加载HCMV抗原肽的HLA-A*0201单体及其四聚体制备和鉴定

细胞毒T淋巴细胞(CTL)在控制病原体感染以及抗肿瘤过程中发挥重要作用,因而特异性CTL的检测相当重要;而过去检测CTL的方法都是间接的,最近发展起来的四聚体技术则是直接检测抗原特异性CTL的有效而特异的方法,成为目前研究T细胞免疫应答的关键技术。报道一种简化的四聚体制备程序,利用该程序成功制备加载人巨细胞病毒(HCMV)抗原肽的HLA-A2四聚体,具有特异性结合CTL活性。HLA-A*0201重链基因是通过RT-PCR方法从HLA-A2⁺供者白细胞中克隆,进而以PCR方法构建在羧基端融合生物素化酶BirA底物肽(BSP)的HLA-A*0201(A2)重链胞外区原核表达载体, A2重组蛋白在大肠杆菌中得到高表达,主要以包涵体形式存在。加载抗原肽的可溶性A2单体是A2胞外区在轻链β2微球蛋白和HLA-A2限制性HCMV pp65_495-503抗原肽(NLVPMVATV,NLV)存在时通过稀释法复性获得,以BirA对其进行生物素化,然后以阴离子交换树脂纯化,得到的纯化A2-NLV单体与Streptavidin_PE按4:08比例混合形成四聚体,结合程度在85％以上,流式细胞仪分析显示该四聚体具有与HLA-A2+供者的特异性CTL结合活性。总之,这种简化的四聚体制备程序,不仅有利于该技术的推广,为特异性T细胞免疫研究建立必要的技术平台,而且A2-NLV四聚体在临床监测CMV特异性CTL水平等方面也有应用价值。     

HLA-A*2402-BSP在大肠杆菌中的优化表达及其四聚体的制备和鉴定

HLA-A*2402是中国人群中最常见的等位基因之一,为研究该基因型人群的人巨细胞病毒(HCMV)特异性细胞毒T细胞(CTL)免疫应答,需要制备负载相应抗原肽的HLA-A*2402四聚体。以RT-PCR方法克隆HLA-A*2402重链基因的cDNA,并构建了羧基端融合生物素化酶BirA底物肽(BSP)的HLA-A*2402重链胞外域融合蛋白(HLA-A*2402-BSP)的表达载体,但该载体不能在大肠杆菌(E.coli)中有效表达HLA-A*2402-BSP融合蛋白;通过对氨基端(N端)区域编码区的密码子进行优化,构建了同义突变的HLA-A*2402-BSP表达载体,融合蛋白在E.coli中获得了高效表达。进而制备了负载HLA-A*2402限制性HCMVpp65341-349抗原肽(QYDPVAALF,QYD)的可溶性HLA-A*2402-QYD单体分子和四聚体,获得的四聚体具有与HLA-A24 供者抗原特异性CTL的结合活性,特异性CTL的频率为总CD8 T细胞的0·09%～0·37%。这些结果为进一步研究HLA-A*2402限制性的特异性CTL免疫应答规律奠定基础。     

HLA-A*2402-BSP在大肠杆菌中的优化表达及其四聚体的制备和鉴定

HLA-A^*2402是中国人群中最常见的等位基因之一,为研究该基因型人群的人巨细胞病毒（HCMV）特异性细胞毒T细胞（CTL）免疫应答,需要制备负载相应抗原肽的HLA-A^*2402四聚体。以RT-PCR方法克隆HLA-A^*2402重链基因的cDNA,并构建了羧基端融合生物素化酶BirA底物肽(BSP)的HLA-A^*2402重链胞外域融合蛋白（HLA-A^*2402-BSP）的表达载体,但该载体不能在大肠杆菌(E. coli)中有效表达HLA-A^*2402-BSP融合蛋白;通过对氨基端（N端）区域编码区的密码子进行优化,构建了同义突变的HLA-A^*2402-BSP表达载体,融合蛋白在E. coli中获得了高效表达。进而制备了负载HLA-A^*2402限制性HCMV pp65_341-349抗原肽(QYDPVAALF, QYD)的可溶性HLA-A^*2402-QYD单体分子和四聚体,获得的四聚体具有与HLA-A24⁺供者抗原特异性CTL的结合活性,特异性CTL的频率为总CD8⁺T细胞的0.09％～0.37％。这些结果为进一步研究HLA-A^*2402限制性的特异性CTL免疫应答规律奠定基础。     

HLA-A*2402-BSP在大肠杆菌中的优化表达及其四聚体的制备和鉴定

HLA-A^*2402是中国人群中最常见的等位基因之一,为研究该基因型人群的人巨细胞病毒（HCMV）特异性细胞毒T细胞（CTL）免疫应答,需要制备负载相应抗原肽的HLA-A^*2402四聚体。以RT-PCR方法克隆HLA-A^*2402重链基因的cDNA,并构建了羧基端融合生物素化酶BirA底物肽(BSP)的HLA-A^*2402重链胞外域融合蛋白（HLA-A^*2402-BSP）的表达载体,但该载体不能在大肠杆菌(E. coli)中有效表达HLA-A^*2402-BSP融合蛋白;通过对氨基端（N端）区域编码区的密码子进行优化,构建了同义突变的HLA-A^*2402-BSP表达载体,融合蛋白在E. coli中获得了高效表达。进而制备了负载HLA-A^*2402限制性HCMV pp65_341-349抗原肽(QYDPVAALF, QYD)的可溶性HLA-A^*2402-QYD单体分子和四聚体,获得的四聚体具有与HLA-A24⁺供者抗原特异性CTL的结合活性,特异性CTL的频率为总CD8⁺T细胞的0.09％～0.37％。这些结果为进一步研究HLA-A^*2402限制性的特异性CTL免疫应答规律奠定基础。     

烟曲霉抗原Asp f16HLA-A*0201限制性的CD8+CTL抗原表位生物信息学预测与实验室鉴定

目的 预测与鉴定烟曲霉抗原Asp f16的HLA-A *0201限制性CD8+细胞毒性T细胞(CTL)抗原表位.方法 以国人常见的HLA-A*0201位点为靶点,依据生物信息学软件扫描烟曲霉特异性抗原Asp f16的全部427个氨基酸序列.使用HLA-A *0201转基因小鼠制备骨髓来源的树突状细胞(DC)和CTL.流式细胞仪技术检测DC表面MHC Ⅱ类抗原,CD80,CD86和CD11c的表达来验证其是否成熟.ELISPOT试验检测烟曲霉抗原多肽特异性CTL产生的细胞因子IFN-γ.四聚体(Tetramer)试验证实烟曲霉特异性CTL与抗原肽,HLA-A*0201分子复合体的亲和性.结果 根据与MHC I类分子结合的半衰期评分,选择了3个HLA-A*0201限制性抗原表位.流式细胞仪分析示成熟DC高表达HLA Ⅱ类抗原,CD80,CD86和CD11c.Tetramer试验证实烟曲霉特异性T细胞受体与抗原肽,HLA-A*0201分子复合体的高亲和性.ELISPOT实验结果 表明烟曲霉抗原肽体外可以活化CD8+CTL,被负载了抗原肽的DC刺激活化后可以产生IFN-γ.结论 本研究成功鉴定烟曲霉抗原Asp f16的HLA-A*0201限制性CD8+CTL表位,可作为疫苗设计的候选表位,为进一步研发新型抗烟曲霉疫苗提供参考.     

T细胞表位的确定

确定抗原分子被T细胞所识别抗原分子上的短肽序列,对T细胞表位进行定位对于特异性免疫应答的调节有重要意义。由于CD4~+T细胞表位和CD8~+T细胞表位在各方面性质的诸多不同,对这两种表位进行定位所采取的策略也应该是不同的。运用所选择的效应细胞对合成肽库的筛选是对CD4~+T细胞表位进行定位的有效策略,而对于CD8~+T细胞表位定位,需要通过一些特殊的手法将抗原肽导入细胞后进一步运用效应细胞进行筛选。     

T细胞免疫在抗结核杆菌感染中的研究进展

结核分枝杆菌是引起结核病的病原体,该细菌可侵犯全身各组织器官。结核病是一种慢性传染性疾病,具有持久性特点。该细菌为胞内寄生菌,特异性免疫以细胞免疫为主,主要包括CD4+T细胞免疫和CD8+T细胞免疫。结核分枝杆菌特异性免疫应答的特点之一是感染早期T细胞免疫应答延迟。其机制与结核杆菌抑制免疫细胞(CD4+和CD8+T细胞及DC)凋亡延迟应答,通过特异性Treg细胞抑制作用延迟应答以及结核杆菌慢性感染期间存在IFN-γ信号调节网络和ESAT-6抗原的慢性刺激作用有关,以此可调节和维持免疫应答。深入了解抗原特异性T细胞特异性免疫应答的机制,有益于抗结核疫苗的研制,为临床工作提供理论依据和科学方法。     

小鼠的自身反应性T淋巴细胞系及其功能

本文报道了用同基因脾细胞和抗原在体外不断再刺激天花粉蛋白免疫过的C57BL/6J小鼠的T淋巴细胞,能刺激自身反应性的T细胞在体外增殖并长期存活。实验结果表明它们的增殖是依赖于同基因脾细胞的再刺激,C57BL/6J(H一2~b),B 10 ScSn(H-2~b)和129(H-2~b)小鼠的脾细胞都能引起它们明显的增殖,但对C3H/He(H-2~K)和Balb/c(H-2~b)小鼠的脾细胞很弱,说明识别的可能是H-2~b抗原。应用未经免疫的C 57 BL/6 J小鼠的脾和淋巴结T淋巴细胞,采用同样的体外刺激方法,未能引起它们对同基因脾细胞的增殖。从而提示自身反应性T细胞是存在于正常机体内的一种能识别自身抗原的T淋巴细胞。在无外来抗原刺激时,它们可能是处于静止或不激活状态;在外来抗原诱发免疫过程中,它们也随了抗原特异的淋巴细胞一同被激活,并可能起调节作用。它们在免疫系统中的地位还有待进一步阐明。     

Hepal-6 RNA脉冲BMDCs瘤苗抗小鼠HCC免疫效应的研究

目的观察Hepal-6RNA脉冲BMDCs瘤苗能否激发有效的机体抗肿瘤免疫反应。方法用Hepal-6RNA脉冲骨髓分离培养5d的BMDCs,瘤苗的抗肿瘤效应通过C57BL/6J小鼠肝细胞癌(HCC)模型验证,即C57BL/6J小鼠皮下接种Hepal-6细胞8d后,成瘤小鼠分为2组:对照组(注射无血清RPMI-1640)和实验组(足垫部注射Hepal-6RNA脉冲BMDCs瘤苗),30d后处死小鼠并取淋巴结、脾和瘤体冰冻切片,进行CD4、CD8、CD25和Foxp3免疫组织化学染色。结果免疫组织化学检测显示,淋巴结、脾、肿瘤内有大量CD4+T细胞、CD8+T细胞、CD25+T细胞和Foxp3+Tregs细胞浸润。与对照组小鼠比较,足垫部注射Hepal-6RNA脉冲BMDCs瘤苗的实验组小鼠淋巴结、脾、瘤内CD4+T细胞和CD8+T细胞浸润显著增加,CD25+T细胞和Foxp3+Tregs浸润明显减少。结论 Hepal-6RNA脉冲BMDCs瘤苗能下调小鼠HCC瘤内CD25+T细胞和Foxp3+Tregs浸润,促进CD4+T细胞和CD8+T细胞的增殖和活化,增强D4+T细胞、CD8+T细胞归巢至淋巴结和脾,具有抗瘤免疫效应。     

结核杆菌感染T细胞介导免疫应答研究的新进展

结核病对免疫学家构成了巨大的挑战,因为它是一种慢性传染性疾病,病原体具有持久性特点.在对人和动物进行实验时,检测到结核分枝杆菌适应性免疫应答的特点之一为感染早期T细胞免疫应答延迟.新近研究揭示了此种延迟应答的机制:通过结核杆菌抑制免疫细胞(CD4+和CD8+T细胞及DC)凋亡延迟应答,通过特异性Treg细胞抑制作用延迟应答.结核杆菌慢性感染期间存在IFNγ信号调节网络和ESAT-6抗原的慢性刺激作用,抗原特异性PD-1+ CD4+T细胞具有高度增殖分化为更多终末效应性T细胞的潜能,以此可调节和维持免疫应答.深入了解抗原特异性T细胞调节与维持适应性免疫应答的机制,有益于抗结核疫苗的设计和研制.     

Abnormal thymocyte development and production of autoreactive T cells in T cell receptor transgenic autoimmune mice.

Development of a C57BL/6-+/+ TCR transgenic mouse containing the rearranged TCR alpha- and beta-chain specific for the Db + HY male Ag results in production of a nearly monoclonal population of early thymocytes expressing the Db + HY reactive TCR. These thymocytes are autoreactive in H-2Db male mice and undergo clonal deletion and down-regulation of CD8. To study the effect of the lpr gene on development of autoreactive T cells, these transgenic mice were backcrossed with C57BL/6-lpr/lpr mice. T cell populations in the thymus and spleen were analyzed by three-color flow cytometry for expression of CD4, CD8, and TCR. The thymus of TCR transgenic H-2b/b lpr/lpr male mice had an increase in percent and absolute number of CD8dull thymocytes compared to TCR transgenic H-2b/b +/+ male mice. However, there was not a complete defect in clonal deletion, because clonal deletion and down-regulation of CD8 was apparent in both +/+ and lpr/lpr H-2Db HY+ male mice compared to H-2Db HY- female mice. The phenotype of splenic T cells was almost identical in TCR transgenic +/+ and lpr/lpr males with about 50% CD4-CD8- T cells and 50% CD8+ T cells. However, there was a dramatic increase in the SMLR proliferative response of splenic T cells from TCR transgenic lpr/lpr males compared to TCR transgenic +/+ males. To determine the specificity of this response, spleen cells from TCR transgenic lpr/lpr and +/+ mice were cultured with irradiated H-2b/b and H-2k/k male and female spleen cells. T cells from TCR transgenic C57BL/6-lpr/lpr male mice had an increased proliferative response to H-2b/b male spleen cells compared to T cells from TCR transgenic C57BL/6(-)+/+ male mice, but both lpr/lpr and +/+ mice had a minimal response to irradiated H-2b/b female or H-2k/k male or female stimulator cells. The splenic T cells from TCR transgenic lpr/lpr mice also had an increased specific cytotoxic activity against H-2b/b male target cells compared to TCR transgenic +/+ mice. These results demonstrate that there is a defect in negative selection of self-reactive T cells in the thymus of lpr/lpr mice and a defect in induction or maintenance of clonal anergy of self-reactive T cells in the periphery of lpr/lpr mice.     

Prevalent class I-restricted T-cell response to the Theiler's virus epitope Db:VP2121-130 in the absence of endogenous CD4 help, tumor necrosis factor alpha, gamma interferon, perforin, or costimulation through CD28

C57BL/6 mice mount a cytotoxic T-lymphocyte (CTL) response against the Daniel's strain of Theiler's murine encephalomyelitis virus (TMEV) 7 days after infection and do not develop persistent infection or the demyelinating syndrome similar to multiple sclerosis seen in susceptible mice. The TMEV capsid peptide VP2121-130 sensitizes H-2Db+ target cells for killing by central-nervous-system-infiltrating lymphocytes (CNS-ILs) isolated from C57BL/6 mice infected intracranially. Db:VP2121-130 peptide tetramers were used to stain CD8(+) CNS-ILs, revealing that 50 to 63% of these cells bear receptors specific for VP2121-130 presented in the context of Db. No T cells bearing this specificity were found in the cervical lymph nodes or spleens of TMEV-infected mice. H-2(b) mice lacking CD4, class II, gamma interferon, or CD28 expression are susceptible to persistent virus infection but surprisingly still generate high frequencies of CD8(+), Db:VP2121-130-specific T cells. However, CD4-negative mice generate a lower frequency of Db:VP2121-130-specific T cells than do class II negative or normal H-2(b) animals. Resistant tumor necrosis factor alpha receptor I knockout mice also generate a high frequency of CD8(+) CNS-ILs specific for Db:VP2121-130. Furthermore, normally susceptible FVB mice that express a Db transgene generate Db:VP2121-130-specific CD8(+) CNS-ILs at a frequency similar to that of C57BL/6 mice. These results demonstrate that VP2121-130 presented in the context of Db is an immunodominant epitope in TMEV infection and that the frequency of the VP2121-130-specific CTLs appears to be independent of several key inflammatory mediators and genetic background but is regulated in part by the expression of CD4.     

Ablation of "tolerance" and induction of diabetes by virus infection in viral antigen transgenic mice

To address the mechanisms of tolerance to extrathymic proteins, we have generated transgenic mice expressing the lymphocytic choriomeningitis viral (LCMV) glycoprotein (GP) in the beta islet cells of the pancreas. The fate of LCMV GP-specific T cells was followed by breeding the GP transgenic mice with T cell receptor transgenic mice, specific for LCMV and H-2Db. These studies suggest that "peripheral tolerance" of self-reactive T cells does not involve clonal deletion, clonal anergy, or a decrease in the density of T cell receptors or accessory molecules. Instead, this model indicates that self-reactive cytotoxic T cells may remain functionally unresponsive, owing to a lack of appropriate T cell activation. Infection of transgenic mice with LCMV readily abolishes peripheral unresponsiveness to the self LCMV GP antigen, resulting in a CD8+ T cell-mediated diabetes. These data suggest that similar mechanisms may operate in several so-called "T cell-mediated autoimmune diseases."     

Induction of in vivo functional Db-restricted cytolytic T cell activity against a putative phosphate transport receptor of Mycobacterium tuberculosis

Using plasmid vaccination with DNA encoding the putative phosphate transport receptor PstS-3 from Mycobacterium tuberculosis and 36 overlapping 20-mer peptides spanning the entire PstS-3 sequence, we determined the immunodominant Th1-type CD4(+) T cell epitopes in C57BL/10 mice, as measured by spleen cell IL-2 and IFN-gamma production. Furthermore, a potent IFN-gamma-inducing, D(b)-restricted CD8(+) epitope was identified using MHC class I mutant B6.C-H-2(bm13) mice and intracellular IFN-gamma and whole blood CD8(+) T cell tetramer staining. Using adoptive transfer of CFSE-labeled, peptide-pulsed syngeneic spleen cells from naive animals into DNA vaccinated or M. tuberculosis-infected recipients, we demonstrated a functional in vivo CTL activity against this D(b)-restricted PstS-3 epitope. IFN-gamma ELISPOT responses to this epitope were also detected in tuberculosis-infected mice. The CD4(+) and CD8(+) T cell epitopes defined for PstS-3 were completely specific and not recognized in mice vaccinated with either PstS-1 or PstS-2 DNA. The H-2 haplotype exerted a strong influence on immune reactivity to the PstS-3 Ag, and mice of the H-2(b, p, and f) haplotype produced significant Ab and Th1-type cytokine levels, whereas mice of H-2(d, k, r, s, and q) haplotype were completely unreactive. Low responsiveness against PstS-3 in MHC class II mutant B6.C-H-2(bm12) mice could be overcome by DNA vaccination. IFN-gamma-producing CD8(+) T cells could also be detected against the D(b)-restricted epitope in H-2(p) haplotype mice. These results highlight the potential of DNA vaccination for the induction and characterization of CD4(+) and particularly CD8(+) T cell responses against mycobacterial Ags.     

A recombinant malaria protein that can induce Th1 and CD8+ T cell responses without antibody formation.

Inbred strains of mice were immunized with p190-3, a 38-kDa recombinant protein derived from p190, a major merozoite surface Ag of the malaria parasite Plasmodium falciparum. Ag-specific proliferative T cell responses were obtained in H-2b, H-2d, and H-2k mouse strains. Surprisingly, mice of the H-2b haplotype (e.g., C57BL/6) did not give a measurable antibody response to the recombinant protein administered in Freund's adjuvant, but CD8+/CD4- as well as CD4+/CD8- T cells specific for p190-3 could be obtained after in vivo priming and in vitro selection with Ag. Distinct epitopes of p190-3 recognized by the CD8+ and CD4+ T cells from C57BL/6 mice were identified. The CD8+ T cells could kill H-2b APC in the presence of the appropriate epitope-containing peptide. The p190-3-specific CD4+ cells isolated from C57BL/6 mice were of the Th1 type. In contrast, Th2 cells, but no CD8+ T cells were present in a p190-3-specific line from BALB/c mice, which give good antibody responses to p190-3.     

Visualization of polyoma virus-specific CD8+ T cells in vivo during infection and tumor rejection.

T cells are critical for clearing infection and preventing tumors induced by polyoma virus, a natural murine papovavirus. We previously identified the immunodominant epitope for polyoma virus-specific CTL in tumor-resistant H-2k mice as the Dk-restricted peptide, MT389-397, derived from the polyoma middle T oncoprotein. In this study, we developed tetrameric Dk complexes containing the MT389-397 peptide to directly visualize and enumerate MT389-397-specific CTL during polyoma virus infection. We found that Dk/MT389 tetramer+CD8+ T cells undergo a massive expansion during primary infection such that by day 7 postinfection these Ag-specific CD8+ T cells constitute approximately 20% of the total and approximately 40% of the activated CD8+ T cells in the spleen. This expansion of Dk/MT389 tetramer+CD8+ T cells parallels the emergence of MT389-397-specific ex vivo cytolytic activity and clearance of polyoma virus. Notably, Dk/MT389 tetramer+CD8+ T cells are maintained in memory at very high levels. The frequencies of Dk/MT389 tetramer+CD8+ effector and memory T cells in vivo match those of CD8+ T cells producing intracellular IFN-gamma after 6-h in vitro stimulation by MT389-397 peptide. Consistent with preferential Vbeta6 expression by MT389-397-specific CD8+CTL lines and clones, Dk/MT389 tetramer+CD8+ T cells exhibit biased expression of this Vbeta gene segment. Finally, we show that Dk/MT389 tetramer+CD8+ T cells efficiently infiltrate a polyoma tumor challenge to virus-immune mice. Taken together, these findings strongly implicate virus-induced MT389-397-specific CD8+ T cells as essential effectors in eliminating polyoma-infected and polyoma-transformed cells in vivo.     

Biology of cloned cytotoxic T lymphocytes specific for lymphocytic choriomeningitis virus. I. Generation and recognition of virus strains and H-2b mutants

Cytotoxic T lymphocytes (CTL) were induced in C57BL/6 and (C57BL/6 X DBA/2)F1 mice after immunization with the Armstrong strain of lymphocytic choriomeningitis virus (LCMV-Arm) and were cloned by limiting dilution in vitro. The cytotoxic activity of these clones was LCMV specific and H-2 restricted. All clones induced in C57BL/6 (H-2b) mice with LCMV-Arm lysed target cells infected with each of five distinct strains of LCMV (Arm, Traub , WE, Pasteur, and UBC ), suggesting recognition of common regions of viral proteins in association with H-2b molecules. In contrast, one clone obtained from (B6 X D2)F1 mice and restricted to the H-2d haplotype only lysed cells infected with one of three strains of virus (Arm, Traub , WE) but not two others (Pasteur, UBC ), suggesting recognition of variable regions of viral proteins in the context of H-2d molecules. To assess the fine specificity for H-2 molecules, we tested H-2Kb-restricted CTL clones for their ability to kill LCMV-infected target cells bearing mutations in their H-2Kb, and we tested clones presumed to be restricted to the H-2Db region for their ability to all LCMV targets cells bearing a mutation in the H-2Db region. Several different patterns of killing of the mutant targets were observed, indicating that a number of different epitopes on the H-2b molecules were used as restricting determinants for LCMV antigen recognition by CTL. Thus, cross-reactive viral determinants were recognized in the context of several different restricting determinants. Mutations in the N or C1 domains of the H-2 molecule affected recognition by a single LCMV specific CTL clone. One implication of this result is that CTL recognize a conformational determinant on the H-2 molecule formed by the association of virus antigen(s) with H-2. An alternate explanation is that one site on the H-2 molecule is involved in the interaction of viral antigens with H-2, whereas another may serve as a binding site for the CTL receptor.     

The LCMV gp33-specific memory T cell repertoire narrows with age

ABSTRACT: BACKGROUND: The memory response to LCMV in mice persists for months to years with only a small decrease in the number of epitope specific CD8 T cells. This long persistence is associated with resistance to lethal LCMV disease. In contrast to studies focused on the number and surface phenotype of the memory cells, relatively little attention has been paid to the diversity of TCR usage in these cells. CD8+ T cell responses with only a few clones of identical specificity are believed to be relatively ineffective, presumably due to the relative ease of virus escape. Thus, a broad polyclonal response is associated with an effective anti-viral CD8+ T cell response. RESULTS: In this paper we show that the primary CD8+ T cell response to the LCMV gp33-41 epitope is extremely diverse. Over time while the response remains robust in terms of the number of gp33-tetramer+ T cells, the diversity of the response becomes less so. Strikingly, by 26 months after infection the response is dominated by a small number TCRbeta sequences. In addition, it is of note the gp33 specific CD8+ T cells sorted by high and low tetramer binding populations 15 and 22 months after infection. High and low tetramer binding cells had equivalent diversity and were dominated by a small number of clones regardless of the time tested. A similar restricted distribution was seen in NP396 specific CD8+ T cells 26 months after infection. The identical TCRVbeta sequences were found in both the tetramerhi and tetramerlo binding populations. Finally, we saw no evidence of public clones in the gp33-specific response. No CDR3 sequences were found in more than one mouse. CONCLUSIONS: These data show that following LCMV infection the CD8+ gp33-specific CD8 T cell response becomes highly restricted with enormous narrowing of the diversity. This narrowing of the repertoire could contribute to the progressively ineffective immune response seen in aging.     

Immunobiology of cytotoxic T-cell escape mutants of lymphocytic choriomeningitis virus.

Infection with virus variants exhibiting changes in the peptide sequences defining immunodominant determinants that abolish recognition by antiviral cytotoxic T cells (CTL) presents a considerable challenge to the antiviral T-cell immune system and may enable some viruses to persist in hosts. The potential importance of such variants with respect to mechanisms of viral persistence and disease pathogenesis was assessed by infecting adult mice with variants of lymphocytic choriomeningitis virus (LCMV) strain WE. These variants were selected in vivo or in vitro for resistance to lysis by CD8+ H-2b-restricted antiviral CTL. The majority of anti-LCMV CTL in infected H-2b mice recognize epitopes defined by residues 32 to 42 and 275 to 289 (epitopes 32-42 and 275-289) of the LCMV glycoprotein or 397 to 407 of the viral nucleoprotein. The 8.7 variant exhibits a change in the epitope 32-42 (Val-35-->Leu), and variant CL1.2 exhibits a change in the epitope 275-289 (Asn-280-->Asp) of the wild-type LCMV-WE. The double-mutated 8.7-B23 variant had the variation of 8.7 and an additional change located in the epitope 275-289 (Asn-280-->Ser). The 8.7 variant peptide with unchanged anchor positions bound efficiently to H-2Db and H-2Kb molecules but induced only a very weak CTL response. CTL epitope 275-289 of CL1.2 and 8.7-B23 altered at predicted anchor residues were unable to bind Db molecules and were also not recognized by antiviral CTL. Infection of C57BL/6 mice (H-2b) with the variants exhibiting mutations of one of the CTL epitopes, i.e., 8.7 or CL1.2, induced CTL responses specific for the unmutated epitopes comparable with those induced by infection with WE, and these responses were sufficient to eliminate virus from the host. In contrast, infection with the double-mutated variant 8.7-B23 induced CTL activity that was reduced by a factor of about 50-fold compared with wild-type LCMV. Consequently, high doses (10(7) PFU intravenously) of this virus were eliminated slowly and only by about day 100 after infection. 8.7-B23 failed to cause lethal lymphocytic choriomeningitis after intracerebral infection with a dose of > 10(4) PFU in C57BL/6 mice (but not in mice of nonselecting H-2d haplotype); with the other variants or wild-type LCMV, doses greater than 10(6) to 10(7) PFU were necessary to avoid lethal choriomeningitis.(ABSTRACT TRUNCATED AT 400 WORDS)     

In vivo selection of a lymphocytic choriomeningitis virus variant that affects recognition of the GP33-43 epitope by H-2Db but not H-2Kb

CD8 T cells drive the protective immune response to lymphocytic choriomeningitis virus (LCMV) infection and are thus a determining force in the selection of viral variants. To examine how escape mutations affect the presentation and recognition of overlapping T-cell epitopes, we isolated an LCMV variant that is not recognized by T-cell receptor (TCR)-transgenic H-2Db-restricted LCMV GP33-41-specific cytotoxic T lymphocytes (CTL). The variant virus carried a single-amino-acid substitution (valine to alanine) at position 35 of the viral glycoprotein. This region of the LCMV glycoprotein encodes both the Db-restricted GP33-43 epitope and a second epitope (GP34-42) presented by the Kb molecule. We determined that the V-to-A CTL escape mutant failed to induce a Db GP33-43-specific CTL response and that Db-restricted GP33-43-specific CTL induced by the wild-type LCMV strain were unable to kill target cells infected with the variant LCMV strain. In contrast, the Kb-restricted response was much less affected. We found that the V-to-A substitution severely impaired peptide binding to Db but not to Kb molecules. Strikingly, the V-to-A mutation did not change any of the anchor residues, and the dramatic effect on binding was therefore unexpected. The strong decrease in Db binding explains why the variant virus escapes the Db GP33-43-specific response but still elicits the Kb-restricted response. These findings also illustrate that mutations within regions encoding overlapping T-cell epitopes can differentially affect the presentation and recognition of individual epitopes.