人三叶因子3在毕氏酵母中的表达及生物活性分析

利用PCR方法在人胎儿胎盘cDNA中扩增了人三叶因子3基因（hTFF3）,插入到含有AOX1启动子和α－因子信号肽序列的表达载体pPIC9K中,采用毕氏酵母表达系统对其进行了高效的分泌表达,并用G418筛选高拷贝整合转化子。2％甲醇诱导酵母表达48h后,上清经SDS－PAGE和Western印迹证明重组蛋白质以双体的形式分泌表达,占总蛋白质的45％,能被抗hTFF3抗体所识别。表达产物经S－Sepharose、Q-Sepharose离子交换及Sephacryl S-100纯化后纯度达到95％以上。体内生物学活性研究证实hTFF3可有效的防止盐酸诱导的大鼠胃溃疡。     

Correlates of Chlamydia and Gonorrhea Infection among Female Sex Workers: The Untold Story of Jiangsu,China

Objective(s)

To estimate the prevalence of sexually transmitted infections (STIs) among female sex workers (FSWs) in the Jiangsu Province, China and measure the association of Chlamydia trachomatis (CT) and Neisseria gonorrhoeae (NG) infections with their potential correlates.

Design

A cross-sectional study on a representative sample of FSWs in Yangzhou and Changzhou cities of Jiangsu was conducted.

Methods

185 sex-work venues in Yangzhou and 174 in Changzhou were selected by stratified random sampling. 2972 FSWs (1108 in Yangzhou and 1864 in Changzhou), aged 15 years or more, who agreed to participate and provided blood sample for HIV and syphilis testing were interviewed in these venues. Cervical specimens from 849 randomly chosen participants were then tested for CT and NG.

Results

Proportions of young, school-educated, currently married FSWs who were living alone, migrated from other provinces and engaged in unprotected vaginal intercourse in past 3 months (UVI) were relatively high. Prevalence of HIV, syphilis, CT and NG were 0.20%, 4.88%, 14.61% and 5.42% respectively. Younger age, living alone or with persons other than partners/family members, engaging in UVI and having other STIs seemed to be associated with higher risk of CT or NG infection. Being divorced/widowed and working in middle/low-level venues were identified as additional risk factors for NG.

Conclusions

Based on a representative sample, this initial effort to identify the correlates of CT/NG infections among FSWs of Jiangsu revealed that focused interventions targeting high-risk FSWs are urgently required for controlling STI epidemics in Yangzhou and Changzhou where substantial number of STI cases were identified.     

Dynamic involvement of ATG5 in cellular stress responses

Autophagy maintains cell and tissue homeostasis through catabolic degradation. To better delineate the in vivo function for autophagy in adaptive responses to tissue injury, we examined the impact of compromised autophagy in mouse submandibular glands (SMGs) subjected to main excretory duct ligation. Blocking outflow from exocrine glands causes glandular atrophy by increased ductal pressure. Atg5^f/−;Aqp5-Cre mice with salivary acinar-specific knockout (KO) of autophagy essential gene Atg5 were generated. While duct ligation induced autophagy and the expression of inflammatory mediators, SMGs in Atg5^f/−;Aqp5-Cre mice, before ligation, already expressed higher levels of proinflammatory cytokine and Cdkn1a/p21 messages. Extended ligation period resulted in the caspase-3 activation and acinar cell death, which was delayed by Atg5 knockout. Moreover, expression of a set of senescence-associated secretory phenotype (SASP) factors was elevated in the post-ligated glands. Dysregulation of cell-cycle inhibitor CDKN1A/p21 and activation of senescence-associated β-galactosidase were detected in the stressed SMG duct cells. These senescence markers peaked at day 3 after ligation and partially resolved by day 7 in post-ligated SMGs of wild-type (WT) mice, but not in KO mice. The role of autophagy-related 5 (ATG5)-dependent autophagy in regulating the tempo, duration and magnitude of cellular stress responses in vivo was corroborated by in vitro studies using MEFs lacking ATG5 or autophagy-related 7 (ATG7) and autophagy inhibitors. Collectively, our results highlight the role of ATG5 in the dynamic regulation of ligation-induced cellular senescence and apoptosis, and suggest the involvement of autophagy resolution in salivary repair.Autophagy is a catabolic process that has an essential role in cellular adaptation to multiple types of stress by recycling of superfluous cellular material, safeguarding quality control in organelles, removing protein aggregates, and eliminating intracellular pathogens.¹ Conceptually, autophagy serves a pro-survival mechanism by providing sources of energy and biosynthetic building blocks during starvation, removing dysfunctional organelles and large aggregates toxic to cells to avoid unwarranted cell death. However, upon sustained stress conditions, cell death eventually takes place either by excessive autophagy or by the induction of apoptosis and/or necrosis pathways.² The ATG5, autophagy-related 5, has a pivotal role in autophagosome formation. Mouse neonates systemic deficient for ATG5 die within a day of birth,³ whereas mice depleted of Atg5 in selected tissues have abnormalities ranging from neurodegeneration⁴ and age-related cardiomyopathy⁵ to liver tumors.⁶Autophagy and senescence are two distinct, however functionally intertwined, cellular responses to stress.⁷ Cellular senescence is a state of stable growth arrest that is induced by telomere shortening, DNA-damage, oncogenes or other stresses. In general, senescence is a heterogeneous phenotype, which is characterized by a senescent-associated secretory phenotype (SASP), expression of senescence-associated β-galactosidase (SA-β-gal) and other senescent markers, and increased cell size.⁸ In culture system, inhibiting or enhancing autophagy leads to the opposite effect on premature senescence.^{9, 10, 11, 12} While premature senescence can be induced by a plethora of cell-extrinsic and cell-intrinsic stressors,¹³ little is known about the possible role of autophagy in modulating injury-induced cellular senescence in vivo. Rodent salivary duct ligation has been used as an experimental model system to study salivary gland atrophy, which often occurs in patients with Sjögren''s syndrome or receiving head and neck radiation therapy. Although autophagy induction has been implicated in the repair of rapamycin-treated, post-ligated salivary glands,^14,15 the roles played by autophagy in regulating the injury responses in submandibular glands (SMGs) have not been explored.To explore how autophagy contributes to salivary (patho)physiology, we established a transgenic mouse model deficient for ATG5 in the salivary acinar cells. Previously, we have identified a role for basal autophagy in salivary homeostatic mechanisms that restrict acinar cell size and the number of secretory granules.¹⁶ Here, we report that ligation of the major SMG excretory duct triggers the glandular atrophy and the induction of autophagy. By comparing the acute and subacute stress responses from autophagy-impaired and -competent SMGs with duct obstruction, we established the intrinsic roles of ATG5-dependent autophagy in modulating salivary inflammatory responses, stress-induced senescence and cell death, which all occur sequentially in response to tissue injury. Our results provide in vivo evidence that stress-induced autophagic response is indispensable for resolving premature senescence in duct cells of the ligated glands, whereas ATG5 deficiency leads to delayed acinar cell death.     

低温条件下不同抗寒性薰衣草内源激素的变化

为揭示薰衣草内源激素与抗寒能力的关系,以抗寒性相对较强的狭叶薰衣草和抗寒性较弱的宽叶薰衣草为试验材料,在田间自然条件下,于越冬前不同降温时期分别对叶片和根系取样,采用酶联免疫吸附法（ELISA）测定和分析了内源激素ABA、GA3、IAA和ZR的含量变化。结果表明,两种薰衣草的叶片和根系中的ABA、IAA和ZR的含量随气温的降低均表现为先升高后降低的趋势,但GA3表现为持续下降的趋势。抗寒性强的狭叶薰衣草叶片和根系中的ABA、IAA和ZR含量均高于抗寒性弱的宽叶薰衣草,而GA3小于宽叶薰衣草。对薰衣草越冬起重要作用的内源激素是ABA。     

Review of the Chinese species of the genus Varma Distant (Hemiptera,Fulgoromorpha, Tropiduchidae), with description of two new species

Two new species of Varma Distant, 1906, V. falcata Chang & Chen, sp. n. (China: Guizhou) and V. lobata Chang & Chen, sp. n. (China: Guizhou) are described and illustrated. The female genitalia of four speices including two known species are described and illustrated for the first time. The diagnostic characters of this genus are redefined. A checklist to the species of Varma in China is given. The Keys on male and female genitalia to the Chinese species of Varma are provided.     

HUWE1 interacts with BRCA1 and promotes its degradation in the ubiquitin–proteasome pathway

The cellular BRCA1 protein level is essential for its tumor suppression activity and is tightly regulated through multiple mechanisms including ubiquitn–proteasome system. E3 ligases are involved to promote BRCA1 for ubiquitination and degradation. Here, we identified HUWE1/Mule/ARF-BP1 as a novel BRCA1-interacting protein involved in the control of BRCA1 protein level. HUWE1binds BRCA1 through its N-terminus degron domain. Depletion of HUWE1 by siRNA-mediated interference significantly increases BRCA1 protein levels and prolongs the half-life of BRCA1. Moreover, exogenous expression of HUWE1 promotes BRCA1 degradation through the ubiquitin–proteasome pathway, which could explain an inverse correlation between HUWE1 and BRCA1 levels in MCF10F, MCF7 and MDA-MB-231 breast cancer cells. Consistent with a functional role for HUWE1 in regulating BRCA1-mediated cellular response to DNA damage, depletion of HUWE1 by siRNA confers increased resistance to ionizing radiation and mitomycin. These data indicate that HUWE1 is a critical negative regulator of BRCA1 and suggest a new molecular mechanism for breast cancer pathogenesis.     

A global alfalfa diversity panel reveals genomic selection signatures in Chinese varieties and genomic associations with root development

Alfalfa (Medicago sativa L.) is an important forage crop worldwide. However, little is known about the effects of breeding status and different geographical populations on alfalfa improvement. Here, we sequenced 220 alfalfa core germplasms and determined that Chinese alfalfa cultivars form an independent group, as evidenced by comparisons of F_ST values between different subgroups, suggesting that geographical origin plays an important role in group differentiation. By tracing the influence of geographical regions on the genetic diversity of alfalfa varieties in China, we identified 350 common candidate genetic regions and 548 genes under selection. We also defined 165 loci associated with 24 important traits from genome-wide association studies. Of those, 17 genomic regions closely associated with a given phenotype were under selection, with the underlying haplotypes showing significant differences between subgroups of distinct geographical origins. Based on results from expression analysis and association mapping, we propose that 6-phosphogluconolactonase (MsPGL) and a gene encoding a protein with NHL domains (MsNHL) are critical candidate genes for root growth. In conclusion, our results provide valuable information for alfalfa improvement via molecular breeding.     

非结构性碳水化合物与氮分配对美洲黑杨和青杨耐盐能力的影响

土壤盐渍化是阻碍林业发展的重要原因, 杨树(Populus spp.)是中国主要的人工林树种, 探究盐胁迫下植物的碳氮代谢特征与抗盐胁迫能力, 将有助于杨树人工林的可持续发展。该研究利用美洲黑杨(P. deltoides)和青杨(P. cathayana)两个物种, 采用去叶与不去叶处理, 在盐胁迫下研究两种杨树的抗逆性差异。研究发现, 盐胁迫下美洲黑杨的总生物量和光合能力均显著高于青杨。盐胁迫与去叶处理导致美洲黑杨叶绿素浓度和光系统II最大光量子效率显著高于青杨, 表明去叶对美洲黑杨影响较小, 但是加重了盐对青杨的毒害作用。美洲黑杨茎叶Na⁺浓度显著低于青杨, 表明美洲黑杨能够有效地限制Na⁺向地上部分运输。在盐胁迫条件下, 美洲黑杨茎和根比青杨能够维持更高浓度的淀粉、可溶性糖以及蔗糖, 前者较高的腺苷二磷酸葡萄糖焦磷酸化酶活性促进了光合产物向淀粉转换, 保证植物有充足的非结构性碳水化合物来参与渗透调节和维持其他生命活动, 而去叶使得青杨非结构性碳水化合物严重不足, 受盐胁迫影响更严重。盐胁迫下, 青杨分布在脂溶性蛋白(膜系统相关蛋白质)的氮浓度显著下降, 而NH₄⁺、谷氨酸脱氢酶活性与脯氨酸浓度显著升高。研究结果证明, 非结构性碳水化合物的积累、转化和分配是植物抗逆性的重要特征。