The JAK–STAT Pathway Is Critical in Ventilator-Induced Diaphragm Dysfunction

Mechanical ventilation (MV) is one of the lynchpins of modern intensive-care medicine and is life saving in many critically ill patients. Continuous ventilator support, however, results in ventilation-induced diaphragm dysfunction (VIDD) that likely prolongs patients’ need for MV and thereby leads to major associated complications and avoidable intensive care unit (ICU) deaths. Oxidative stress is a key pathogenic event in the development of VIDD, but its regulation remains largely undefined. We report here that the JAK–STAT pathway is activated in MV in the human diaphragm, as evidenced by significantly increased phosphorylation of JAK and STAT. Blockage of the JAK–STAT pathway by a JAK inhibitor in a rat MV model prevents diaphragm muscle contractile dysfunction (by ~85%, p < 0.01). We further demonstrate that activated STAT3 compromises mitochondrial function and induces oxidative stress in vivo, and, interestingly, that oxidative stress also activates JAK–STAT. Inhibition of JAK–STAT prevents oxidative stress-induced protein oxidation and polyubiquitination and recovers mitochondrial function in cultured muscle cells. Therefore, in ventilated diaphragm muscle, activation of JAK–STAT is critical in regulating oxidative stress and is thereby central to the downstream pathogenesis of clinical VIDD. These findings establish the molecular basis for the therapeutic promise of JAK–STAT inhibitors in ventilated ICU patients.     

CD15 expression in human myeloid cell differentiation is regulated by sialidase activity

The glycan determinant CD15 (also known as Lewis x, or Le(x)) is a distinguishing marker for human myeloid cells and mediates neutrophil adhesion to dendritic cells. Despite broad interest in this structure, the mechanisms underlying CD15 expression remain relatively uncharacterized. Accordingly, we investigated the molecular basis of increasing CD15 expression associated with human myeloid cell differentiation. Flow cytometric analysis of differentiating cells together with biochemical studies using inhibitors of glycan synthesis and of sialidases showed that increased CD15 expression is not due to de novo biosynthesis of CD15, but results predominantly from induction of alpha(2-3)-sialidase activity, which yields CD15 from cell-surface sialyl-CD15 (also known as sialyl-Lewis x, sLe(x) or CD15s). This differentiation-associated conversion of surface CD15s to CD15 occurs mainly on glycoproteins. Until now, modulation of post-translational glycan modifications has been attributed solely to dynamic variations in glycosyltransferase expression. Our results unveil a new paradigm by demonstrating a critical role for post-Golgi membrane glycosidase activity in the 'biosynthesis' of a key glycan determinant.     

黄土高原不同植被覆盖对流域水文的影响

以山西省吉县蔡家川流域为对象,研究了植被覆盖类型对流域水文的影响.结果表明:不同植被覆盖的流域年径流系数分别为:林地流域1.6%～2.3%,以农、牧为主的流域3.1%～3.9%;各流域基流系数差异显著,人工林流域为零,次生林为主的流域1.0%～1.5%,以农、牧为主的流域2.5%～2.8%;在雨季人工林流域的径流总量是次生林流域的3.37倍、农地流域的1.9倍,而农地流域的基流量是次生林流域的2.2倍;短历时高强度降雨条件下,人工林流域、次生林流域地表径流量分别是农地流域的10.8倍和2.2倍;在历时较长的暴雨条件下,人工林流域单位面积上的洪峰流量是农地流域的3.4倍,次生林流域的6.9倍;在长历时、大雨量条件下,农地流域的径流量是次生林流域的1.8倍.水平梯田的水源涵养功能与次生林植被相当,次生林植被的水源涵养功能远好于人工植被,在水资源短缺的黄土高原应提倡植被的自然恢复.     

Identification of over-expressed genes in human renal cell carcinoma by combining suppression subtractive hybridization and cDNA library array

Renal cell carcinoma (RCC) is a common uro- genital malignancy and often shows odd biological features. RCC accounts for approximately 2% of ma- lignancies worldwide. The incidence of and mortality from RCC have continuously increased during the last 50 years. One third of the patients already have me- tastases when first consulting the doctors. Another 30%—40% of patients develop metastasis after surgi- Identification of over-expressed genes in human RCC 149 cal excision of the pri…     

RBM6 splicing factor promotes homologous recombination repair of double-strand breaks and modulates sensitivity to chemotherapeutic drugs

RNA-binding proteins regulate mRNA processing and translation and are often aberrantly expressed in cancer. The RNA-binding motif protein 6, RBM6, is a known alternative splicing factor that harbors tumor suppressor activity and is frequently mutated in human cancer. Here, we identify RBM6 as a novel regulator of homologous recombination (HR) repair of DNA double-strand breaks (DSBs). Mechanistically, we show that RBM6 regulates alternative splicing-coupled nonstop-decay of a positive HR regulator, Fe65/APBB1. RBM6 knockdown leads to a severe reduction in Fe65 protein levels and consequently impairs HR of DSBs. Accordingly, RBM6-deficient cancer cells are vulnerable to ATM and PARP inhibition and show remarkable sensitivity to cisplatin. Concordantly, cisplatin administration inhibits the growth of breast tumor devoid of RBM6 in mouse xenograft model. Furthermore, we observe that RBM6 protein is significantly lost in metastatic breast tumors compared with primary tumors, thus suggesting RBM6 as a potential therapeutic target of advanced breast cancer. Collectively, our results elucidate the link between the multifaceted roles of RBM6 in regulating alternative splicing and HR of DSBs that may contribute to tumorigenesis, and pave the way for new avenues of therapy for RBM6-deficient tumors.     

Fermentation studies of stored cocoa beans

Acetic and lactic acid bacteria on fermented cocoa beans were maximally 2.0×10⁶ and 1.9×10⁶ c.f.u./g wet wt, respectively. Acetic and lactic acids were detected on the second and fourth days of fermentation and were maximally 140 and 45 mg/10 g beans, respectively. There was a positive correlation between the sizes of the relevant microbial populations and the amounts of acids produced during fermentation.     

民族植物学：学科发展动态与展望

对民族植物学的学科发展进行了简要综述。民族植物学自1896年在美国诞生以来,经历了百年漫长的发展过程。民族植物学由早期的描述编目有用植物,已经发展到了实验性、技术性和定量性研究的新阶段;民族植物学的原理与方法已被广泛应用于植物资源的可持续利用、社区发展和生物多样性保护。近代民族植物学的学科发展可归纳为3个特征：(1)研究方法的进展主要表现在由记载编目和描述到实验性、技术性的定量研究和从基础研究到实际应用的发展;(2)研究途径的发展表现在由调查记录、访谈式的被动研究到参与式研究和取证分析;(3)研究地区已由局部区域性研究扩大到全球范围的民族植物学研究,从对原住民和少数民族的民族植物学研究扩展到所有不同文化背景民族的民族植物学研究。特别是发展中国家的民族植物学研究在近半个世纪以来得到迅速发展,并广泛应用于植物资源的管理和生物多样性保护的实际工作中。民族植物学在中国起步较晚,但在过去20年里已从无到有,建立起了我国民族植物学研究的理论框架、内容、方法和途径,将民族植物学从基础描述性研究(调查、记载、编目),推进到应用研究,在植物资源的可持续利用、生物多样性保护、农村发展和山区扶贫等方面取得了若干进展。当前,我国民族植物学研究面临着发展的新机遇和新的挑战,必须紧跟国民经济发展的新形势,投入西部大开发,加强学科建设,推进研究与产业发展的结合,把民族植物学由地区性研究推进到全国性研究,进一步完善中国特色的民族植物学研究体系,积极参与国际合作与交流,对国民经济的持续发展、民族地区的团结稳定和生物多样性保护作出更大的贡献。     

4种桦树幼苗耐盐性分析与评价

耐盐植物引种和培育是开发利用盐碱地的主要方式,具有重要的研究价值。本试验以哈萨克斯坦引进的吉尔吉斯白桦（Betula kirghisorum）、欧洲白桦（B.pendula）、毛枝桦（B.pubescens）和本地的白桦（B.platyphylla Suk.）1年生幼苗为试验材料,于2014年7月在东北林业大学进行中性盐（NaCl）和碱性盐（NaHCO₃）的胁迫试验,测定生长量、光合参数和叶绿素含量,并通过因子分析法,对比评价4种桦树幼苗的耐盐碱能力,筛选出综合性状优良的桦树树种,为耐盐植物引种和培育提供有价值的数据。结果表明：随着盐浓度的升高,桦树幼苗的高生长和光合效率受到显著抑制,而当浓度≥0.5%时,大部分幼苗枯死。株高增长量、基径增长量、净光合速率（P_n）、光能利用效率（SUE）、羧化效率（CUE）、表观量子效率（AQY）及叶绿素含量之间的相关性多数达到了显著水平;最后利用因子分析法分别构建了0.1% NaCl、0.3% NaCl、0.1% NaHCO3和0.3% NaHCO₃胁迫处理的综合评价公式,并分别筛选出了综合性状相对优良的单株,其中NaCl胁迫下较优单株为32、33、34、35;NaHCO₃胁迫下较优单株为262、263、264、35。综合比较认为,吉尔吉斯白桦对低中浓度的中性盐的抗性最强,本地对照白桦对低中浓度碱性盐的抗性最强,而吉尔吉斯白桦和毛枝桦对高浓度碱性盐抗性较强。