Drug resistance‐related microRNAs in osteosarcoma: Translating basic evidence into therapeutic strategies

Although the application of multiple chemotherapy brought revolutionary changes to improve overall survival of osteosarcoma patients, the existence of multidrug resistance (MDR) has become a great challenge for successful osteosarcoma treatment in recent decades. Substantial studies have revealed various underlying mechanisms of MDR in cancers. As for osteosarcoma, evidence has highlighted that microRNAs (miRNAs) can mediate in the processes of DNA damage response, apoptosis avoidance, autophagy induction, activation of cancer stem cells, and signal transduction. Besides, these drug resistance‐related miRNAs showed much promise for serving as candidates for predictive biomarkers of poor outcomes and shorter survival time, and therapeutic targets to reverse drug resistance and overcome treatment refractoriness. This review aims to demonstrate the potential molecular mechanisms of miRNAs‐regulated drug resistance in osteosarcoma, and provide insight in translating basic evidence into therapeutic strategies.     

禾谷缢管蚜阳离子通道基因RSC1的克隆、分子特性及诱导表达分析

【目的】SC1通道(sodium channel 1)是昆虫体内一种重要的离子通道,被认为是一种开发新型杀虫剂的神经靶标。本研究拟克隆禾谷缢管蚜Rhopalosiphum padi的SC1通道基因,并初步分析其生理功能及其与SC1类通道、电压门控钠离子通道、电压门控钙离子通道的进化关系。【方法】采用RT-PCR技术,克隆了禾谷缢管蚜SC1基因完整的开放阅读框;利用实时荧光定量PCR技术,分析禾谷缢管蚜成蚜在不同浓度的高效氯氟氰菊酯诱导下SC1基因表达变化。【结果】获得了禾谷缢管蚜SC1基因(命名为RSC1)完整的开放阅读框(Gen Bank登录号为KU640190),其长度6 687bp,编码2 228个氨基酸。RSC1具有SC1通道的结构特征,有一个不同于电压门控钠离子通道和电压门控钙离子通道的特殊DEEA模体(motif)。系统进化分析结果显示,RSC1与电压门控钠离子通道组成一个进化枝,电压门控钙离子通道组成另外一个进化枝,SC1与电压门控钠离子通道在进化上有更近的起源关系。实时荧光定量PCR分析结果表明,LC15,LC35和LC503种剂量的高效氯氟氰菊酯处理6 h后,禾谷缢管蚜RSC1基因表达量相对于清水对照显著下调,表达量分别为对照的0.57,0.82和0.78倍;3种剂量的高效氯氟氰菊酯处理24 h后,禾谷缢管蚜RSC1基因表达量分别为对照的2.19,1.33和1.19倍,其中LC15(0.1484 mg/L)胁迫下RSC1基因的表达量显著上调。【结论】SC1类通道与电压门控钠离子通道在进化起源上有更近的关系。RSC1通道可能是高效氯氟氰菊酯的次级靶标。由于RSC1和其同源基因只存在于节肢动物中,脊椎动物尚未发现该类基因,因此这类通道可能作为开发新型杀虫剂的神经靶标。     

Exosomes: Revisiting their role as “garbage bags”

In recent years, the term “extracellular vesicle” (EV) has been used to define different types of vesicles released by various cells. It includes plasma membrane‐derived vesicles (ectosomes/microvesicles) and endosome‐derived vesicles (exosomes). Although it remains difficult to evaluate the compartment of origin of the two kinds of vesicles once released, it is critical to discriminate these vesicles because their mode of biogenesis is probably directly related to their physiologic function and/or to the physio‐pathologic state of the producing cell. The purpose of this review is to specifically consider exosome secretion and its consequences in terms of a material loss for producing cells, rather than on the effects of exosomes once they are taken up by recipient cells. I especially describe one putative basic function of exosomes, that is, to convey material out of cells for off‐site degradation by recipient cells. As illustrated by some examples, these components could be evacuated from cells for various reasons, for example, to promote “differentiation” or enhance homeostatic responses. This basic function might explain why so many diseases have made use of the exosomal pathway during pathogenesis.     

Tolerance to deer herbivory and resistance to insect herbivores in the common evening primrose (Oenothera biennis)

The evolution of plant defence in response to herbivory will depend on the fitness effects of damage, availability of genetic variation and potential ecological and genetic constraints on defence. Here, we examine the potential for evolution of tolerance to deer herbivory in Oenothera biennis while simultaneously considering resistance to natural insect herbivores. We examined (i) the effects of deer damage on fitness, (ii) the presence of genetic variation in tolerance and resistance, (iii) selection on tolerance, (iv) genetic correlations with resistance that could constrain evolution of tolerance and (v) plant traits that might predict defence. In a field experiment, we simulated deer damage occurring early and late in the season, recorded arthropod abundances, flowering phenology and measured growth rate and lifetime reproduction. Our study showed that deer herbivory has a negative effect on fitness, with effects being more pronounced for late‐season damage. Selection acted to increase tolerance to deer damage, yet there was low and nonsignificant genetic variation in this trait. In contrast, there was substantial genetic variation in resistance to insect herbivores. Resistance was genetically uncorrelated with tolerance, whereas positive genetic correlations in resistance to insect herbivores suggest there exists diffuse selection on resistance traits. In addition, growth rate and flowering time did not predict variation in tolerance, but flowering phenology was genetically correlated with resistance. Our results suggest that deer damage has the potential to exert selection because browsing reduces plant fitness, but limited standing genetic variation in tolerance is expected to constrain adaptive evolution in O. biennis.     

Calcitonin administration improves endometrial receptivity via regulation of LIF,Muc-1 and microRNA Let-7a in mice

Calcitonin (CT) is one of the factors affecting the embryo implantation, but its effects on the implantation window have not been fully investigated. The current study investigated the effects of CT on the endometrium receptivity by morphological study and evaluation of leukemia inhibitory factor (LIF), mucin 1 (Muc-1), and microRNA (miRNA) Let-7a in the ovarian stimulation and the normal ovarian cycle. Then the mechanism of the CT effects through the mammalian target of rapamycin (mTOR) signaling pathway was studied by using PP242. A total of 64 BALB/c mice were divided into the normal ovarian cycle and ovarian stimulation groups. Each group consisted of four subgroups: control, calcitonin, PP242, and calcitonin+PP242. CT and PP242 were injected on the fourth of pregnancy into the mice and 24 hr later all the mice were killed. The uterine tissue samples were used for morphological analysis, and endometrial cells were mechanically isolated for evaluation of gene and protein expression. The results showed that ovarian stimulation induced mTOR phosphorylation as well as increased expression of the Let-7a miRNA. In addition, CT injection increased the expression of LIF and miRNA Let-7a in ovarian stimulation similar to that in normal ovarian cycles. However, injection of PP242 reduced expression of miRNA Let-7a and increased Muc-1 expression in ovarian stimulation group. In conclusion, the administration of CT improved endometrial receptivity in mice. This phenomenon occurred by upregulation of LIF, miRNA Let-7a and downregulation of Muc-1 via mTOR signaling pathway.     

Vigilance and grouping in the southern African ground squirrel (Xerus inauris)

Animals may form groups in response to the foraging–vigilance trade‐off, through enhanced predator detection (collective detection hypothesis) or reduced predation risk to the individual (dilution hypothesis), allowing individuals to decrease vigilance levels. Both hypotheses predict decreasing individual vigilance levels with increasing group size; however, the collective detection hypothesis also predicts increasing overall group vigilance with increasing group size. However, in species in which vigilance and foraging are not mutually exclusive, where vigilance may not be as costly, neither of these hypotheses may apply. Here, we examine the relationship between group size and vigilance in the social Cape ground squirrel (Xerus inauris), a species that can combine foraging and vigilance behaviours. Ten groups were observed using scan sampling, measuring both group and individual vigilance and group size. A negative relationship existed between individual vigilance and group size and a positive relationship between group vigilance and group size. Therefore, in Cape ground squirrels, vigilance seems to be costly even though it can be combined with foraging behaviours. Furthermore, group vigilance behaviour gives support to the collective detection hypothesis, whilst individual vigilance gives support to both hypotheses.     

一种利用Cre/loxP系统进行标记基因删除与靶基因置换的细胞模型研究

Cre/lox系统可以介导DNA的定点插入和定点删除,可利用其实现转基因动物中"友好位点"的重复利用及标记基因的有效删除.为直观地评估该系统介导的以上两种重组反应的效果,通过标记基因并利用大鼠乳腺癌细胞系SHZ-88进行了模型研究.首先构建了两个载体:a.整合载体pTE-lox2272-DsRed-loxP-GFP-loxP,含有红色荧光标记基因DsRed和绿色荧光标记基因GFP;b.置换载体pT-lox2272-neo-loxP,含有筛选标记基因neo,用以置换DsRed基因.然后,用整合载体转染SHZ-88细胞,并随机挑取了3个同时表达DsRed和GFP的稳定整合细胞克隆.随后用置换载体和Cre表达载体PBS185对以上每个克隆分别进行了3次共转染,通过G418筛选并扩增培养后,总共获得1 070个克隆.通过分析标记基因DsRed和GFP在这些克隆中的表达情况:Cre介导的删除效率为91.1%,定点置换效率为29.3%.最后对部分克隆进行了PCR和DNA印迹鉴定,分子鉴定结果与发光的表型状况一致.这一方法为Cre/lox系统在转基因家畜生产中的进一步应用提供了实验依据.     

Sindbis virus replication, is insensitive to rapamycin and torin1, and suppresses Akt/mTOR pathway late during infection in HEK cells

Genetically engineered Sindbis viruses (SIN) are excellent oncolytic agents in preclinical models. Several human cancers have aberrant Akt signaling, and kinase inhibitors including rapamycin are currently tested in combination therapies with oncolytic viruses. Therefore, it was of interest to delineate possible cross-regulation between SIN replication and PI3K/Akt/mTOR signaling. Here, using HEK293T cells as host, we report the following key findings: (a) robust SIN replication occurs in the presence of mTOR specific inhibitors, rapamycin and torin1 or Ly294002 – a PI3K inhibitor, suggesting a lack of requirement for PI3K/Akt/mTOR signaling; (b) suppression of phosphorylation of Akt, mTOR and its effectors S6, and 4E-BP1 occurs late during SIN infection: a viral function that may be beneficial in counteracting cellular drug resistance to kinase inhibitors; (c) Ly294002 and SIN act additively to suppress PI3K/Akt/mTOR pathway with little effect on virus release; and (d) SIN replication induces host translational shut off, phosphorylation of eIF2α and apoptosis. This first report on the potent inhibition of Akt/mTOR signaling by SIN replication, bolsters further studies on the development and evaluation of engineered SIN genotypes in vitro and in vivo for unique cytolytic functions.     

GABA_B受体变构剂药学研究进展

γ-氨基丁酸B受体（GABAB receptor,GABABR）是最具有药理学意义的药物靶点之一,具有复杂而精细的激活机制。传统的GABABR靶点药物开发集中于激动剂和拮抗剂,这类药物受到多种因素的制约,包括较强的副作用、药物代谢困难、机体耐药性明显等。变构剂结合于正构位点之外,能够调节GABABR异源二聚体亚基或结构域间的相互作用。正向变构剂（positiveallosteric modulators,PAMs）和负向变构剂（negative allosteric modulators,NAMs）分别可以提高或降低GABABR的活性,并具有较高的特异性和药物安全性,同时还能够保持GABABR信号在时间和空间上的可控性。变构剂为GABABR靶点药物开发提供了新思路。     

Genetic architecture for normal and novel host-plant use in two local populations of the herbivorous ladybird beetle, Epilachna pustulosa

Trade-offs in host-plant use are thought to promote the evolution of host specificity. However, usually either positive or no genetic correlations have been found. Whereas factors enhancing variation in overall viability have been claimed to mask negative genetic correlations, alternative hypotheses emphasize the sequential changes in genetic correlation in the course of host-range evolution. In this study, the genetic architectures of performances on different hosts were compared in two populations of the herbivorous ladybird beetle, Epilachna pustulosa, using three host plants, one being normal for both, one novel for only one population, and the other novel for both populations. The genetic correlations between larval periods on normal hosts were significantly positive whereas those between normal and novel hosts were not different from zero. There was no evidence for reduced genetic variation on the normal host-plants. These results suggest that the host-range is not restricted by the antagonistic genetic associations among exploitation abilities on different plant species, but rather that selection of different host-plants may improve the coordination between genes responsible for the use of different plants.