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.

Calcitriol attenuates liver fibrosis through hepatitis C virus nonstructural protein 3-transactivated protein 1-mediated TGF β1/Smad3 and NF-κB signaling pathways

BACKGROUND Hepatic fibrosis is a serious condition,and the development of hepatic fibrosis can lead to a series of complications.However,the pathogenesis of hepatic fibrosis remains unclear,and effective therapy options are still lacking.Our group identified hepatitis C virus nonstructural protein 3-transactivated protein 1(NS3TP1) by suppressive subtractive hybridization and bioinformatics analysis,but its role in diseases including hepatic fibrosis remains undefined.Therefore,additional studies on the function of NS3TP1 in hepatic fibrosis are urgently needed to provide new targets for treatment.AIM To elucidate the mechanism of NS3TP1 in hepatic fibrosis and the regulatory effects of calcitriol on NS3TP1.METHODS Twenty-four male C57BL/6 mice were randomized and separated into three groups,comprising the normal,fibrosis,and calcitriol treatment groups,and liver fibrosis was modeled by carbon tetrachloride(CCl4).To evaluate the level of hepatic fibrosis in every group,serological and pathological examinations of the liver were conducted.TGF-β1 was administered to boost the in vitro cultivation of LX-2 cells.NS3TP1,α-smooth muscle actin(α-SMA),collagen I,and collagen Ⅲ in every group were examined using a Western blot and real-time quantitative polymerase chain reaction.The activity of the transforming growth factor beta 1(TGFβ1)/Smad3 and NF-κB signaling pathways in each group of cells transfected with pcDNA-NS3TP1 or siRNA-NS3TP1 was detected.The statistical analysis of the data was performed using the Student’s t test.RESULTS NS3TP1 promoted the activation,proliferation,and differentiation of hepatic stellate cells(HSCs)and enhanced hepatic fibrosis via the TGFβ1/Smad3 and NF-κB signaling pathways,as evidenced by the presence of α-SMA,collagen I,collagen Ⅲ,p-smad3,and p-p65 in LX-2 cells,which were upregulated after NS3TP1 overexpression and downregulated after NS3TP1 interference.The proliferation of HSCs was lowered after NS3TP1 interference and elevated after NS3TP1 overexpression,as shown by the luciferase assay.NS3TP1 inhibited the apoptosis of HSCs.Moreover,both Smad3 and p65 could bind to NS3TP1,and p65 increased the promoter activity of NS3TP1,while NS3TP1 increased the promoter activity of TGFβ1 receptor I,as indicated by coimmunoprecipitation and luciferase assay results.Both in vivo and in vitro,treatment with calcitriol dramatically reduced the expression of NS3TP1.Calcitriol therapy-controlled HSCs activation,proliferation,and differentiation and substantially suppressed CCl4-induced hepatic fibrosis in mice.Furthermore,calcitriol modulated the activities of the above signaling pathways via downregulation of NS3TP1.CONCLUSION Our results suggest that calcitriol may be employed as an adjuvant therapy for hepatic fibrosis and that NS3TP1 is a unique,prospective therapeutic target in hepatic fibrosis.

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.

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.

5-氨基酮戊酸光动力疗法对增生性瘢痕成纤维细胞TGF-β_(1)/Smads信号通路的影响

目的:探究5-氨基酮戊酸光动力疗法(5-ALA-PDT)对增生性瘢痕成纤维细胞转化生长因子-β1(TGF-β1)/Smads信号通路的影响。方法:选取2020年1月至2022年8月收治的增生性瘢痕患者66例进行研究,将其均分为两组,其中对照组给予单纯激光治疗,研究组给予5-ALA-PDT治疗,同时对两组均进行瘢痕组织成纤维细胞培养。比较治疗后两组瘢痕组织成纤维细胞的增殖情况,同时观察不同浓度5-氨基酮戊酸(5-ALA)对瘢痕组织成纤维细胞前胶原mRNA表达的影响,并总结5-ALA对MAPK信号通路中ERK、JNK和P38的影响。结果:(1)研究组不同浓度5-ALA下成纤维细胞的增殖能力均低于对照组,差异有统计学意义(P<0.05)(2)研究组不同浓度5-ALA对成纤维细胞前胶原(包括Ⅰ前胶原/β-actin、Ⅲ前胶原/β-actin)mRNA表达的影响不同,且均低于对照组(P<0.05)。(3)通过体外细胞培养,给予不同浓度5-ALA测定发现,0.5 mmol/L、1.0 mmol/L浓度的5-ALA对TGF-β_(1)的分泌起到了抑制作用,对基质金属蛋白酶1(MMP-1)的分泌起到了诱导作用。(4)研究组中,观察到MAPK家族的信号在0.5 mmo/L时明显增强,与对照组相比,ERK(44 ku)、P38(38 ku)和JNK(46 ku)分别增加了113.0%、36.0%和67.0%(P<0.05)。结论:采用5-ALA-PDT治疗增生性瘢痕可取得一定的成效。5-ALA-PDT可通过抑制Ⅰ型和Ⅲ型前胶原蛋白基因的合成来抑制增生性瘢痕中成纤维细胞的增殖,并对TGF-β_(1)起到抑制作用,对MMP-1起到诱导作用,同时观察到MAPK信号通路在浓度为0.5 mmo/L的5-ALA下增强,该浓度可作为5-ALA-PDT治疗增生性瘢痕的参考浓度。

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.

Angelica sinensis polysaccharides ameliorate 5-flourouracil-induced bone marrow stromal cell proliferation inhibition via regulating Wnt/β-catenin signaling

Chemotherapy may cause cellular oxidative stress to bone marrow.Oxidative damage of bone marrow hematopoietic microenvironment is closely related to chronic myelosuppression after chemotherapeutic treatment.Angelica sinensis polysaccharides(ASP)are major effective ingredients of traditional Chinese medicine Angelica with multi-target anti-oxidative stress features.In the current study,we investigated the protective roles and mechanisms of ASP on chemotherapy-induced bone marrow stromal cell(BMSC)damage.The human bone marrow stromal cell line HS-5 cells were divided into control group,5-FU group,5-FU+ASP group,and 5-FU+LiCl group to investigate the mechanism of ASP to alleviate 5-FU-induced BMSC proliferation inhibition.The results showed that 5-FU inhibits the growth of HS-5 cells in a time and dose-dependent manner;however,ASP partially counteracted the 5-FU-induced decrease in cell viability,whereas Wnt signaling inhibitor Dkk1 antagonized the effect of ASP on HS-5 cells.ASP reversed the decrease in total cytoplasmicβ-catenin,p-GSK-3β,and CyclinD1 following 5-FU treatment and modulated nuclear expression ofβ-catenin,Lef-1,and C-myc proteins.Furthermore,ASP also enhanced the antioxidant capacity of cells and reduced 5-FU-induced oxidative stress,attenuated FoxO1 expression,thus weakened its downstream apoptosis-related proteins and G0/G1 checkpoint-associated p27^(Kip1) expression to alleviate 5-FU-induced apoptosis and to promote cell cycle progression.All the results above suggest that the protective role of ASP in 5-FU-treated BMSCs proliferation for the chemotherapy may be related to its activating Wnt/β-catenin signaling and keeping homeostasis betweenβ-catenin and FoxO1 under oxidative stress.The study provides a potential therapeutic strategy for alleviating chemotherapeutic damage on BMSCs.

Taurolidine improved protection against highly pathogenetic avian influenza H5N1 virus lethal-infection in mouse model by regulating the NF-κB signaling pathway

Taurolidine(TRD),a derivative of taurine,has anti-bacterial and anti-tumor effects by chemically reacting with cell-walls,endotoxins and exotoxins to inhibit the adhesion of microorganisms.However,its application in antiviral therapy is seldom reported.Here,we reported that TRD significantly inhibited the replication of influenza virus H5N1 in MDCK cells with the half-maximal inhibitory concentration(EC_(50))of 34.45μg/mL.Furthermore,the drug inhibited the amplification of the cytokine storm effect and improved the survival rate of mice lethal challenged with H5N1(protection rate was 86%).Moreover,TRD attenuated virus-induced lung damage and reduced virus titers in mice lungs.Administration of TRD reduced the number of neutrophils and increased the number of lymphocytes in the blood of H5N1 virus-infected mice.Importantly,the drug regulated the NF-κB signaling pathway by inhibiting the separation of NF-κB and IκBa,thereby reducing the expression of inflammatory factors.In conclusion,our findings suggested that TRD could act as a potential anti-influenza drug candidate in further clinical studies.

SIRT6对椎间盘退变的作用及机制

目的:探讨Sirtuin(SIRT)6对椎间盘退变的作用及机制。方法:32只C57BL/6小鼠随机分为假手术组、模型组、SIRT6激动剂组、SIRT6抑制剂组,每组8只。造模小鼠采用穿刺法构建Co5/6椎间盘退变模型,造模成功后,SIRT6激动剂组和SIRT6抑制剂组分别腹腔注射SIRT6激动剂(20mg/kg)和SIRT6抑制剂(20mg/kg),假手术组、模型组均腹腔注射等量生理盐水,连续7d。干预结束后,对小鼠进行影像学观察,并采集椎间盘组织,采用免疫组化检测椎间盘组织SIRT6阳性百分比;苏木精-伊红(hematoxylin eosin,HE)染色、Masson染色及甲苯胺蓝染色观察椎间盘组织病理学改变;生化检测椎间盘组织丙二醛(MDA)、谷胱甘肽过氧化物酶(GSH-Px)、超氧化物歧化酶(SOD)及活性氧(ROS)含量;实时荧光定量逆转录聚合酶链式反应(quantitative real-time polymerase chain reaction,qRT-PCR)检测椎间盘组织SIRT6、转化生长因子(transforming growth factor-β,TGF-β)1、smad1、smad5 mRNA表达;Western blot检测椎间盘组织骨胶原(collagen)Ⅱ、collagen X、TGF-β1、smad1、smad5、p-smad1、p-smad5蛋白表达。结果:影像学观察发现假手术组尾椎排列有序,无骨赘形成;模型组出现骨赘形成,相较于模型组,SIRT6激动剂组骨赘形成受到明显抑制,而SIRT6抑制剂组骨赘形成更明显。与假手术组相比,模型组小鼠椎间盘组织SIRT6表达及GSH-Px、SOD含量明显降低,而MDA、ROS含量及collagenⅡ、collagen X、TGF-β1、smad1、smad5、p-smad1、p-smad5表达明显升高(P<0.01);模型组椎间盘组织软骨终板局部软骨减少,胶原纤维紊乱、致密,形态模糊;与模型组相比,SIRT6激动剂组椎间盘组织SIRT6表达及GSH-Px、SOD含量明显升高,MDA、ROS含量及collagenⅡ、collagen X、TGF-β1、smad1、smad5、p-smad1、p-smad5表达明显降低(P<0.05);SIRT6抑制剂组则呈现与激动剂组相反的结果。结论:SIRT6过表达可有效调节氧化应激,抑制TGFβ-smad1/5信号通路,进而助于减缓椎间盘退变。

Long noncoding RNA 1392 regulates MDA5 by interaction with ELAVL1 to inhibit coxsackievirus B5 infection

Long noncoding RNAs(lncRNAs)modulate many aspects of biological and pathological processes.Recent studies have shown that host lncRNAs participate in the antiviral immune response,but functional lncRNAs in coxsackievirus B5(CVB5)infection remain unknown.Here,we identified a novel cytoplasmic lncRNA,LINC1392,which was highly inducible in CVB5 infected RD cells in a time-and dose-dependent manner,and also can be induced by the viral RNA and IFN-β.Further investigation showed that LINC1392 promoted several important interferon-stimulated genes(ISGs)expression,including IFIT1,IFIT2,and IFITM3 by activating MDA5,thereby inhibiting the replication of CVB5 in vitro.Mechanistically,LINC1392 bound to ELAV like RNA binding protein 1(ELAVL1)and blocked ELAVL1 interaction with MDA5.Functional study revealed that the 245–835 nt locus of LINC1392 exerted the antiviral effect and was also an important site for ELAVL1 binding.In mice,LINC1392 could inhibit CVB5 replication and alleviated the histopathological lesions of intestinal and brain tissues induced by viral infection.Our findings collectively reveal that the novel LINC1392 acts as a positive regulator in the IFN-I signaling pathway against CVB5 infection.Elucidating the underlying mechanisms on how lncRNA regulats the host innate immunity response towards CVB5 infection will lay the foundation for antiviral drug research.

Splicing factor SF3B3,a NS5-binding protein,restricts ZIKV infection by targeting GCH1

Zika virus(ZIKV),a positive-sense single-stranded RNA virus,causes congenital ZIKV syndrome in children and Guillain-Barre Syndrome(GBS)in adults.ZIKV expresses nonstructural protein 5(NS5),a large protein that is essential for viral replication.ZIKV NS5 confers the ability to evade interferon(IFN)signalling;however,the exact mechanism remains unclear.In this study,we employed affinity pull-down and liquid chromatography-tandem mass spectrometry(LC-MS/MS)analyses and found that splicing factor 3b subunit 3(SF3B3)is associated with the NS5-Flag pull-down complex through interaction with NS5.Functional assays showed that SF3B3 overexpression inhibited ZIKV replication by promoting IFN-stimulated gene(ISG)expression whereas silencing of SF3B3 inhibited expression of ISGs to promote ZIKV replication.GTP cyclohydrolase I(GCH1)is the first and ratelimiting enzyme in tetrahydrobiopterin(BH4)biosynthesis.NS5 upregulates the expression of GCH1 during ZIKV infection.And GCH1 marginally promoted ZIKV replication via the IFN pathway.Additionally,GCH1 expression is related to the regulation of SF3B3.Overexpression of the SF3B3 protein effectively reduced GCH1 protein levels,whereas SF3B3 knockdown increased its levels.These findings indicated that ZIKV NS5 binding protein SF3B3 contributed to the host immune response against ZIKV replication by modulating the expression of GCH1.

BmSLC7A5 is essential for silk protein synthesis and larval development in Bombyx mori

Insects produce silk to form cocoons,nests,and webs,which are important for their survival and reproduction.However,little is known about the molecular mecha-nism of silk protein synthesis at the translation level.The solute carrier family 7(SLC7)genes are involved in activating the target of rapamycin complex 1(TORC1)signaling pathway and protein translation process,but the physiological roles of SLC7 genes in silk-producing insects have not been reported.Here,we found that amino acid signaling regulates silk protein synthesis and larval development via the L-type amino acid trans-porter 1(LAT1;also known as SLC7A5)in Bombyx mori.A total of 12 SLC7 homologs were identified in the silkworm genome,among which BmSLC7A5 was found to be a silk gland-enriched gene and may be involved in leucine transport.Bioinformatics analy-sis indicated that SLC7A5 displays high homology and a close phylogenetic relationship in silk-producing insects.Subsequently,we found that leucine treatment significantly in-creased silk protein synthesis by improving the transcription and protein levels of silk genes.Furthermore,systemic and silk gland-specific knockout of BmSLC7A5 led to de-creased silk protein synthesis by inhibiting TORC1 signaling,and somatic mutation also resulted in arrested development from the 5th instar to the early pupal stage.Altogether,our study reveals that BmSLC7A5 is involved in regulating silk protein synthesis and larval development by affecting the TORC1 signaling pathway,which provides a new strategy and target for improving silk yield.

Single-nucleotide polymorphism screening and RNA sequencing of key messenger RNAs associated with neonatal hypoxic-ischemia brain damage

A single-nucleotide polymorphism(SNP)is an alteration in one nucleotide in a certain position within a genome.SNPs are associated with disease susceptibility.However,the influences of SNPs on the pathogenesis of neonatal hypoxic-ischemic brain damage remain elusive.Seven-day-old rats were used to establish a hypoxic ischemic encephalopathy model.SNPs and expression profiles of mRNAs were analyzed in hypoxic ischemic encephalopathy model rats using RNA sequencing.Genes exhibiting SNPs associated with hypoxic ischemic encephalopathy were identified and studied by gene ontology and pathway analysis to identify their possible involvement in the disease mechanism.We identified 89 up-regulated genes containing SNPs that were mainly located on chromosome 1 and 2.Gene ontology analysis indicated that the up-regulated genes containing SNPs are mainly involved in angiogenesis,wound healing and glutamatergic synapse and biological processing of calcium-activated chloride channels.Signaling pathway analysis indicated that the differentially expressed genes play a role in glutamatergic synapses,long-term depression and oxytocin signaling.Moreover,intersection analysis of high throughput screening following PubMed retrieval and RNA sequencing for SNPs showed that CSRNP1,DUSP5 and LRRC25 were most relevant to hypoxic ischemic encephalopathy.Significant up-regulation of genes was confirmed by quantitative real-time polymerase chain reaction analysis of oxygen-glucose-deprived human fetal cortical neurons.Our results indicate that CSRNP1,DUSP5 and LRRC25,containing SNPs,may be involved in the pathogenesis of hypoxic ischemic encephalopathy.These findings indicate a novel direction for further hypoxic ischemic encephalopathy research.This animal study was approved on February 5,2017 by the Animal Care and Use Committee of Kunming Medical University,Yunnan Province,China(approval No.kmmu2019038).Cerebral tissue collection from a human fetus was approved on September 30,2015 by the Ethics Committee of Kunming Medical University,China(approval No.2015-9).

Effects of (–)-5-hydroxy-equol on the lifespan and stress resistance of Caenorhabditis elegans

Caenorhabditis elegans （C. elegans） was used as an animal model to study the effect of （-）-5-hydroxy-equol, a microbialmetabolite of isoflavone genistein, on the lifespan, fecundity and resistance against thermal and oxidative stress. The resultsshowed that （-）-5-hydroxy-equol not only significantly increased the lifespan of C. elegans but also significantly enhancedthe resistance against thermal and oxidative stress at the concentrations of 0.1 mmol/L and 0.2 mmol/L. However, the fecundityof C. elegans was not obviously influenced after being exposed to the same concentrations of （-）-5-hydroxy-equol. Further studieson comparative transcriptome analyses and the lifespan ofdaf-16 （mu86） mutant and daf-2 （e1370） mutant indicated that（-）-5-hydroxy-equol prolonged the lifespan of C. elegans through DAF-2/DAF-16 Insulin/IGF-1 signaling pathway. This isthe first report that （-）-5-hydroxy-equol was able to increase the lifespan and improve the thermal and oxidative stress toleranceof C. elegans.

左归丸治疗骨质疏松症相关机制

左归丸是中医经典方剂之一，为“阳中求阴”的代表方，具有滋肾补阴的功效和纯补无泻的特点。骨质疏松症是一种以骨量低，骨组织结构破坏，导致骨脆性增加，骨强度下降及骨折风险增加，易发生骨折为特征的全身性骨病，它已成为威胁人类健康的常见疾病之一。中医学有“肾藏精，主骨生髓”的理论，左归丸在治疗骨质疏松症方面有着较好的临床疗效，同时也具有较少的副作用。近年来，针对左归丸治疗骨质疏松症的实验研究数量与日俱增，相关分子以及信号通路的机制研究亦取得一定拓展，特别是左归丸治疗骨质疏松症的相关机制研究陆续涌现。本研究通过整理左归丸治疗骨质疏松症的文献，对其作用机制及信号通路，包括环腺苷酸（cAMP）／蛋白激酶（PKA）／cAMP应答元件结合蛋白（CREB）通路，Notch信号通路，转化生长因子巾，（TGF-卢，）／Smad信号通路，Wnt／卢一链蛋白（卢一catenin）信号通路和丝裂原活化蛋白激酶（MAPK）信号通路等方面做一综述。这些研究表明左归丸治疗骨质疏松症具有多靶点、多途径的干预特点。虽然左归丸治疗骨质疏松症的疗效明确，且对于一些基本的机制研究亦取得一定进展，但仍存在一定的局限性，尚需结合现代最新研究方法和技术对其机制进行更全面更深入的探索。