多聚精氨酸融合增强型绿色荧光蛋白制备方法及穿膜效果

为了方便细胞穿膜肽R9融合蛋白的可溶性表达及功能上的研究,构建了pSUMO (小分子泛素样修饰蛋白) -R9-EGFP (增强型绿色荧光蛋白) 原核表达载体。分别纯化EGFP及R9-EGFP蛋白后,作用于HepG2,细胞经流式细胞仪及激光共聚焦检测R9细胞穿膜肽的作用效果。实验结果显示在SUMO分子伴侣的作用下,R9-EGFP融合蛋白获得可溶性表达。经流式细胞仪检测,R9细胞穿膜肽可以快速有效的携带目的蛋白进入细胞内部且呈时间、剂量依赖性,大约1.5 h以后荧光强度进入平台期。共聚焦显微镜检测结果表明R9细胞穿膜肽可以有效携带EGFP进入HepG2细胞,并显示主要聚集在细胞浆内。同时体外经肝素抑制实验显示,肝素抑制R9-EGFP穿膜的效率达到50％。这些结果表明,可以利用pSUMO-R9/Ni-NTA表达纯化系统,快速、有效地表达出可溶性多聚精氨酸融合蛋白,同时R9细胞穿膜肽可以有效地携带目的蛋白进入细胞内,为进一步研究多聚精氨酸的穿膜机制提供了基础。     

TAT蛋白转导结构域介导融合蛋白在小鼠活体的跨膜递送作用

目的探讨跨膜递送短肽——TAT蛋白转导结构域(简称TAT)介导的与其融合的活性蛋白在活体的跨膜递送作用。方法以融合蛋白GST-TAT-GFP,GST-GFP-TAT和GST-GFP为研究模型蛋白,不经过蛋白质的变性处理、直接通过向小鼠腹腔注射和皮肤涂抹这两种含TAT的融合蛋白及作为对照的融合蛋白GST-GFP,一定时间作用后取体内器官和皮肤做冷冻切片,荧光显微镜检测这些融合蛋白的跨膜递送情况;并对分别融合在C端或者N端的TAT介导GFP在活体动物体内和皮肤的跨膜递送作用进行对比。结果腹腔注射实验结果表明,TAT可以介导不经过蛋白质的变性处理的融合蛋白GST-TAT-GFP和GST-GFP-TAT跨膜递送进入到小鼠的心脏、肝、肾、脾和肺,甚至脑组织;其中GST-GFP-TAT跨膜递送效率比GST-TAT-GFP更高。结构模拟分析提示GST-GFP-TAT与GST-TAT-GFP中的TAT的暴露情况不同可能是造成两种蛋白跨膜递送活性差异的重要因素。皮肤实验的结果则表明TAT不仅介导融合蛋白GST-TAT-GFP和GST-GFP-TAT进入小鼠表皮,而且使其进入小鼠皮肤的真皮层。结论 TAT可以跨膜递送不经过变性处理的融合蛋白进入小鼠皮肤和体内,递送效率可能与TAT的暴露程度相关;这些结果为在蛋白质疗法方面应用TAT提供了进一步的理论依据。     

细胞穿膜肽的研究进展

细胞穿膜肽是一类能携带大分子物质进入细胞的短肽,其穿膜能力不依赖经典的胞吞作用。经过对天然存在的细胞穿膜肽的生物化学性质研究,已经逐渐掌握了细胞穿膜肽的一些共有特性,这类物质均为带有正电荷的长短不等的多肽片段,其中富含精氨酸、赖氨酸等碱性氨基酸残基,二级结构皆具有α-螺旋的空间构象。利用这些特性,目前已人工合成了穿透力更强、效率更高的穿膜肽PEP-1、MPG,并且成功地携带大分子物质进入细胞发挥生物学活性。     

穿膜肽的结构特点和穿膜机制

穿膜肽（penetratin）是果蝇的触角足同源异形域的DNA结合结构域第三个片段的商品名,由16个氨基酸残基组成,它可以介导多种疏水大分子进入活体细胞质内而不破坏细胞膜的完整性;其最大的特点是可以介导多种大分子进入细胞内,并且无需外源能量,分子作为整体插入细胞内,穿膜过程不需解折叠。该发现开辟了药物进入细胞的新的介导途径。该文介绍穿膜肽的结构特点、穿膜机制、应用及局限性。     

穿膜肽的研究现状及应用

以细胞内物质为靶标的药物(大分子、蛋白质、多肽及核酸)只有穿透细胞膜才能进一步发挥其药效。细胞穿透多肽(穿膜肽)是由少于30个氨基酸残基组成的小肽,它们能够通过与细胞膜相互作用而穿透细胞膜这一天然屏障。穿膜肽大致分为宿主防御肽、基于信号序列的穿膜肽和富含精氨酸的穿膜肽;穿膜肽进入细胞的机制尚未完全阐明,存在倒置微团模型、地毯式模型及打孔模型等假说。穿膜肽能够携带各种物质进入细胞的特性受到人们的关注。我们就穿膜肽的种类、穿膜机制,及其在生物影像学和生物递送系统中的应用做一综述。     

穿膜肽的内化机制及其应用

穿膜肽是一类具有特殊穿膜功能的多肽分子,能携带其它分子甚至超分子颗粒穿膜进入细胞内部．早期研究认为,其进胞是一种无需受体、也不存在饱和状态的非经典胞吞行为．近年研究表明,其穿膜机制可能与其含有的氨基酸种类有很大关系．现在,穿膜肽的穿膜过程称为巨型胞饮行为,它与传统的胞吞形式很相似．当然,还可能存在着其它的进胞方式而没有被证明或发现．关于穿膜肽的应用也是人们最感兴趣的,在很多领域的研究都在进行并不断取得进展．不论是生物界还是医学界,穿膜肽都被认为将是一类非常有发展潜力的多肽分子．     

细胞穿膜肽的穿膜活性与序列特征的关系

细胞穿膜肽(cell penetrating peptides,CPPs)是一种小分子多肽,能够容易地穿过细胞膜.这类分子,尤其是具有靶向功能的CPPs为高效率投送药物到靶细胞带来希望.因此,对其展开研究对于生物医学有着一定的意义.本工作主要从序列水平对具有不同穿膜活性的CPPs进行研究,试图找出影响CPPs穿膜活性的因素,以及不同活性CPPs与非穿膜肽(Non CPPs)序列上的差异,并引入一种分析生物序列的方法.我们基于CPPsite数据库和不同的文献获取CPPs和Non CPPs序列,并进一步从CPPs序列中提取具有高、中、低穿膜活性的穿膜肽(HCPPs、MCPPs、LCPPs)用于构建数据集.基于这些数据集,开展了以下研究:首先,利用方差分析的方法,对不同活性的CPPs以及Non CPPs的氨基酸及二级结构组成进行分析,发现氨基酸的静电与疏水相互作用对CPPs的穿膜活性起到了重要影响,同时螺旋结构和无规卷曲也会影响CPPs的穿膜活性;其次,使用理化性质与长度将不同活性的CPPs展示在二维平面上,发现在某些特殊的性质下不同活性的CPPs与Non CPPs可以产生聚簇现象,HCPPs、MCPPs以及LCPPs和Non CPPs被分成了三簇,这种现象显示了它们之间的差异;最后,本文引入了生物序列理化质心的概念,将组成序列的残基看作质点,进而把序列抽象成质点系进行研究,并将此方法应用到CPPs的分析中,通过PCA方法将不同活性的CPPs投射到三维平面上,结果发现绝大部分CPPs聚在一起,部分LCPPs与Non CPPs聚在一起.此工作对于CPPs的设计,以及理解不同活性CPPs序列上的差异具有一定的意义.另外,本文引入的生物序列理化质心的分析方法也可以用于其他生物问题的分析,同时它们可以作为某些生物分类问题的输入参数,在模式识别中起到一定的作用.     

来自穿膜肽的新肽的抗菌活性及抑菌机制

[目的]研究基于穿膜肽和抗菌肽构效关系改造获得的新肽P7的抗菌活性及其对大肠杆菌(E.coli)的抑菌机制.[方法]微量稀释法和溶血实验分析P7的抑菌活性及其对正常细胞的细胞毒性;采用膜荧光探针、流式细胞术和扫描电镜分析P7对E.coli膜通透性、膜完整性的影响和细胞超微结构变化;通过激光共聚焦分析P7在E.coli细胞中的定位;凝胶阻滞实验测定P7与E.coli基因组DNA结合能力.[结果]P7比母肽显示更强的抑菌活性,最低抑菌浓度范围为4-32 μmol/L,且在作用浓度范围内具有较弱的溶血活性.P7可以增加E.coli外膜和内膜的通透性,使E.coli细胞膜的完整性和细胞表面结构受损.同时P7可以穿过E.coli细胞膜在细胞质聚集并与基因组DNA结合.[结论]P7通过增加E.coli内外膜通透性,穿过细胞膜与胞内DNA结合发挥抑菌活性.     

TAT蛋白转导肽介导的秀丽线虫体内外源蛋白的跨膜转导研究

TAT蛋白转导肽是HIV-1病毒编码的一段富含碱性氨基酸序列的多肽,能够高效介导多种外源生物大分子通过多种膜性结构,如细胞质膜和血脑屏障等。为探索TAT蛋白转导肽介导的秀丽线虫体内外源蛋白跨膜转导作用,以EGFP为报告基因结合常规分子克隆技术构建了原核表达载体pET28b-EGFP和pET28-TAT-EGFP,继而利用诱导剂IPTG(终浓度1mmol/L)诱导表达了靶蛋白并结合荧光显微观察、SDS-PAGE和Western blot等鉴定技术获得表达靶蛋白的大肠杆菌BL21(DE3)细胞,最后将其涂布到含有Kana⁺的LB固体培养基上直接饲喂野生型N2株系线虫,利用荧光显微镜观察绿色荧光信号在线虫体内的分布。结果证明,TAT-EGFP融合蛋白较之于EGFP可高效、可溶性表达,而且通过直接饲喂秀丽线虫表达靶蛋白的大肠杆菌48小时后,TAT-EGFP荧光信号明显分布于线虫肠壁细胞,而EGFP荧光信号则分布在秀丽线虫肠腔,空载体对照组未见任何荧光信号,说明TAT蛋白转导肽能够高效介导外源蛋白在秀丽线虫体内跨膜转导。同时,通过比较空载体对照组与实验组线虫微分干涉图像,未见线虫出现明显的细胞形态变化,说明TAT蛋白转导肽介导的外源蛋白跨膜转导作用是安全的,为在秀丽线虫体内直接研究外源蛋白的功能以及进行蛋白药物的研发提供了重要参考。     

穿膜肽-LacI HPM载体的构建及其DNA结合活性测定

目的：借助穿膜肽TAT高效跨膜的特性和LacI前头肽突变体（LacI HPM）高亲和力结合DNA的特性,构建新型基因转导载体。方法：PCR扩增LacI、Lacl基因前头肽序列、前头肽序列突变体、TAT序列的编码基因,构建前头肽序列突变体和TAT的原核表达载体,可溶性表达TAT-LacI HPM融合蛋白并纯化,在缇冲液中氧化获得TAT-LacI HPM二聚体并浓缩,PCR检测二聚体融合蛋白与质粒的体外结合能力。结果：获得了pET-28a（-4-）-LacI HPM及pET-28a（＋）-TAT-LacI HPM表达质粒,表达纯化并获得二聚化融合蛋白,体外结合实验确定TAT-Lac／HPM二聚体融合蛋白与检测质粒DNA具有特异的高亲和力结合活性。结论：构建了穿膜呔TAT-LacI HPM,为进一步研究其作为新型DNA转运载体的可行性奠定了基础。     

莫扎特K448奏鸣曲高频段声波对小鼠抑郁模型干预治疗的分析

目的 建立C57BL/6小鼠抑郁模型,初步探究莫扎特K448奏鸣曲中的高频段声波改善C57BL/6小鼠抑郁症状的效果。方法 1)慢性应激模型的建立:小鼠依据自主活动实验结果剔除活动次数差异较大者,其余分为空白组(n=10)、模型组(n=36),模型组经历5周慢性温和不可预知刺激(chronic unpredictable and mildstress,CUMS),建立小鼠抑郁模型。(2)治疗干预:造模成功后,将模型组小鼠随机均衡分为模型对照组(n=12)、氟西汀组(n=12)和音乐组(n=12)。氟西汀组每天腹腔注射盐酸氟西汀溶液(10 mg/kg),其余两组注射等量的生理盐水。音乐组每天进行2 h高频音乐干预,其余两组不进行音乐干预。干预持续2周。(3)效果评价:实验前3 d及实验中每周称量体重并记录,实验第1周、第5周、第7周进行悬尾实验(tail suspension test,TST)和强迫游泳实验(forced swimming test,FST)。第7周行为学实验结束后,取小鼠脑组织制备匀浆,通过酶联免疫吸附法(enzymelinked immunosorbent assay,ELISA)测定脑源性神经营养因子(brain derived neurotrophic factor,BDNF)含量。结果1)成功构建CUMS小鼠模型。第5周模型组小鼠悬尾不动时间明显增加,差异有显著性(P<0.01),强迫游泳不动时间增加,差异有显著性(P<0.05)。(2)氟西汀组与模型对照组相比,悬尾实验不动时间明显缩短,差异有显著性(P<0.01),强迫游泳实验不动时间缩短,差异无显著性(P>0.05);音乐组与模型对照组相比,悬尾不动时间缩短,差异有显著性(P<0.05),强迫游泳实验不动时间无明显改变,差异无显著性(P>0.05)。模型对照组与空白组小鼠相比,脑组织匀浆中的BDNF含量明显降低,差异有显著性(P<0.01);氟西汀组与模型对照组相比,脑组织匀浆中的BDNF含量明显回升,差异有显著性(P<0.01),但音乐组与模型对照组相比,其差异无显著性(P>0.05)。结论 莫扎特K448奏鸣曲高频段声波可一定程度优化小鼠抑郁模型的治疗作用。     

Muscle adenine nucleotide metabolism during and in recovery from maximal exercise in humans.

The relationship between changes in the muscle total adenine nucleotide pool (TAN = ATP + ADP + AMP) and IMP during and after 30 s of sprint cycling was examined. Skeletal muscle samples were obtained from the vastus lateralis muscle of seven untrained men (23. 9 +/- 2.3 yr, 74.4 +/- 3.6 kg, and 55.0 +/- 2.9 ml. kg(-1). min(-1) peak oxygen consumption) before and immediately after exercise and after 5 and 10 min of passive recovery. The exercise-induced increase in muscle IMP was linearly related to the decrease in muscle TAN (r = -0.97, P < 0.01), and the slope of this relationship (-0.83) was not different from 1.0 (P > 0.05), indicating a 1:1 stoichiometric relationship. This interpretation must be treated cautiously, because all subjects displayed a greater decrease in TAN compared with the increase in IMP content, and the TAN + IMP + inosine + hypoxanthine content was lower (P < 0.05) immediately after exercise compared with during rest. During the first 5 min of recovery, the increase in TAN was not correlated with the decrease in IMP (r = -0.18, P > 0.05). In all subjects, the magnitude of TAN increase was higher than the magnitude of IMP decrease over this recovery period. In contrast, the increase in TAN was correlated with the decrease in IMP throughout the second 5 min of recovery (r = -0.80, P < 0.05), and it was a 1:1 stoichiometric relationship (slope = -1.12). These data indicate that a small proportion of the TAN pool was temporarily lost from the muscle purine stores during sprinting but was rapidly recovered after exercise.     

Ammonia removal from freshwater using nitrifying bacteria enriched from a seawater aquaculture pond

Intensively cultured fish stock when fed protein-rich feeds typically excrete high concentrations of total ammoniacal-nitrogen (TAN) into the water column which can have adverse effects on productivity, and upon the environment when aquaculture water is discharged. An immobilized culture of nitrifying bacteria isolated from prawn pond water and known to effectively remove TAN from saline water was tested for its ability to remove TAN from freshwater. The culture was readily adaptable to non-saline conditions and maintained TAN at less than 0.25 mg l^–1, even with a daily addition of 3.2 to 4.2 mg TAN l^–1 per d. The use of the immobilized culture of nitrifying bacteria represents an innovative and economical in situ treatment technology for removal of TAN in both saline and freshwater.     

A novel three-stage seaweed (Ulva lactuca) biofilter design for integrated mariculture

Seaweed biofilters have proven their usefulness in the treatment of fishpond effluents. However, their performance poses a dilemma: TAN (Total Ammonia N) uptake rate – and with it seaweed yield and protein content – is inversely proportional to TAN uptake efficiency. The ideal for a seaweed biofilter performance would be a high uptake rate together with high uptake efficiency. The novel three-stage seaweed biofilter design described here has solved this dilemma. The design used the finding that the performance of seaweed ponds depended on the flux of TAN through them, and that therefore effluents with reduced TAN concentration could provide the seaweed with a high TAN flux if the water flow increased proportionally. Effluents from a seabream fishpond were passed through a series of three successively smaller (25, 12.5 and 6.25 m², respectively) air-agitated Ulva lactuca ponds. The diminished inflow TAN concentrations to the second and third ponds of the biofilter system were compensated for by the increased water exchange rates, inversely proportional to their sizes. The biofilter performance was evaluated under several TAN loads. TAN was efficiently removed (85–90%), at a high areal rate (up to 2.9 g N m^-2 d^-1) while producing high protein U. lactuca (up to 44% dw) in all three stages, although with mediocre yields (up to 189 g fresh m^-2 d^-1). Performance of each seaweed biofilter pond correlated not with TAN concentration, but with areal TAN loads. The novel three-stage design provides significant functional and economic improvements in seaweed biofiltration of intensive fishpond water.     

Heterotrophic bacterial production on solid fish waste: TAN and nitrate as nitrogen source under practical RAS conditions

The drumfilter effluent from a recirculation aquaculture system (RAS) can be used as substrate for heterotrophic bacteria production. This biomass can be re-used as aquatic feed. RAS effluents are rich in nitrate and low in total ammonia nitrogen (TAN). This might result in 20% lower bacteria yields, because nitrate conversion into bacteria is less energy efficient than TAN conversion. In this study the influence of TAN concentrations (1, 12, 98, 193, 257mgTAN/l) and stable nitrate-N concentrations (174+/-29mg/l) on bacteria yields and nitrogen conversions was investigated in a RAS under practical conditions. The effluent slurry was supplemented with 1.7gC/l sodium acetate, due to carbon deficiency, and was converted continuously in a suspended bacteria growth reactor (hydraulic retention time 6h). TAN utilization did not result in significantly different observed yields than nitrate (0.24-0.32gVSS/gC, p=0.763). However, TAN was preferred compared to nitrate and was converted to nearly 100%, independently of TAN concentrations. TAN and nitrate conversions rates were differing significantly for increasing TAN levels (p<0.000 and p=0.012), and were negatively correlated. It seems, therefore, equally possible to supply the nitrogenous substrate for bacteria conversion as nitrate and not as TAN. The bacteria reactor can, as a result, be integrated into an existing RAS as end of pipe treatment.     

Genetic Adaptation to Elevated Carbon Dioxide Atmospheres by Pseudomonas-Like Bacteria Isolated from Rock Cod (Sebastes spp.)

The microorganisms on rock cod fillets stored in a modified atmosphere (MA; 80% CO₂-20% air) at 4°C for 21 days were isolated. Only Lactobacillus sp. (71 to 87%) and tan-colored Pseudomonas sp.-like isolates (TAN isolates) were found. The TAN isolates grew more slowly in MA than in air at 8°C. When TAN isolates were grown in air at 8°C and then transferred to MA at 8°C, there was an initial decline in viable counts for 10 to 30 h followed by exponential growth. During this exponential growth phase in MA, the growth rates of the TAN isolates from MA-stored fish were significantly greater than those of the TAN isolates from fresh fish. When a TAN isolate from fresh fish was grown under MA for 21 days, it then grew as rapidly under MA as isolates from MA-stored fish. These results suggest that the TAN isolates genetically adapt to high levels of CO₂.     

Interactive effect of ammonia and crowding stress on ion-regulation and expression of immune-related genes in juvenile turbot (Scophthalmus maximus)

The present study was to investigate the interactive effect of ammonia and crowding stress on ion-regulation and expression of immune-related genes in juvenile turbot (Scophthalmus maximus). The fish were exposed to four total ammonia nitrogen (0, 5, 20, 40 mg/L TAN) and two stocking density. After 96 h of exposure, blood, gill, and liver samples were collected to measure biochemical parameters and mRNA levels of immune-related genes. The results showed that co-exposure to high TAN (20 and 40 mg/L) and high density significantly increased plasma sodium (Na⁺), gill Na⁺/K⁺-ATPase activity and mRNA levels. Following individual and combined exposure to high TAN and high density, the heat shock protein 70 (HSP 70), HSP 90, tumor necrosis factor-α (TNF-α), and interleukin-1β (IL-1β) genes expression were obviously higher than their control. Conversely, the lysozyme (LZM) and hepcidin mRNA levels were down-regulated in liver of fish exposed to high TAN alone and combination of high TAN-density. Moreover, glutathione S-transferase (GST) mRNA levels significantly increased in treatments with individual high TAN and high density, but decreased in high TAN-density co-exposed fish. Overall, ion homeostasis and immune status were adversely influenced in high exposed turbot under high density.     

Tumor-associated neutrophils (TAN) develop pro-tumorigenic properties during tumor progression

The role and characteristics of tumor-associated neutrophils (TAN) in cancer are poorly defined. We have recently shown that TAN can have anti-tumorigenic (N1) or pro-tumorigenic (N2) functions. An interesting unanswered question is how the phenotype of TAN is influenced by the ongoing evolvement of tumor microenvironment. We therefore studied the phenotype and effects of TAN at different time points during tumor progression. We used two models of murine tumor cancer cell lines—Lewis lung carcinoma (LLC) and AB12 (mesothelioma). Neutrophils were studied at early and late stages and compared to each other and to neutrophils from bone marrow/periphery of naïve mice. Although there was no difference in the number of neutrophils entering the tumor, we found that at early stages of tumor development, neutrophils were almost exclusively at the periphery of the tumor. Only at later stages, neutrophils were also found scattered among the tumor cells. We further found that TAN from early tumors are more cytotoxic toward tumor cells and produce higher levels of TNF-α, NO and H₂O₂. In established tumors, these functions are down-regulated and TAN acquire a more pro-tumorigenic phenotype. In line with this phenotype, only depletion of neutrophils at later stages of tumor development inhibited tumor growth, possibly due to their central location in the tumor. Our work adds another important layer to the understanding of neutrophils in cancer by further characterizing the changes in TAN during time. Additional research on the functional role of TAN and differences between subsets of TAN is currently underway.     

A novel Tel1/ATM N-terminal motif, TAN, is essential for telomere length maintenance and a DNA damage response

Tel1/ATM, a conserved phosphatidylinositol 3-kinase-related kinase (PIKK), acts in the response to DNA damage and regulates telomere maintenance. PIKK family members share an extended N-terminal region of low sequence homology. Sequence alignment of the N terminus of Tel1/ATM orthologs revealed a conserved, novel motif we term TAN (for Tel1/ATM N-terminal motif). Point mutations in conserved residues of the TAN motif resulted in telomere shortening, and its deletion caused the same short telomere phenotype as complete deletion of Tel1 did. Overexpressing Tel1 TAN mutants did not rescue telomere shortening. The TAN motif was also essential for the function of Tel1 in the response to DNA damage, as TAN-deleted Tel1 was indistinguishable from the complete lack of Tel1 in causing reduced viability and signaling through Rad53 upon DNA damage. Strikingly, TAN deletion reduced recruitment of Tel1 to a double-strand DNA break. Together, these results define a conserved sequence motif within an otherwise poorly defined region of the Tel1/ATM kinase family proteins that is essential for normal Tel1 function in Saccharomyces cerevisiae.     

The polymethoxylated flavone,Tangeretin improves cognitive memory in rats experiencing a single episode of prolonged post-traumatic stress

Post-traumatic stress disorder (PTSD) is a stress-related psychiatric/mental condition. Tangeretin (TAN), a major polymethoxylated flavone of citrus plants, exhibits anti-inflammatory and neuroprotective activities. However, whether TAN leads to cognitive improvement in PTSD patients remains unclear. In the present study, we explored whether TAN improved cognitive impairment induced in rats by single prolonged stress (SPS episode mimicking PTSD induction) and determined whether TAN reversed reductions in dopamine (DA) and serotonin (5-HT) levels. Rats were intraperitoneally injected with TAN for 14 consecutive days after the SPS, which had induced cognitive deficits evident in the object recognition task and the Morris water maze test; the impairments were improved by TAN (100?mg/kg). TAN rescued the neurochemical abnormalities and the SPS-induced decreases in DA and 5-HT levels in the hippocampus and amygdala. These effects may be attributable in part to induction of hippocampal genes encoding tyrosine hydroxylase and tryptophan hydroxylase-1. Our results support the idea that rats with PTSD exhibit changes in DAergic and serotonergic transmission and in memory impairment. Thus, TAN mediated reversal of memory-related behavioral dysfunction associated with traumatic stress may be a useful therapeutic intervention in PTSD patients.