嵌合抗原受体T细胞治疗的现状与展望

肿瘤严重威胁着人类健康,当前肿瘤传统的治疗方法有手术治疗、化疗、放疗和靶向药物治疗等。近年来,肿瘤免疫治疗,尤其是嵌合抗原受体（chimeric antigen receptor,CAR） T细胞免疫疗法在基础研究与临床应用中蓬勃发展,并在治疗血液系统恶性肿瘤方面取得了巨大成功。然而,大量研究显示,细胞免疫治疗后可出现不同程度的毒副反应,且部分患者缓解后再次复发。因此,了解细胞治疗面临的挑战与局限性,寻找解决的办法,对继续发挥细胞免疫疗法的潜能具有重要意义。本文就免疫细胞的CAR结构、病毒载体的选择、细胞治疗面临的挑战及前景进行综述。     

胰腺癌早期检测的生物标志物（英文）

胰腺癌症是最难诊断和治疗的恶性肿瘤之一,其特点是发病隐匿、进展迅速、预后差。目前,手术治疗仍然是首选治疗方法。然而由于缺乏早期症状,大约70%的患者在确诊时已经出现局部扩散或远端转移,从而无法进行手术治疗。由此看来,早期检测是提高患者治疗效果和预后的有效途径。临床上使用的成像方法 （CT、MRI、EUS等）通常无法检测早期病变,并且很容易受到操作员的影响。常规临床标志物如CA19-9、CA125、CA242和CEA受到限制,其敏感性或特异性不令人满意。因此,寻找新的具有高敏感性和特异性的标志物是实现胰腺癌早期检测的关键。近年来,对生物标志物的广泛研究主要集中在遗传学、转录组学和蛋白质组学上。特别是由microRNA(miRNA)、long non-coding RNA(lncRNA)和circRNA(circRNA)组成的非蛋白质编码RNA(non-protein coding RNA,ncRNA)为胰腺癌的早期检测提出了许多新思路。然而,其中绝大多数仍处于实验室研究阶段。而一项成熟的生物标志物研究应该整合基因组学、转录组学、蛋白质组学或代谢组学的数据,并结合患者的个体特征（如体重指数...     

(Zn·Cd)S:Ag-KI催化的光合磷酸化

以半导体材料(Zn·Cd)S:Ag-KI为催化剂,在普通卤钨灯光照射下,成功地模拟了光合作用的光合磷酸化.文章报导了光强、照光时间、ADP浓度、Pi浓度及催化剂量等对ATP合成的影响.在合适的条件下,ADP浓度为1×10~(-3)mmolL时转化率可达到4-6°.最后有一简单讨论.     

褪黑素调节烟草丁香假单胞菌抗性的功能研究

为分析褪黑素(N-乙酰-5-甲氧基色胺)在植物先天免疫中的功能及调控机理,研究以病原菌丁香假单胞杆菌(Pseudomonas syringae pv.tomato DC3000,Pst DC3000)—烟草互作系统为模型,检测了病原菌侵染对烟草褪黑素相关基因表达的影响,并探讨了褪黑素对植物叶片病原菌生长以及气孔开度和活性氧自由基(reactive oxygen species,ROS)含量的影响以及调控机理。结果表明:(1)Pst DC3000处理提高了烟草褪黑素合成(NtSNAT1)和受体(NtPMTR1)基因表达,且外源褪黑素处理降低了叶片中的病原菌含量。(2)与野生型植物相比,过表达大豆GmSNAT1基因显著提高了转基因烟草中内源褪黑素含量和NtPMTR1的表达,且转基因烟草叶片中的Pst DC3000菌落数显著下降。(3)外源褪黑素和细菌鞭毛蛋白多肽flg22处理诱导了野生型和转基因烟草保卫细胞中ROS产生和气孔关闭,且转基因植物对褪黑素和flg22诱导的气孔关闭和ROS产生比野生型烟草更加敏感。综上所述,研究表明褪黑素可能通过受体NtPMTR1介导的信号途径促进保卫细胞ROS产生,诱导气孔关闭,从而降低病原菌Pst DC3000的入侵。     

植物多基因干扰载体体系构建与效用分析

多数重要的功能基因属于多基因家族,这些家族成员间存在功能冗余,高效的多基因干扰体系对研究多基因家族成员的生物学功能及其分子调控机制具有重要意义。对pCAMBIA1301载体改造,构建了适用于植物的多基因干扰体系pCAMBIA1301m和pCAMBIA1301s。使用该多基因干扰体系构建了四基因的干扰载体pCAMBIA1301m：35S∷SlPP2C1-2-3-4,4个目标基因为来源于番茄PP2C家族A组的PP2C1、PP2C2、PP2C3和PP2C4,并通过遗传转化导入番茄,用GUS染色和PCR检测转基因阳性植株,再利用RT-qPCR技术检测T₁和T₂代转基因植株中目标基因的干扰效率,用T₂代种子分析转基因番茄对ABA敏感性。结果表明,应用该干扰体系成功获得了四基因干扰的转基因植株35S∷SlPP2C1-2-3-4。在转基因番茄中4个目标基因的表达量显著低于野生型,其干扰效率均高于70%,转基因番茄种子萌发具有强烈的ABA不敏感性。多基因干扰体系能高效地同时沉默多个目标基因。     

肠道真菌研究进展

真菌菌群是肠道菌群的重要组成部分,在肠道微生态稳态的维持和宿主的免疫调节中发挥重要作用。肠道真菌失调通常和肠道疾病甚至肠道外疾病有关。本文就肠道真菌的定殖与组成、真菌菌群对肠道微生态的调控、菌群失调促进疾病的发展机制、基于肠道真菌的治疗策略和肠道真菌的鉴定分析方法等方面的进展进行了综述和展望,旨在系统认识肠道真菌调节宿主健康和促进疾病发生的机制,为相关疾病的诊断和治疗提供重要参考。     

Peptide MSI-1 inhibited MCR-1 and regulated outer membrane vesicles to combat immune evasion of Escherichia coli

Polymyxin resistance is conferred by MCR-1 (mobile colistin resistance 1)-induced lipopolysaccharide (LPS) modification of G⁻ bacteria. However, the peptide MSI-1 exerts potent antimicrobial activity against mcr-1-carrying bacteria. To further investigate the potential role of MCR-1 in improving bacterial virulence and facilitating immune evasion, and the immunomodulatory effect of peptide MSI-1, we first explored outer membrane vesicle (OMV) alterations of mcr-1-carrying bacteria in the presence and absence of sub-MIC MSI-1, and host immune activation during bacterial infection and OMV stimulation. Our results demonstrated that LPS remodelling induced by MCR-1 negatively affected OMV formation and protein cargo by E. coli. In addition, MCR-1 diminished LPS-stimulated pyroptosis but facilitated mitochondrial dysfunction, further aggravating apoptosis in macrophages induced by OMVs of E. coli. Similarly, TLR4-mediated NF-κB activation was markedly alleviated once LPS was modified by MCR-1. However, peptide MSI-1 at the sub-MIC level inhibited the expression of MCR-1, further partly rescuing OMV alteration and attenuation of immune responses in the presence of MCR-1 during both infection and OMV stimulation, which can be exploited for anti-infective therapy.     

Low genetic diversity and population connectivity fuel vulnerability to climate change for the Tertiary relict pine Pinus bungeana

Endemic species are important components of regional biodiversity and hold the key to understanding local adaptation and evolutionary processes that shape species distributions. This study investigated the biogeographic history of a relict conifer Pinus bungeana Zucc. ex Endl. confined to central China. We examined genetic diversity in P. bungeana using genotyping-by-sequencing and chloroplast and mitochondrial DNA markers. We performed spatial and temporal inference of recent genetic and demographic changes, and dissected the impacts of geography and environmental gradients on population differentiation. We then projected P. bungeana's risk of decline under future climates. We found extremely low nucleotide diversity (average π 0.0014), and strong population structure (global F_ST 0.234) even at regional scales, reflecting long-term isolation in small populations. The species experienced severe bottlenecks in the early Pliocene and continued to decline in the Pleistocene in the western distribution, whereas the east expanded recently. Local adaptation played a small (8%) but significant role in population diversity. Low genetic diversity in fragmented populations makes the species highly vulnerable to climate change, particularly in marginal and relict populations. We suggest that conservation efforts should focus on enhancing gene pool and population growth through assisted migration within each genetic cluster to reduce the risk of further genetic drift and extinction.