Rho-Associated Protein Kinases Play an Important Role in the Differentiation of Rat Adipose-Derived Stromal Cells into Cardiomyocytes In Vitro

Adipose-derived stromal cells (ADSCs) represent a readily available abundant supply of mesenchymal stem cells and have the ability to differentiate into cardiomyocytes in mice and human, making ADSCs a promising source of cardiomyocytes for transplantation. However, there has been no report of differentiation of rat ADSCs into cardiomyocytes. In addition, signaling pathways in the differentiation process from ADSCs to cardiomyocytes are unknown. In this study, we first demonstrated that rat ADSCs spontaneously differentiated into cardiomyocytes in vitro, when cultured on a complete medium formulation MethoCult GF M3534. These differentiated cells possessed cardiomyocyte phenotype and expressed cardiac markers. Moreover, these cells showed open excitation-contracting coupling and Ca²⁺ transient and contracted spontaneously. The role of Rho-associated protein kinases (ROCKs) in the differentiation process was then studied by using ROCK-specific inhibitor Y-27632 and ROCK siRNAs. These agents changed the arrangement of cytoskeleton and diminished appearance of cardiomyocyte phenotype, accompanied by inhibition of c-Jun N-terminal kinase (JNK) phosphorylation and promotion of Akt phosphorylation. Collectively, this is the first study to demonstrate that rat ADSCs could spontaneously differentiate into cardiomyocytes in vitro and ROCKs play an important role in the differentiation of ADSCs into beating cardiomyocytes in conjunction of the PI3K/Akt pathway and the JNK pathway.     

一个可能与T细胞发育相关的新的C2H2型锌指蛋白基因的克隆(英)

一些在组织和细胞分化中起重要作用的蛋白质包含锌指结构域.为了克隆分离和研究与造血细胞分化和发育成熟相关的蛋白基因,利用编码C2H2型锌指蛋白结构域中部分保守氨基酸序列设计简并引物,以骨髓cDNA为模板,进行PCR扩增,得到若干新的锌指蛋白基因EST.用其中一条为探针筛选人骨髓cDNA文库,获得了一个新的锌指蛋白基因全长cDNA,GenBank收录号为AF246126,长3 888 bp,包括一个完整阅读框,编码686个氨基酸,包括17个典型的和2个非典型的C2H2模体,命名为HZF2. RNA印迹、人多组织mRNA斑点杂交分析结果显示, 其在T淋巴细胞发育和定居的器官组织胸腺、淋巴结中有较高表达,在脾脏、胎肝有中度表达,在B淋巴细胞发育的骨髓中表达很低,在外周血几个淋巴细胞系中仅有极微量的表达,提示HZF2可能对于T淋巴细胞发育和增殖有重要功能.该基因也在脑组织的若干部位、胎盘及肾上腺有较高表达,在多种其他组织细胞有微量表达,说明其可能对维持这些组织细胞的生理功能也起一定作用.将编码HZF2读框的DNA顺序克隆到pEGFP-N1载体中,转染3T3细胞,证明表达的HZF2-GFP融合蛋白定位于细胞核,这与根据HZF2蛋白结构推测其可能作为DNA结合蛋白行使调节基因转录的功能是一致的.     

Tyrosine Residues at the Carboxyl Terminus of Vav1 Play an Important Role in Regulation of Its Biological Activity

The guanine nucleotide exchange factor (GEF) Vav1 is an essential signal transducer protein in the hematopoietic system, where it is expressed physiologically. It is also involved in several human malignancies. Tyrosine phosphorylation at the Vav1 amino terminus plays a central role in regulating its activity; however, the role of carboxyl terminal tyrosine residues is unknown. We found that mutation of either Tyr-826 (Y826F) or Tyr-841 (Y841F) to phenylalanine led to loss of Vav1 GEF activity. When these Vav1 mutants were ectopically expressed in pancreatic cancer cells lacking Vav1, they failed to induce growth in agar, indicating loss of transforming potential. Furthermore, although Y841F had no effect on Vav1-stimulated nuclear factor of activated T cells (NFAT) activity, Y826F doubled NFAT activity when compared with Vav1, suggesting that Tyr-826 mediates an autoinhibitory effect on NFAT activity. SH2 profiling revealed that Shc, Csk, Abl, and Sap associate with Tyr-826, whereas SH2-B, Src, Brk, GTPase-activating protein, and phospholipase C-γ associate with Tyr-841. Although the mutations in the Tyr-826 and Tyr-841 did not affect the binding of the carboxyl SH3 of Vav1 to other proteins, binding to several of the proteins identified by the SH2 profiling was lost. Of interest is Csk, which associates with wild-type Vav1 and Y841F, yet it fails to associate with Y826F, suggesting that loss of binding between Y826F and Csk might relieve an autoinhibitory effect, leading to increased NFAT. Our data indicate that GEF activity is critical for the function of Vav1 as a transforming protein but not for NFAT stimulation. The association of Vav1 with other proteins, detected by SH2 profiling, might affect other Vav1-dependent activities, such as NFAT stimulation.     

Macrophages as IL-25/IL-33-Responsive Cells Play an Important Role in the Induction of Type 2 Immunity

Type 2 immunity is essential for host protection against nematode infection but is detrimental in allergic inflammation or asthma. There is a major research focus on the effector molecules and specific cell types involved in the initiation of type 2 immunity. Recent work has implicated an important role of epithelial-derived cytokines, IL-25 and IL-33, acting on innate immune cells that are believed to be the initial sources of type 2 cytokines IL-4/IL-5/IL-13. The identities of the cell types that mediate the effects of IL-25/IL-33, however, remain to be fully elucidated. In the present study, we demonstrate that macrophages as IL-25/IL-33-responsive cells play an important role in inducing type 2 immunity using both in vitro and in vivo approaches. Macrophages produced type 2 cytokines IL-5 and IL-13 in response to the stimulation of IL-25/IL-33 in vitro, or were the IL-13-producing cells in mice administrated with exogenous IL-33 or infected with Heligmosomoides bakeri. In addition, IL-33 induced alternative activation of macrophages primarily through autocrine IL-13 activating the IL-4Rα-STAT6 pathway. Moreover, depletion of macrophages attenuated the IL-25/IL-33-induced type 2 immunity in mice, while adoptive transfer of IL-33-activated macrophages into mice with a chronic Heligmosomoides bakeri infection induced worm expulsion accompanied by a potent type 2 protective immune response. Thus, macrophages represent a unique population of the innate immune cells pivotal to type 2 immunity and a potential therapeutic target in controlling type 2 immunity-mediated inflammatory pathologies.     

第20位脯氨酸对人肿瘤坏死因子的活性和结构的作用

采用寡聚核苷酸指导的体外基因定点突变方法,将重组人肿瘤坏死因子第２０位脯氨酸变为精氨酸。突变体在大肠杆菌中的表达量是ＴＮＦＰｒｏ２０的６０％。表达产物经一系列离子交换层析分离纯化以后,突变体的比活是ＴＮＦＰｒｏ２０的千分之。一突变体和ＴＮＦＰｒｏ２０在非变性非还原的条件下进行聚丙烯酰胺凝胶电泳,两者显示相同的区带,这表明突变体也可以形成三聚体活性形式,ＴＮＦＰｒｏ２０和突变体的荧光光谱分析揭示,Ａ     

Hemichannels Formed by Connexin 43 Play an Important Role in the Release of Prostaglandin E2by Osteocytes in Response to Mechanical Strain

Osteocytes embedded in the matrix of bone are mechanosensory cells that translate strain into signals and regulate bone remodeling. Our previous studies using osteocyte-like MLO-Y4 cells have shown that fluid flow shear stress (FFSS) increases connexin (Cx) 43 protein expression, prostaglandin E₂(PGE₂) release, and intercellular coupling, and PGE₂is an essential mediator between FFSS and gap junctions. However, the role of Cx43 in the release of PGE₂in response to FFSS is unknown. Here, the FFSS-loaded MLO-Y4 cells with no or few intercellular channels released significantly more PGE₂per cell than those cells at higher densities. Antisense Cx43 oligonucleotides and 18 β-glycyrrhetinic acid, a specific gap junction and hemichannel blocker, significantly reduced PGE₂release by FFSS at all cell densities tested, especially cells at the lowest density without gap junctions. FFSS, fluid flow-conditioned medium, and PGE₂increased the activity of dye uptake. Moreover, FFSS induced Cx43 to migrate to the surface of the cell; this surface expressed Cx43 developed resistance to Triton-X-100 solublization. Our results suggest that hemichannels formed by Cx43, instead of intercellular channels, are likely to play a predominant role in the release of intracellular PGE₂in response to FFSS.     

Hemichannels Formed by Connexin 43 Play an Important Role in the Release of Prostaglandin E2 by Osteocytes in Response to Mechanical Strain

Osteocytes embedded in the matrix of bone are mechanosensory cells that translate strain into signals and regulate bone remodeling. Our previous studies using osteocyte-like MLO-Y4 cells have shown that fluid flow shear stress (FFSS) increases connexin (Cx) 43 protein expression, prostaglandin E₂ (PGE₂) release, and intercellular coupling, and PGE₂ is an essential mediator between FFSS and gap junctions. However, the role of Cx43 in the release of PGE₂ in response to FFSS is unknown. Here, the FFSS-loaded MLO-Y4 cells with no or few intercellular channels released significantly more PGE₂ per cell than those cells at higher densities. Antisense Cx43 oligonucleotides and 18 β-glycyrrhetinic acid, a specific gap junction and hemichannel blocker, significantly reduced PGE₂ release by FFSS at all cell densities tested, especially cells at the lowest density without gap junctions. FFSS, fluid flow-conditioned medium, and PGE₂ increased the activity of dye uptake. Moreover, FFSS induced Cx43 to migrate to the surface of the cell; this surface expressed Cx43 developed resistance to Triton-X-100 solublization. Our results suggest that hemichannels formed by Cx43, instead of intercellular channels, are likely to play a predominant role in the release of intracellular PGE₂ in response to FFSS.     

F1C Fimbriae Play an Important Role in Biofilm Formation and Intestinal Colonization by the Escherichia coli Commensal Strain Nissle 1917

Bacterial biofilm formation is thought to enhance survival in natural environments and during interaction with hosts. A robust colonizer of the human gastrointestinal tract, Escherichia coli Nissle 1917, is widely employed in probiotic therapy. In this study, we performed a genetic screen to identify genes that are involved in Nissle biofilm formation. We found that F1C fimbriae are required for biofilm formation on an inert surface. In addition, these structures are also important for adherence to epithelial cells and persistence in infant mouse colonization. The data suggest a possible connection between Nissle biofilm formation and the survival of this commensal within the host. Further study of the requirements for robust biofilm formation may improve the therapeutic efficacy of Nissle 1917.     

综述: 秀丽线虫胰岛素类生长因子和雷帕霉素受体信号通路对衰老的调节作用

衰老表现为随着时间推移而带来的功能上的衰退和死亡率的上升.利用模式生物,研究人员已经证明,衰老受高度保守的信号通路所调控,而且遗传与环境因素的改变可以显著延长寿命并延缓功能上的衰退.作为一种模式生物,秀丽线虫由于其遗传操作的简单性以及基因组的高度保守性,已被广泛应用于现代生物学研究中.许多关于衰老的分子机理最初是在秀丽线虫中被阐明的.本文总结了秀丽线虫中高度保守的胰岛素类生长因子(IGF-1)和雷帕霉素受体(TOR)这两条信号通路调控衰老的研究进展,并对未来的研究方向展开了评述.     

Role of the spleen in Bartonella spp. infection

Bartonella spp. are intra-erythrocytic pathogens of mammals. In this study, we investigated the role of the spleen, and other tissue and organs in Bartonella infection. Using an in vivo model of mice infection by Bartonella birtlesii, we detected accumulation of bacteria in the spleen, with transient infection of the liver, but failed to detect any bacteria in brain or lymph nodes. We then compared bacteraemia in normal Balb/C mice and in splenectomized mice. Bacteraemia in splenectomized mice was 10-fold higher than in normal mice and lasted 2?weeks longer. In conclusion, the spleen seems to retain and filter infected erythrocytes rather than to be a sanctuary for chronic Bartonella infection.     

Talaromyces marneffei Mp1p Antigen Detection may Play an Important Role in the Early Diagnosis of Talaromycosis in Patients with Acquired Immunodeficiency Syndrome

Mycopathologia - Talaromycosis is a life-threatening fungal disease commonly seen in patients with acquired immunodeficiency syndrome (AIDS), which is endemic in Southern China and Southeast...     

Lipid Peroxidation Plays an Important Role in Chemotherapeutic Effects of Temozolomide and the Development of Therapy Resistance in Human Glioblastoma

BACKGROUND: Glioblastoma (GBM) is the most malignant primary brain tumor. Relapse occurs regularly, and the clinical behavior seems to be due to a therapy-resistant subpopulation of glioma-initiating cells that belong to the group of cancer stem cells. Aldehyde dehydrogenase (ALDH) has been identified as a marker for this cell population, and we have shown previously that ALDH1A3-positive GBM cells are more resistant against temozolomide (TMZ) treatment. However, it is still unclear how ALDH expression mediates chemoresistance. MATERIALS AND METHODS: ALDH1A3 expression was analyzed in 112 specimens from primary and secondary surgical resections of 56 patients with GBM (WHO grade IV). All patients received combined adjuvant radiochemotherapy. For experimental analysis, CRISPR-Cas9–induced knockout cells from three established GBM cell lines (LN229, U87MG, T98G) and two glioma stem-like cell lines were investigated after TMZ treatment. RESULTS: ALDH1A3 knockout cells were more sensitive to TMZ, and oxidative stress seemed to be the molecular process where ALDH1A3 exerts its role in resistance against TMZ. Oxidative stress led to lipid peroxidation, yielding active aldehydes that were detoxified by ALDH enzymatic activity. During the metabolic process, autophagy was induced leading to downregulation of the enzyme, but ALDH1A3 is upregulated to even higher expression levels after finishing the TMZ therapy in vitro. Recurrent GBMs show significantly higher ALDH1A3 expression than the respective samples from the primary tumor, and patients suffering from GBM with high ALDH1A3 expression showed a shorter median survival time (12 months vs 21 months, P < .05). CONCLUSION: Oxidative stress is an important and clinically relevant component of TMZ-induced therapeutic effects. Cytotoxicity seems to be mediated by aldehydes resulting from lipid peroxidation, and ALDH1A3 is able to reduce the number of toxic aldehydes. Therefore, we present a molecular explanation of the role of ALDH1A3 in therapeutic resistance of human GBM cells.     

污泥的农林处置与利用

1　污泥处置与农林利用现状污泥处置与利用 ,乃当前环境科学中的重要课题。一些污水处理的专家认为 ,污泥处置是污水处理厂当前迫切要解决的难度最大的问题。污泥的处置主要包括农用、填埋、焚烧、排海等。据1 996年资料报道 ,世界上 1 2个发达国家对污泥的处置方式 (表 1 ) ,45.3%为农用 ,38%为填埋 ,1 0 .5%为焚烧 ,6.0 %为排海。西欧、美国和英国的污泥处置 ,西欧以填埋为主 ,美国和英国以农用为主 ,加拿大以焚烧为主 (占 40 % ) [1 ] 。 1 991年和1 998年 ,美国和欧盟已规定禁止向海洋倾倒污泥[1 1 ] ,并且一些发达国家已经明令禁止焚烧…     

Methanosarcina Play an Important Role in Anaerobic Co-Digestion of the Seaweed Ulva lactuca: Taxonomy and Predicted Metabolism of Functional Microbial Communities

Macro-algae represent an ideal resource of third generation biofuels, but their use necessitates a refinement of commonly used anaerobic digestion processes. In a previous study, contrasting mixes of dairy slurry and the macro-alga Ulva lactuca were anaerobically digested in mesophilic continuously stirred tank reactors for 40 weeks. Higher proportions of U. lactuca in the feedstock led to inhibited digestion and rapid accumulation of volatile fatty acids, requiring a reduced organic loading rate. In this study, 16S pyrosequencing was employed to characterise the microbial communities of both the weakest (R1) and strongest (R6) performing reactors from the previous work as they developed over a 39 and 27-week period respectively. Comparing the reactor communities revealed clear differences in taxonomy, predicted metabolic orientation and mechanisms of inhibition, while constrained canonical analysis (CCA) showed ammonia and biogas yield to be the strongest factors differentiating the two reactor communities. Significant biomarker taxa and predicted metabolic activities were identified for viable and failing anaerobic digestion of U. lactuca. Acetoclastic methanogens were inhibited early in R1 operation, followed by a gradual decline of hydrogenotrophic methanogens. Near-total loss of methanogens led to an accumulation of acetic acid that reduced performance of R1, while a slow decline in biogas yield in R6 could be attributed to inhibition of acetogenic rather than methanogenic activity. The improved performance of R6 is likely to have been as a result of the large Methanosarcina population, which enabled rapid removal of acetic acid, providing favourable conditions for substrate degradation.