of photocatalytic NO oxidation conversion pathway

Bi12O17Br2and Bi4O5Br2visible‐light driven photocatalysts,were respectively fabricated by hydrothermal and room‐temperature deposition methods with the use of BiBr3and NaOH as precursors.Both Bi12O17Br2and Bi4O5Br2were composed of irregular nanosheets.The Bi4O5Br2nanosheets exhibited high and stable visible‐light photocatalytic efficiency for ppb‐level NO removal.The performance of Bi4O5Br2was markedly higher than that of the Bi12O17Br2nanosheets.The hydroxyl radical(?OH)was determined to be the main reactive oxygen species for the photo‐degradation processes of both Bi12O17Br2and Bi4O5Br2.However,in situ diffuse reflectance infrared Fourier transform spectroscopy analysis revealed that Bi12O17Br2and Bi4O5Br2featured different conversion pathways for visible light driven photocatalytic NO oxidation.The excellent photocatalytic activity of Bi4O5Br2resulted from a high surface area and large pore volumes,which facilitated the transport of reactants and intermediate products,and provided more active sites for photochemical reaction.Furthermore,the Bi4O5Br2nanosheets produced more?OH and presented stronger valence band holeoxidation.In addition,the oxygen atoms of NO could insert into oxygen‐vacancies of Bi4O5Br2,whichprovided more active sites for the reaction.This work gives insight into the photocatalytic pollutant‐degradation mechanism of bismuth oxyhalide.

The soybean GmPUB21-interacting protein GmDi19-5 responds to drought and salinity stresses via an ABA-dependent pathway

Drought-induced protein 19(Di19) is a Cys2/His2 zinc-finger protein that functions in plant growth and development and in tolerance to abiotic stresses.Gm PUB21,an E3 ubiquitin ligase,negatively regulates drought and salinity response in soybean.We identified potential interaction target proteins of Gm PUB21by yeast two-hybrid c DNA library screening,Gm Di19-5 as a candidate.Bimolecular fluorescence complementation and glutathionine-S-transferase pull-down assays confirmed the interaction between Gm Di19-5 and Gm PUB21.Gm Di19-5 was induced by Na Cl,drought,and abscisic acid(ABA) treatments.Gm Di19-5 was expressed in the cytoplasm and nucleus.Gm Di19-5 overexpression conferred hypersensitivity to drought and high salinity,whereas Gm Di19-5 silencing increased drought and salinity tolerance.Transcripts of ABA-and stress response-associated genes including Gm RAB18 and Gm DREB2A were downregulated in Gm Di19-5-overexpressing plants under drought and salinity stresses.ABA decreased the protein level of Gm Di19-5 in vivo,whereas Gm PUB21 increased the decrease of Gm Di19-5 after exogenous ABA application.The accumulation of Gm PUB21 was also inhibited by Gm Di19-5.We conclude that Gm PUB21 and Gm Di19-5 collaborate to regulate drought and salinity tolerance via an ABA-dependent pathway.

Artemisinin protected human SY5Y and hippocampal neurons from H2O2-induced oxidative damage through activation of AMPK pathway

Oxidative stress is one of the main causes of neurodegenerative diseases such as Alzheimer disease(AD).Our previous studies have shown that artemisinin,a anti-malaria Chinese medicine,with neuroprotective effect,however,the antioxidative effect of artemisinin and its potential mechanism remain to be elucidated.In the present study,the protective effect and the underlying mechanism of artemisinin against injury of hydrogen peroxide(H_2O_2) in SH-SY5Y and hippocampal neurons were studied.Our results show that artemisinin protected SH-SY5Y and hippocampal neuronal cells from H_2O_2-induced cell death at clinically relevant concentrations in a concentration-dependent manner.Further studies showed that artemisinin significantly reduced cell death caused by H_2O_2 by restoring nuclear morphology,abnormal changes in intracellular ROS,activation of caspase 3,lactate dehydrogenase release and mitochondrial membrane potential.Hoechst staining and flow cytometry showed that artemisinin significantly reduced the apoptosis of SH-SY5Y cells exposed to H_2O_2.Western blotting analysis showed that artemisinin stimulated the phosphorylation and activation of AMP-activated protein kinase(AMPK) in SH-SY5Y cells in a time and concentration-dependent manner,whereas the application of AMPK inhibitor Compound C or decrease in expression of AMPKα with shRNA specific for AMPKα blocked the protective effect of artemisinin.Similar results were obtained in primary cultured hippocampal neurons.Taken together,these results indicate that artemisinin can protect neuronal cells from oxidative damage,at least in part through the activation of AMPK.Because artemisinin is relatively inexpensive and has few side effects,our findings support the role of artemisinin as a potential therapeutic agent for neurodegenerative diseases.

Chaihu Longgu Muli Decoction relieving temporal lobe epilepsy in rats by inhibiting TLR4 signaling pathway through miR-146a-3p and miR-146a-5p

Objective To explore the effect and mechanism of Chaihu Longgu Muli Decoction(柴胡龙骨牡蛎汤,CHLGMLD)in rats with temporal lobe epilepsy(TLE).Methods A total of 80 Sprague-Dawley(SD)male rats were randomized into control(CON),model(MOD),carbamazepine(CBZ,0.1 g/kg),CHLGMLD low dose(CHLGMLD-L,12.5 g/kg),and high dose(CHLGMLD-H,25 g/kg)groups,with 16 rats in each group.TLE rat models were established in the four groups with the use of lithium-pilocarpine except for the CON group.After the successful establishment of TLE models,all drugs were administered through gavage,and distilled water was given to rats in the CON and MOD groups for four weeks.The frequency and duration of seizures before and after treatment were recorded for the evaluation of the alleviation degree.Quantitative real-time polymerase chain reaction(qRT-PCR)was used to detect the expression levels of miR-146a-3p and miR-146a-5p.The expression levels of toll-like receptor 4(TLR4),interleukin-1 receptor-associated kinase 1(IRAK1),tumor necrosis factor(TNF)receptor-associated factor 6(TRAF6),TAK1-binding protein(TAB),nuclear factor-kappa B(NF-κB),and interleukin-1 beta(IL-1β)in hippocampus were tested by immunofluorescence assay.Correlation analysis between the above factors and expressions of miR-146a-3p and miR-146a-5p were performed separately.Results CHLGMLD decreased the frequency(P<0.05)and duration(P<0.01)of seizures in rats.CHLGMLD down-regulated the expression levels of miR-146a-5p and miR-146a-3p(P<0.05),and inhibited the expression levels of TLR4,IRAK1,TRAF6,TAB,NF-κB,and IL-1β(P<0.01).The correlation analysis revealed that the expression levels of TLR4,IRAK1,TRAF6,TAB,NF-κB,and IL-1β were positively correlated with the expression levels of miR-146a-3p and miR-146a-5p detected by qRT-PCR,respectively(P<0.01).Conclusion CHLGMLD can inhibite the TLR4 signaling pathway by lowering the expression levels of miR-146a-3p and miR-146a-5p to alleviate hippocampal dentate gyrus inflammation in TLE rats,thus relieving seizures.

Selenium nanoparticles reduce oxidative stress-induced cardiomyocyte apoptosis in ascites syndrome in broiler chickens via the ATF6-DR5 signaling pathway

Broiler ascites syndrome(AS)is one of the main diseases threatening the health of broilers.It is well documented that myocardial hypertrophy and failure is one of the key mechanisms of broiler ascites syndrome.Therefore,prevention of cardiac hypertrophy and failure would be one goal to reduce broiler ascites syndrome incidence.Myocardial hyper-trophy and failure are closely related to endoplasmic reticulum stress(ERS)in cardiac myocytes,and the endoplasmic reticulum stress signaling system(ATF6-DR5)is one of the important pathways of myocardial apoptosis.Excessive hyper-trophy will affect the heart muscle's normal contraction and diastole function,and the heart will turn from compen-sated to decompensate thus causing myocardial injury.Myocardial apoptosis is a core component of the pathological changes of this myocardial injury.Nano-selenium is a kind of red elemental selenium nanoparticle.Due to its excellent physical,chemical and biological properties,it has attracted extensive academic attention in recent years.It has been proven to have excellent antioxidant,antibacterial,antitumor,antihypertrophic,and antiapoptotic abilties.Herein,nano-selenium(1μmol/L)can inhibit hydrogen peroxide(H_(2)O_(2))-induced oxidative stress in broiler primary cardiomyocytes,and at the same time reduce cardiomyocyte apoptosis.In vivo,nano-selenium can reduce broiler myocardial injury-related enzyme indicators(AST,CK and LDH),and alleviate myocardial injury.It can also activate the antioxidant enzyme system(SOD,GSH-Px and CAT)and reduce MDA,and make the recovery ofT-AOC ability in the organization.Meanwhile,nano-selenium can down-regulate the genes and proteins expression of ATF-6,GRP-78,CHOP and caspase 12 in the ERS-related signaling pathway,and inhibit that of downstream-related caspase 3,Bax and caspase 9,and increase that of the downstream anti-apoptotic Bcl-2,thereby maintaining the homeostasis of the endoplasmic reticulum and alleviating cardiomyocyte apoptosis.It can be seen that nano-selenium can protect the damaged myocardium in the broiler ascites caused by high-salt drinking by regulating the ATF6-DR5 signaling pathway.This study was performed in chickens and cardiomyocyte cells and attempted to demonstrate that selenium nanoparticles can protect the damaged myocar-dium in broiler ascites.This paper provides a new idea for preventing and treating broiler ascites syndrome.

SPOC domain of mint protein induces hematopoietic differentiation via Bmp4/Smad5 pathway

Mint is a newly identified molecule that mediates signal transduction and modulates chromatin repression. Mint family members contain a highly conserved C-terminus SPOC domain (SpenParalog and OrthologsC-terminal domain) commonly associated with proliferation and related diseases (for example: cancer) due to its role in cell differentiation and apoptosis. In this study, we addressed the SPOC function using a tetracycline-inducible system to express the target domain in Ain V15 embryonic ES cells and bone marrow stem cells from SPOC transenic mice. In vitro differentiation of Ain V15 ES cells as a model of early hematopoietic development, we found expression of SPOC domain induces hematopoietic differentiation via up-regulation of transcription factors Bmp4 and Smad5, which induce the expression of hematopoietic factors Eklf1 and hematopoietic proliferation associated factor Gata2, the SPOC domain also plays the regulation function in the differentiation of hematopoitic progenitor by colony forming Unit (CFU) assays. Further, we determined SPOC expression enhances erythrocyte and granulocyte maturationusing bone marrow cells derived from tiSPOC chimeric mice. Finally, we identified that overexpression of full length Mint in ES cells drive Smad5 and Bmp4 up-regulation under culture conditions, and up-regulation of endogenous Mint when induceshematopoitic differentiation of EML, M1 and WT18 cells. In summary, our study reveals the conserved SPOC domain of Mint protein induces differentiation both in the stages of embryonic stem cells and hematopoietic progenitor cells.

Correlation analysis of changes in miR145‑5p/Smads pathway and macrophage polarization in adjuvant arthritis rats

Objective:To explore the relationship between the changes of miR145‑5p/Smads pathway and macrophage polarization in adjuvant arthritis rats.Methods:Twelve rats were divided into normal group and model group induced by freund's complete adjuvant(0.1 mL/mouse)by random number table method,with 6 rats in each group.The expression of inflammatory polarization markers IL‑8 and CD206 in synovial tissue was detected by enzyme‑linked immunosorbent assay on the 12th day after the formation of arthritis in rats.Western blotting was used to detect the expression of TGF‑β1/Smads pathway factors in synovial tissues.The expression of miR145‑5P,Smads3 and Smads7 in synovial tissue was detected by RT‑qPCR.Results:Compared with normal group,the expression levels of IL‑8,TGF‑β1 and Smad3 in model group were significantly increased(P<0.05);The expression levels of CD206,Smad7 and miR145‑5P were significantly decreased(P<0.01).The correlation results showed that IL‑8 was positively correlated with Smad3(P<0.01),IL‑8 was negatively correlated with Smad7(P<0.05),CD206 was negatively correlated with Smad3(P<0.01)and positively correlated with Smad7(P<0.05).miR145‑5p was negatively correlated with Smad3(P<0.01)and positively correlated with Smad7(P<0.01).Conclusion:miR145‑5p may inhibit the overactivation of TGF‑β1/Smads pathway,regulate macrophage polarization,and inhibit the development of adjuvant arthritis by inhibiting Smad3 expression.

miR-146a-5p affects inflammation response of trophoblast by inhibiting TRAF6/NF-кB signaling pathway

Objective:To investigate the association of Micro-rna(miR)-146a-5p expression with preeclampsia,and further explore the potential mechanism involved.Methods:Compared with the blank control group,the expressions of miR-146a-5p and TRAF6 were detected in lipopolysaccharide(LPS)-induced JEG-3 cells.Chorionic carcinoma cell JEG-3 in vitro culture are divided into control,miR-146a-5p mimic+lipopolysaccharide(lps),miR-146a-5p mimic and miR-146a-5p inhibitor groups.qRT-PCR analysis were used to detect the mRNA of miR-146a-5p,IL-1β,IL-6,IL-8 and TNF-α.Western blot assays were carried out to determine the protein expression of TRAF6/NF-кB pathway related proteins.Results:1.miR-146a expression in miR-146a mimic group were significantly higher than the other three groups(P<0.05).2.Compared with the control group,the expression level of miR-146a-5p in JEG-3 cells induced by LPS was significantly increased,and the expression level of TRAF6 was significantly reduced(P<0.05).3.Compared with the control group,the mRNA expression levels of IL-1β,IL-6,IL-8,and TNF-αdecreased significantly after using miR-146a mimic(P<0.05).After adding miR-146a inhibitor,the mRNA expression levels of IL-1β,IL-6,IL-8,and TNF-αwere significantly increased(P<0.05).However,compared with the mimic+LPS group,the difference was not statistically significant(all P>0.05).The results of Western Blot showed that the expression of TRAF6 and NF-κB protein in JEG-3 cells decreased significantly after adding miR-146a mimic and increased after adding miR-146a inhibitor.Conclusion:MiR-146-5p can affect the inflammation response of Maternal-fetal interface by inhibiting TRAF6/NF-кB signaling pathway in preeclampsia.

The Antidepressant Mechanism of JiaWeiWenDan Decoction Regulating p38MAPK-ERK5 Signal Transduction Pathway

Objective: To investigate the anti-depression mechanism of JiaWeiWenDan Decoction in regulating p38MAPK-ERK5 signal transduction pathway. Methods: Depression model rats were randomly divided into Blank Control Group, Model Control Group, Chinese Medicine Treatment Group, and Western Medicine Treatment Group (hereinafter referred to as Blank Group, Model Group, Chinese Medicine Group, and Western Medicine Group), with 48 rats in each group. The mice were treated with p38MAPK-ERK5 on the 7th day, 14th day and 21st day, respectively, and the mice were treated for 28 days. The key targets and cytokines in p38MAPK-ERK5 signal transduction pathway were detected. Results: Compared with the Blank Group, the expression of p38MAPKmRNA in the hippocampus of the Model Group was increased. The Chinese Medicine Group and Western Medicine Group could reduce the expression of p38MAPK mRNA (P P P P Conclusion: The anti-inflammatory effect of JiaWeiWenDan Decoction may be related to the regulation of p38MAPK-ERK5 signaling pathway. With the advance of the treatment week, the best effect was obtained when the treatment was started on the 7th day of modeling.

Experimental study of TGF-β1/Smads pathway inhibition of macrophage polarization based on miR145-5P negative feedback regulation

imbalance of synovial macrophages in patients with rheumatoid arthritis(RA).Methods:Human mononuclear cells(THP‑1)at logarithmic growth stage were induced into M1‑type macrophages,and RA synovial fibroblasts M1‑type macrophages were co‑cultured into synovial macrophages.Synovial macrophages were divided into four groups:RA group(blank group),TGF‑β1 group(model group)and miR145‑5P overexpression group(TGF‑β1+miR145‑5P mimics group)and miR145‑5P overexpression negative control group(TGF‑β1+miR145‑5P‑mimics‑NC group).The blank group did not receive any treatment,and the other three groups were induced by TGF‑β1 in the medium for 48 h.Transfection miR145‑5p mimic and miR145‑5P‑mimics‑NC were added to co‑culture medium,and IL‑6,IL‑6 and IL‑6 of synovial macrophages were detected by ELISA.CD163 expression.Rt‑qpcr was used to detect miR145‑5p mRNA,TGF‑β1mRNA,Smad3mRNA,Smad7mRNA expression level.The expression of TGF‑β1/Smads pathway related proteins was detected by Western Blotting.Results:Compared with blank group,IL‑6 level was up‑regulated(P<0.01),and CD163 level was down‑regulated in model group(P<0.05),suggesting that TGF‑β1 could induce intensified immune inflammatory response.Compared with the negative miR145‑5P overexpression control group and model group,The expression of miR145‑5P overexpression group molecule CD163 was significantly increased by ELISA(P<0.01),and the expression of inflammatory factor IL‑6 was decreased(P<0.05).PCR showed that miR145‑5P mRNA expression level was significantly increased in miR145‑5P overexpression group,Smad3 mRNA and TGF‑β1 mRNA were significantly decreased,and Smad7 mRNA was significantly increased(P<0.01).WB method showed that the anti‑inflammatory protein Smad7 was significantly increased,while TGF‑β1 and Smad3 were significantly decreased(P<0.01).Transwell chamber results confirmed that miR145‑5P overexpression group significantly reduced macrophage invasion(P<0.01).Correlation analysis showed that miR145‑5P was negatively correlated with Smad3 and positively correlated with Smad7(P<0.01).Conclusion:miR145‑5P may inhibit macrophage polarization in RA patients by targeting Smad3 protein,negatively regulating TGF‑β1/Smads pathway,and alleviating immune inflammation.