SRC-3 Deficiency Exacerbates Neurological Deficits in a Mouse Model of Intracerebral Hemorrhage: Role of Oxidative Stress

Intracerebral hemorrhage (ICH) causes long term neurological abnormality or death. Oxidative stress is closely involved in ICH mediated brain damage. Steroid receptor cofactor 3 (SRC-3), a p160 family member, is widely expressed in the brain and regulates transactivation of Nrf2, a key component of antioxidant response. Our study aims to test if SRC-3 is implicated in ICH mediated brain injury. We first examined levels of SRC-3 and oxidative stress in the brain of mice following ICH and analyzed their correlation. Then ICH was induced in wild type (WT) and SRC-3 knock out mice and how SRC-3 deletion affected ICH induced brain damage, oxidative stress and behavioral outcome was assessed. We found that SRC-3 mRNA and protein expression levels were reduced gradually after ICH induction in WT mice along with an increase in oxidative stress levels. Correlation analysis revealed that SRC-3 mRNA levels negatively correlated with oxidative stress. Deletion of SRC-3 further increased ICH induced brain edema, neurological deficit score and oxidative stress and exacerbated ICH induced behavioral abnormality including motor dysfunction and cognitive impairment. Our findings suggest that SRC-3 is involved in ICH induced brain injury, probably through modulation of oxidative stress.

     

Growth densities regulate the response to elevated CO2 in a farmed seaweed Pyropia haitanensis (Bangiales,Rhodophyta)

Journal of Applied Phycology - Atmospheric CO2 concentration is predicted to nearly double by the end of this century. There are a large number of reports on the effects of elevated atmospheric CO2...     

Divergent DNA methylation contributes to duplicated gene evolution and chilling response in tea plants

The tea plant (Camellia sinensis) is a thermophilic cash crop and contains a highly duplicated and repeat-rich genome. It is still unclear how DNA methylation regulates the evolution of duplicated genes and chilling stress in tea plants. We therefore generated a single-base-resolution DNA methylation map of tea plants under chilling stress. We found that, compared with other plants, the tea plant genome is highly methylated in all three sequence contexts, including CG, CHG and CHH (where H = A, T, or C), which is further proven to be correlated with its repeat content and genome size. We show that DNA methylation in the gene body negatively regulates the gene expression of tea plants, whereas non-CG methylation in the flanking region enables a positive regulation of gene expression. We demonstrate that transposable element-mediated methylation dynamics significantly drives the expression divergence of duplicated genes in tea plants. The DNA methylation and expression divergence of duplicated genes in the tea plant increases with evolutionary age and selective pressure. Moreover, we detect thousands of differentially methylated genes, some of which are functionally associated with chilling stress. We also experimentally reveal that DNA methyltransferase genes of tea plants are significantly downregulated, whereas demethylase genes are upregulated at the initial stage of chilling stress, which is in line with the significant loss of DNA methylation of three well-known cold-responsive genes at their promoter and gene body regions. Overall, our findings underscore the importance of DNA methylation regulation and offer new insights into duplicated gene evolution and chilling tolerance in tea plants.     

Endometrial extracellular matrix rigidity and IFNτ ensure the establishment of early pregnancy through activation of YAP

BackgroundIn mammals, early pregnancy is a critical vulnerable period during which complications may arise, including pregnancy failure. Establishment of a maternal endometrial acceptance phenotype is a prerequisite for semiheterogeneous embryo implantation, comprising the rate‐limiting step of early pregnancy.MethodsConfocal fluorescence, immunohistochemistry and western blot for nuclear and cytoplasmic protein were used to examine the activation of yes‐associated protein (YAP) in uterine tissue and primary endometrial cells. The target binding between miR16a and YAP was verified by dual‐luciferase reporter gene assay. The mouse pregnancy model and pseudopregnancy model were used to investigate the role of YAP in the maternal uterus during early pregnancy in vivo.ResultsWe showed that YAP translocates into the nucleus in the endometrium of cattle and mice during early pregnancy. Mechanistically, YAP acts as a mediator of ECM rigidity and cell density, which requires the actomyosin cytoskeleton and is partially dependent on the Hippo pathway. Furthermore, we found that the soluble factor IFNτ, which is a ruminant pregnancy recognition factor, also induced activation of YAP by reducing the expression of miR‐16a.ConclusionsThis study revealed that activation of YAP is necessary for early pregnancy in bovines because it induced cell proliferation and established an immunosuppressive local environment that allowed conceptus implantation into the uterine epithelium.     

脆弱拟杆菌BF839治疗寻常型银屑病：一项单臂、开放初步临床试验

银屑病被认为是一种T细胞主导的炎症性疾病,其发病与肠道菌群失调密切相关。脆弱拟杆菌 (Bacteroides fragilis,BF) 可通过调节T细胞的细胞因子表达起抗炎作用。目前尚无脆弱拟杆菌用于治疗银屑病的相关报道,文中率先探究脆弱拟杆菌BF839对银屑病的治疗效果。选择2019年4月至2019年10月广州医科大学附属第二医院就诊的27例银屑病患者,维持原治疗不变,口服脆弱拟杆菌BF839 12周,对比治疗前后银屑病皮损面积与严重程度指数 (Psoriasis area and severity index,PASI) 评分,统计治疗12周后药物减停率。结果表明,12周试验完成率为96.3% (26/27),12周PASI30 (PASIN定义为治疗后PASI评分下降≥N%的患者比例) 为65.4%,PASI50为42.3%,PASI75为19.2%;治疗前PASI评分为9.1±5.9,治疗12周后PASI评分为5.8±4.9,具有显著统计学差异 (P<0.01);治疗12周后皮肤瘙痒程度用视觉模拟量表 (Visual analog scale,VAS) 评分有效率为42.3%,治疗前VAS评分为2.9±2.2,治疗12周后VAS评分为2.3±2.1,无显著统计学差异 (P>0.05)。患者治疗12周内不良反应率为3.8% (1/26),其中便秘1例,药物减停率为60.0%。以上结果提示脆弱拟杆菌BF839可能对银屑病治疗有一定疗效,可降低PASI评分及药物使用率,不良反应少,值得进一步研究。     

蛋白质自组装条件筛选形成的透明液滴中存在的自组装现象

微-纳尺度的蛋白质自组装体具有形貌多样性与良好的生物相容性,因而成为蛋白质自组装领域的研究热点。以蛋白质结晶条件的筛选手段高通量筛选不同类型蛋白质于不同尺度、不同形貌的自组装过程,是一种新兴的研究方法,具有重要研究意义。利用该方法进行蛋白质自组装条件筛选时,常会形成一些表观透明的液滴,其中是否有自组装现象的发生尚不明确。文中以β-乳球蛋白与蛋白质结晶试剂盒IndexTM C10相互作用为例进行探索,实验结果表明透明液滴中存在微-纳尺度的蛋白质自组装体。进一步通过扫描电镜观察不同初始浓度β-乳球蛋白与IndexTM C10混合形成的透明液滴中微-纳自组装体的形貌有所差别;通过激光共聚焦显微镜连续拍摄添加荧光标签的β-乳球蛋白形成自组装体的过程,可实时观察到液液相分离现象及最终形成的自组装体的形貌;通过原位X-射线衍射手段,可观察到自组装体内部结构随时间推移逐渐有序化的过程。以上研究表明,在以结晶条件筛选手段为基础的蛋白质自组装条件筛选实验中,透明液滴内的自组装现象具有深入探索的必要和价值。     

慢性乙型肝炎患者肠道菌群与肝脏生化指标的相关性

乙型肝炎病毒感染引起的慢性乙型肝炎 (Chronic hepatitis B,CHB) 是一种全球性流行疾病,严重时可引起肝功能衰竭,甚至发展成肝硬化和肝癌。也已发现CHB的发生和发展与肠道菌群的组成和结构的变化密切相关。为进一步探究肠道菌群结构与肝脏生化指标之间的联系,文中随机纳入14名CHB患者和11名健康对照者 (Control group,CN),分析其肝脏生化指标和肠道菌群的结构以及两者的相关性。结果发现CHB患者肝脏生化指标丙氨酸转氨酶 (Alanine transaminase,ALT)、总胆红素 (Total bilirubin,TBIL) 和γ-谷氨酰转移酶 (Gamma glutamyl transferase,GGT) 等的水平发生显著变化;普雷沃氏菌属Prevotella、劳特氏菌属Blautia、瘤胃球菌属Ruminococcus、Eubacterium eligens group等菌属失调;单形拟杆菌Bacteroides uniformis和Ruminococcus sp. 5_1_39BFAA可能与CHB患者的肝损伤相关,提示这些菌可能成为治疗CHB的新“切入点”。     

重组小麦静息巯基氧化酶的表达、酶学特性及其对面包品质的影响

为发展新型面粉改良酶制剂,利用大肠杆菌Escherichia coli原核表达了小麦静息巯基氧化酶(Wheat quiescin sulfhydryl oxidase,wQSOX)。将合成的wqsox基因构建至pMAL-c5x载体,并在大肠杆菌中进行表达,优化蛋白表达条件后对重组蛋白进行分离纯化及融合标签切除,获得的重组wQSOX蛋白用于酶学性质探究以及面包品质改良。结果表明,合成的截短wqsox基因包含1359 bp,编码453个氨基酸,理论蛋白分子量51 kDa;构建的pMAL-c5x-wqsox重组质粒在E.coli Rosetta gamiB(DE3)中可溶表达了重组蛋白MBP-wQSOX,其最佳表达条件为:诱导温度25℃,诱导剂IPTG浓度0.3 mmol/L,诱导时间6 h;利用Xa因子蛋白酶切除了MBP融合标签,亲和层析纯化得到了wQSOX;wQSOX可催化DTT、GSH和Cys氧化,并伴随着H2O2的生成,其中对DTT表现出最高的底物特异性;酶学性质研究发现,wQSOX最适反应温度和pH分别为50℃和10.0,在高温和碱性环境条件下表现出较好的稳定性;每克面粉中添加1.1 U wQSOX能够显著(P<0.05)提高26.4%的面包比容,降低20.5%的面包芯硬度和24.8%的咀嚼性,表现出了较好的改良面包加工品质能力。研究结果对丰富新型面粉改良酶制剂种类以及推动wQSOX在焙烤行业的应用奠定了理论基础。