Comparative analysis of the CD8(+) T cell repertoires of H-2 class I wild-type/HLA-A2.1 and H-2 class I knockout/HLA-A2.1 transgenic mice

HHD transgenic mice which express HLA-A2.1 monochain molecules in a H-2 class I(-) context have an improved capacity to develop HLA-A2.1-restricted cytotoxic T lymphocyte (CTL) responses as compared with classical A2.1/K(b) transgenic mice, which express heterodimeric HLA-A2.1 molecules in a H-2 class I wild-type context. A detailed TCR analysis of HLA-A2.1-restricted CD8(+) T cells educated and mobilized in both strains of mice was undertaken. Focusing on TCR beta chains, comparative PCR analysis of naive and immune CD8(+) T cell repertoires were performed. In spite of lower cell surface expression of HLA class I molecules and lower overall number of CD8(+) T cells, HHD mice educate a qualitatively normally diversified CD8(+) T cell repertoire and mobilize a larger variety of CD8(+) T cells in response to HLA-A2.1-restricted antigens compared with A2.1/K(b) mice. These observations provide the molecular bases accounting for the fact that HHD mice represent the most versatile animal model currently available for preclinical studies of HLA-A2.1-restricted CTL responses.     

Measurement of cytotoxic T lymphocyte activity of human cytomegalovirus seropositive individuals by a highly sensitive coupled luminescent method

A coupled luminescent method (CLM) based on glyceraldehyde-3-phosphate dehydrogenase released from injured target cells was used to evaluate the cytotoxicity of antigen-specific HLA class I-restricted CTLs. In contrast to established methods, CLM does not require the pretreatment of target cells with radioactive or toxic labeling substances. CTLs from healthy HLA-A2 positive donors were stimulated by autologous dendritic cells (DCs) pulsed with HLA-A2 restricted HCMV-pp65 nonamer peptides. HLA-A2 positive T2 cells or autologous monocytes pulsed with HCMV-pp65 nonamer peptide served as target cells. Lysis was detected only in HCMV-pp65-pulsed target cells incubated with CTLs from seropositive donors stimulated by HCMV-pp65-pulsed DCs. After 3 days, stimulation 38% of T2 cells and 17% of monocytes were lysed at an effector to target ratio of 8:1. In conclusion, CLM represents a highly sensitive, fast, material-saving and non-toxic/non-radioactive method for the measurement of antigen-specific CTL cytotoxic activity.     

尤文肉瘤EWS-FLI1蛋白HLA-A2.1限制性CTL表位的预测、筛选及鉴定

目的预测、筛选及合成尤文肉瘤EWS-FLI1蛋白HLA-A2.1限制性细胞毒性T淋巴细胞(Cytotoxic T Lymphocyte,CTL)表位,初步鉴定EWS-FLI1表位肽。方法综合运用BIMAS、SYFPEITHI、Predep和IEDB方案对EWS-FLI1蛋白进行HLA-A~*0201限制性CTL表位的预测,应用多项式方案、量化基序方案对预测的CTL表位进行筛选,并将筛选的CTL表位与HLA-A~*0201分子进行动力学模拟,应用标准Fmoc方案合成CTL表位肽;通过表位多肽刺激CTL释放颗粒溶素的检测,以及靶细胞杀伤实验验证表位多肽的免疫效应。结果综合预测得出了8个可能的表位肽,进一步筛选确定其中4个肽为候选合成表位,应用分子动力模拟初步验证了4个候选表位肽与HLA-A2.1分子的结合力,合成的各条肽经色谱分析纯度均在98%以上,经质谱分析各肽的分子量测定值与理论值相符,颗粒溶素释放实验及靶细胞杀伤实验证实了筛选的表位均能产生刺激效应,其中,表位肽QIQLWQFLL(EWS-FLI1 304)的刺激效应最为显著。结论综合运用多个方案可提高预测效率,分子动力学模拟可初步验证表位肽与HLA-A~*0201的结合力,所合成的多肽为高纯度肽,通过免疫学实验初步鉴定了EWS-FLI1的表位。     

Enrichment and detection of live antigen-specific CD4(+) and CD8(+) T cells based on cytokine secretion

Following appropriate antigen-specific stimulation, CD4(+) and CD8(+) T lymphocytes rapidly express cytokines. Based on this stimulation-induced cytokine secretion and using cell surface affinity matrix technology we have developed a new method that permits specific, rapid and efficient detection, isolation and characterization of live antigen-specific CD4(+) and CD8(+) T lymphocytes. The power of this technique is demonstrated here for HLA-A0201-restricted influenza matrix protein peptide 58-66-specific CD8(+) cytotoxic T lymphocytes, influenza A virus- and recombinant tetanus toxin C fragment-specific Th1 cells and tetanus toxoid-specific Th2 cells.     

Eukaryotic heat shock proteins as molecular links in innate and adaptive immune responses: Hsp60-mediated activation of cytotoxic T cells

Heat shock proteins (HSP) like Hsp60, Hsp70 and gp96 act directly on antigen-presenting cells (APC), e.g. by inducing the secretion of cytokines. Here we analyzed the impact of Hsp60 on the antigen-specific activation of CD8(+) T cells in a TCR transgenic system. Hsp60 induced low amounts of IFN-gamma in the absence of antigenic peptide; however, the release of IFN-gamma is increased by a factor of 3-10 following the addition of Hsp60 to purified populations of OT-1 [ovalbumin (OVA)257-264/H2-K(b)-restricted] T cells and antigen-pulsed peritoneal exudate cells (PEC) as APC. This effect is strictly correlated with the PEC ability to produce IL-12. In contrast, antigen-specific IL-2 secretion and T cell proliferation was not changed in the presence of Hsp60. Hsp60-containing OT-1 T cell cultures produced IFN-gamma even when the number of antigenic MHC class I complexes was too low to be stimulatory and could not be detected with specific mAb. Hsp60, thus, acts as a catalyzing molecule to initiate both innate and adaptive immune responses, and its presence (e.g. during an infection with cellular destruction) has direct consequences for the activation of otherwise 'ignorant' antigen-specific T cells.     

Potent antitumor activity of a tumor-specific soluble TCR/IL-2 fusion protein

We previously have generated a single-chain T cell receptor-cytokine fusion protein (264scTCR/IL-2) comprising interleukin-2 genetically linked to a soluble HLA-A2.1-restricted TCR recognizing a peptide of human p53 protein. In this report, we show that 264scTCR/IL-2 inhibits the growth of primary tumors derived from the A375 (p53+/HLA-A2.1+) human melanoma and exhibits significantly better antitumor activity than recombinant human IL-2 alone. Moreover, treatment with 264scTCR/IL-2 results in tumor growth retardation in mice bearing large A375 tumors and other p53+/HLA-A2.1+ human tumors but does not affect tumor outgrowth of HLA-A2.1-negative tumors. This suggests that antigen targeting plays a substantial role in the efficacy of 264scTCR/IL-2 against p53+/HLA-A2+ tumors. Further, the antitumor activity of 264scTCR/IL-2 was found to be likely mediated by NK cell activation and tumor infiltration. A biologically active chimeric version of the molecule (c264scTCR/IL-2) also exhibits favorable pharmacokinetic properties required of a clinical candidate for this novel class of potent antitumor activities and targeted anticancer immunotherapeutics.     

Addition of TAT protein transduction domain and GrpE to human p53 provides soluble fusion proteins that can be transduced into dendritic cells and elicit p53-specific T-cell responses in HLA-A*0201 transgenic mice

The protein p53 has been shown to be an efficient tumour antigen in both murine and human cancer vaccine studies and cancer vaccines targeting p53 based on major histocompatibility complex (MHC) class I binding p53-derived peptides that induce cytotoxic T lymphocytes (CTLs) without p53-specific CD4(+) T-cell help have been tested by several research groups including ours. To obtain such CD4(+) T-cell help and cover a broader repertoire of MHC haplotypes we have previously attempted to produce recombinant human p53 for vaccination purposes. However, attempts to refold a hexahis-tagged p53 protein in our laboratory were unsuccessful. Here, we show that fusion of an 11-amino-acid region of the human immunodeficiency virus TAT protein transduction domain (PTD) to human p53 increases the solubility of the otherwise insoluble p53 protein and this rTAT-p53 protein can be transduced into human monocyte-derived dendritic cells (DCs). The induction of a p53-specific HLA-A*0201 immune response was tested in HLA-A*0201/K(b) transgenic mice after immunization with rTAT-p53-transduced bone-marrow-derived DCs. In these mice, p53-specific CD4(+) and CD8(+) T-cell proliferation was observed and immunization resulted in the induction of HLA-A*0201-restricted CTLs specific for two human p53-derived HLA-A*0201-binding peptides, p53(65-73) and p53(149-157). Addition of GrpE to generate rTAT-GrpE-p53 led to a further increase in protein solubility and to a small increase in DC maturation but did not increase the observed p53-specific T-cell responses. The use of rTAT-p53 in ongoing clinical protocols should be applicable and offers advantages to current strategies omitting the use of HLA-typed patients.     

Identification of wild-type and mutant p53 peptides binding to HLA-A2 assessed by a peptide loading-deficient cell line assay and a novel major histocompatibility complex class I peptide binding assay

Mutations of the p53 gene are the most frequently observed genetic changes in human cancers; often leading to an overexpression of the wild-type (wt) p53 protein. Demonstrable T cell reactivity against tumor cells overexpressing wt or mutant p53-derived peptides could support the application of such epitopes in cancer immunotherapies. As the binding of peptide to MHC class I molecules is a prerequisite for antigen-specific T cell recognition, we evaluated the ability of wt and mutant p53 peptides to bind to HLA-A2.1 using two independent flow cytometry-based assay systems, the T2 major histocompatibility complex (MHC) class I peptide stabilization assay (stabilization assay) and the peptide-induced MHC class I reconstitution assay (reconstitution assay). The twenty selected wt sequences each conformed to the previously reported HLA-A2.1 peptide binding motif. Seven of the wt p53 and 2/13 mutant p53 peptides derived from the previously chosen wt peptides bound to HLA-A2.1 in both the stabilization and the reconstitution assays. An additional six wt and six mutant p53 peptides, presumably exhibiting lower affinity for HLA-A2.1, were identified only in the reconstitution assay. Those p53 peptides binding HLA-A2.1 may provide useful immunogens for the generation of HLA-A2.1-restricted cytolytic T lymphocytes in vitro and in vivo.     

A novel human HER2-derived peptide homologous to the mouse K(d)-restricted tumor rejection antigen can induce HLA-A24-restricted cytotoxic T lymphocytes in ovarian cancer patients and healthy individuals

A mouse HER2-derived peptide, HER2p63 (A) (TYLPANASL), can induce K(d)-restricted mouse cytotoxic T lymphocytes (CTL) and also function as a tumor rejection antigen in an in vivo assay. Since the anchor motif of mouse K(d) for peptide binding has much similarity to that of human HLA-A2402, we asked if human HER2p63 (T) (TYLPTNASL) could induce HER2-specific CTL in HLA-A2402-positive individuals. Peripheral blood mononuclear cells (PBMC) of HLA-A2402-positive individuals were sensitized in vitro with HER2p63-pulsed autologous dendritic cells prepared from PBMC. CTL clone derived from these specifically lysed HER2-expressing cell lines bearing HLA-A2402. Cytotoxic activity of the CTL clone against the HER2-expressing cell line bearing HLA-A2402 was blocked by antibodies against CD3, CD8, HLA-A24 or MHC class I, and was also inhibited by the addition of excess HER2p63-pulsed C1R bearing HLA-A2402. Killer cells were generated from PBMC of seven healthy individuals and five ovarian cancer patients, all of HLA-A2402 type, by in vitro sensitization with HER2p63-pulsed autologous antigen presenting cells. These killer cells selectively lysed HER2-expressing SKOV3 transfected with HLA-A2402 cDNA, indicating high immunogenicity of HER2p63 in all 12 individuals examined.     

Identification of novel HLA-A*0201-restricted epitopes from anterior gradient-2 as a tumor-associated antigen against colorectal cancer

Anterior gradient-2 (AGR2) promotes tumor growth, cell migration and cellular transformation and its enhanced expression is almost completely restricted to malignant tissues, thus making AGR2 an interesting target for the development of immunotherapeutic strategies. We investigated whether the AGR2 molecule comprises human leukocyte antigen (HLA)-A*0201-binding epitopes recognized by human cytotoxic T lymphocytes (CTLs), which could be targeted in dendritic cell (DC)-based cancer immunotherapy against colorectal cancer (CRC). We reviewed the sequence of AGR2 for peptides that could potentially bind to HLA-A*0201 with the aid of a computer-based program. Five candidate peptides with different binding scores were synthesized and tested. These peptides were then assessed for their immunogenicity to elicit specific immune responses mediated by CTLs in vitro by means of enzyme-linked immunospot assays and CTL assays. AGR2 was highly expressed in several CRC cell lines, including DK01, DLD1, KM12C, HCT-8 and HT-29. DCs pulsed with AGR2-P2 (aa 11-19; LLVALSYTL) or AGR2-P4 (aa 127-135; RIMFVDPSL) generated potent CTLs that could lyse T2 cells pulsed with AGR2-P2 or AGR2-P4 and HLA-A0201(+) AGR2-positive CRC cell lines in a strong dose-dependent and HLA-A*0201-restricted manner. In conclusion, these novel epitopes derived from AGR2 protein may be attractive candidates for DC-based immunotherapy for CRC.     

CTL识别的HLA-A2限制性人卵巢癌相关抗原OVA66表位的鉴定

目的：鉴定CTL识别的HLA—A2限制性人卵巢癌相关抗原OVA66表位。方法：以细胞因子从外周血单个核细胞(PBMC)中诱导树突状细胞(DC)，通过形态学观察和流式细胞术进行鉴定。用表位预测法选取并合成两种肽分子，分别脉冲成熟的DC，并刺激HLA—A2^ 健康人自体CD8^ T细胞，1wk后，用脉冲肽的自体PBMC以每7d的间隔刺激该CD8^ T细胞3次。以共接受4次抗原肽刺激的T细胞作为CTL，用乳酸脱氢酶(LDH)释放试验，检测CTL对靶细胞的杀伤效应。用酶联免疫斑点法(ELISPOT)．检测CTL中抗原特异性分泌IFN-γ的T细胞数。结果：形态学和流式细胞术的结果显示．PBMC可诱生成熟的DC。肽1235(FLPDHINIV)诱导的CTL．可特异性杀伤1235脉冲的T2细胞和OVA66^ 、HLA—A2^ 的SW480细胞，且L235诱导的特异性分泌IFN-γ的T细胞数增加。结论：卵巢癌相关抗原OVA66的HLA—A2限制性CTL表位1235．能激发对肿瘤抗原的特异性免疫应答，为制备肿瘤特异性肽疫苗奠定了实验基础。     

Preparation and Identification of HLA-A＊1101 Tetramer Loading with Human Cytomegalovirus pp65 Antigen Peptide

MHC/peptide tetramer technology has been widely used to study antigen-specific T cells, especially for identifying virus-specific CD8^＋ T cells in humans. The tetramer molecule is composed of HLA heavy chain, β2-microglobulin （β2m）, an antigenic peptide, and fluorescent-labeled streptavidin. To further investigate the HLA-A＊1101-restricted CD8^＋ T cell responses against human cytomegalovirus （HCMV）, we established an approach to prepare HLA-A＊1101 tetramer complexed with a peptide from HCMV. The cDNA encoding HLA-A＊1101 heavy chain was cloned and the prokaryotic expression vector for the ectodomain of HLA-A＊1101 fused with a BirA substrate peptide （HLA-A＊1101-BSP） at its carboxyl terminus was constructed. The fusion protein was highly expressed as inclusion bodies under optimized conditions in Escherichla coli. Moreover, HLA-A＊1101-BSP protein was refolded in the presence of β2m and an HCMV peptide pp6516.24 （GPISGHVLK, GPI）. Soluble HLA-A＊1101-GPI monomer was biotinylated and purified to a purity of 95%, which was subsequently combined with streptavidin to form tetramers at a yield of 〉 80%. The HLA-A＊1101-GPI tetramers could bind to virus-specific CD8^＋ T cells, suggesting soluble HLA-A＊1101-GPI tetramers were biologically functional. This study provides the basis for further evaluation of HLA-A＊1101-restricted CD8^＋ T cell responses against HCMV infection.     

High-yield reassortant influenza vaccine production virus has a mutation at an HLA-A 2.1-restricted CD8+ CTL epitope on the NS1 protein.

Current influenza virus vaccines are prepared using high-yield reassortant virus strains obtained from a mixed infection of the new virus strain and a prototype high-yielding virus strain. The high-titered reassortant virus strain used as vaccine seed virus possesses the recent virus HA and NA and contains the internal genes from the high-growing prototype parent. We established a human CD8(+) cytotoxic T cell (CTL) line, 10-2C2, which recognizes an HLA-A2.1-restricted influenza A virus H1, H2, H3 cross-reactive T cell epitope on amino acids 122-130 of the NS1 protein, and unexpectedly we observed that there was decreased lysis of target cells infected with the A/Texas/36/91 (H1N1) vaccine virus strain compared to the lysis of target cells infected with the prototype A/PR/8/34 (H1N1) virus. RT-PCR results showed that the A/Texas vaccine virus strain contained a quasispecies. Approximately 50% of viral RNA of the NS1 gene had a nucleotide substitution that resulted in the N --> K amino acid change at the sixth position of the nonamer peptide. Current influenza vaccines are inactivated and do not contain the NS1 protein; however, future influenza vaccines may include live attenuated vaccines and with this mutation a live virus would fail to induce a CD8(+) CTL response to this epitope in individuals with HLA-A2.1, a very common allele, and potentially have reduced efficacy.     

轮状病毒结构蛋白VP7 HLA-A2.1限制性CTL表位的初步鉴定

目的 预测并初步鉴定轮状病毒Wa株结构蛋白VP7 HLA—A2．1限制性CTL表位。方法 用BIMAS软件预测VP7 HLA—A2．1限制性CTL表位;分子模拟技术对分值最高的4条肽进行分子模建;最后测定候选肽与HLA-A2．1分子的亲和力及结合稳定性。结果 结合BIMAS及分子模拟的预测结果,选择4条肽QLYCDYNLV（132—140）、LLNYILKSV（18—26）、VLMKYDQSL（140—148）及VNWKKWWQV（287—295）作为候选表位肽;4条肽与HLA—A2．1结合的荧光系数（FI）值分别为2．58、3．83、3．19及0．82,肽-HLA-A2．1复合物半数解离时间（DC50）分别为2-4、6-8、8及2h。结论 QLYCDYNLV（132—140）、LLNYILKSV（18—26）及VLMKYDQSL（140—148）为潜在的HLA-A2．1限制性CTL表位。     

肿瘤抗原TRAG-3 HLA-A2.1限制性CTL表位的鉴定

目的寻找并鉴定TRAG-3来源的HLA-A2．1限制性CTL表位，为临床开展基于TRAG-3表位的特异性免疫治疗奠定基础。方法应用超基序和量化基序方案，预测TRAG-3 HLA-A2．1限制性CTL表位。用计算机分子模拟的方法，对预测表位进行分子模拟。用流式细胞仪分析测定各肽与HLA-A2．1分子的结合力。最后，应用HLA-A2．1阳性健康志愿者外周血单个核细胞(PBMC)对其体外诱导的CTL效应进行鉴定。结果应用超基序和量化基序方案，预测出4个候选表位肽，用计算机分子模拟发现其中只有TRAG-3（37-45)不符合HLA-A2．1限制性CTL表位的特点。在上述4个九肽中，TRAG-3(58-66)与HLA-A2．1分子的结合力最高。在进一步的CTL诱导实验中，发现TRAG-3(58-66)能够诱导健康志愿者PBMC产生特异性CTL。结论表位预测、计算机分子模拟、结合力分析和体外CTL诱导实验的一致性较好。4种方法一致认为，TRAG-3（58-66）(ILLRDA-GLV)为HLA-A2．1限制性CTL表位。该表位肽可望用于基于TRAG-3抗原多肽疫苗的临床实验。     

Conservation of minor histocompatibility antigens between human and non-human primates

It is well accepted that minor histocompatibility antigens (mHag) can function as transplantation barriers between HLA-matched individuals. Little is known about the molecular nature and evolutionary conservation of mHag. It is only very recently that the first human mHag were identified. The HLA-A2.1-restricted mHag HA-2 and the HLA-B7-restricted mHag H-Y appeared to be peptides derived from polymorphic self proteins. Here we show that the HLA-A2.1-restricted mHag HA-1, HA-2, and the H-Y peptides are conserved between man, chimpanzees and rhesus macaques. Human cytotoxic T cell clones specific for the HLA-A2.1-restricted mHag HA-1, HA-2, and H-Y recognized HLA-A2.1 gene-transfected chimpanzee and rhesus macaque cells. Highpressure liquid chromatography fractionation of HLA-A2.1-bound peptides isolated from the HLA-A2.1-transfected chimpanzee cells revealed that the chimpanzee HA-1 and HA-2 co-eluted with the human HA-1 and HA-2. Subsequent amino acid sequencing showed that the chimpanzee HA-2 peptide is identical to the human HA-2 peptide. Our functional and biochemical results demonstrate that mHag peptides are conserved for over 35 million years.     

Extracellular heat shock protein 90 plays a role in translocating chaperoned antigen from endosome to proteasome for generating antigenic peptide to be cross-presented by dendritic cells

Extracellular heat shock protein can deliver associated antigens into the MHC class I presentation pathway of antigen-presenting cells, a process called cross-presentation, thus inducing antigen-specific CD8(+) T-cell responses; however, the precise mechanism for intracellular antigen translocation and the processing pathway has not been fully elucidated. Here we demonstrate that cross-presentation of extracellular Hsp90-ovalbumin (OVA) protein complexes to specific CD8(+) T cells involves both classical proteasome-transporter-associated antigen processing (TAP)-dependent and TAP-independent-endosomal pathways. Using confocal microscopy, we found that the internalized extracellular Hsp90 and OVA co-localized with cytosolic proteasomes. When anti-Hsp90 mAb was introduced to dendritic cells (DCs), we observed that the co-localization of internalized Hsp90-chaperoned OVA and proteasomes was abolished, resulting in the inhibition of TAP-dependent cross-presentation of OVA. Thus, extracellular Hsp90 may play a pivotal role for the translocation of chaperoned antigens for proteasomal degradation in the cytosol. In contrast, OVA chaperoned by Hsp90 was not presented by MHC class II molecules in vitro or in vivo, although the antigen was exogenously loaded onto DCs. Our data indicate that extracellular Hsp90 might be essential for the translocation of chaperoned antigens from the extracellular milieu into cytosol, resulting in proteasomal degradation for cross-presentation.     

Role of interleukin-23-dependent antifungal immune responses in dendritic cell-vaccinated mice

CD40 ligand (CD40L) transduction of antigen-pulsed dendritic cells (DCs) can result in antigen-specific humoral immune responses even in CD4(+) T-cell-depleted settings. Here, we show that CD40L transduction of DCs results in the induction of interleukin-12p40 (IL-12p40), IL-12p70, and IL-23. Using DCs that were deficient in IL-12p40, IL-12p35, or IL-23p19, we show that these molecules are dispensable for primary IgG1 responses to Pneumocystis, but IgG2c was dependent on IL-12p40 and IL-23p19 but not IL-12p35. Antigen-specific recall responses in CD4-deficient mice were critically dependent on IL-12p40 and IL-23p19 expression in DCs and were not affected by the lack of IL-12p35. To confirm that this defect in recall was due to IL-23, transduction of IL-12p40(-/-) DCs with a recombinant adenovirus expressing functional IL-23 restored recall responses in DC-vaccinated CD4-deficient mice. These data show that DC-produced IL-23 is critical for vaccine-induced antigen-specific IgG2c and recall antibody responses in the setting of CD4(+) T-cell depletion.     

H-2 class I knockout, HLA-A2.1-transgenic mice: a versatile animal model for preclinical evaluation of antitumor immunotherapeutic strategies.

H-2 class I-negative, HLA-A2.1-transgenic HHD mice were used for a comparative evaluation of the immunogenicity of HLA-A2.1-restricted human tumor-associated cytotoxic T lymphocyte (CTL) epitopes. A hierarchy was established among these peptides injected into mice in incomplete Freund's adjuvant which correlates globally with their capacity to bind and stabilize HLA-A2.1 molecules. Co-injection of a helper peptide enhanced most CTL responses. In contrast, classical HLA class I-transgenic mice which still express their own class I molecules did not, in most cases, develop HLA-A2.1-restricted CTL responses under the same experimental conditions. Different monoepitope immunization strategies of acceptable clinical usage were compared in HHD mice. Recombinant Ty-virus-like particles, or DNA encoding epitopes fused to the hepatitis B virus middle envelope protein gave the best results. Using this latter approach and a melanoma-based polyepitope construct, CTL responses against five distinct epitopes could be elicited simultaneously in a single animal. Thus, HHD mice provide a versatile animal model for preclinical evaluation of peptide-based cancer immunotherapy.     

Functional characterization of BK virus-specific CD4+ T cells with cytotoxic potential in seropositive adults

BK polyomavirus (BKV) reactivation is associated with a failure of T cell immunity in kidney transplant patients, and may lead to BKV-associated nephropathy (BKVN) and loss of the allograft. BKV reactivation in hematopoietic stem cell transplant recipients is associated with hemorrhagic cystitis. We have investigated T cell responses to overlapping peptide mixtures corresponding to the whole BKV major T antigen (TAg) and major capsid protein (VP1) in peripheral blood mononuclear cell samples from a cohort of healthy BKV-seropositive subjects. The majority of these individuals possessed populations of both CD8(+) and CD4(+) T cells specific for these BKV antigens. After expansion in culture, the majority of the BKV-specific CD4(+) T cells, in addition to expressing CD40L (CD154), secreted both interferon (IFN)-gamma and tumor necrosis factor (TNF)-alpha, contained both granzyme A and granzyme B, and degranulated/mobilized CD107 in response to antigen-specific stimulation. These T cells thus represent potentially functional BKV-specific cytotoxic CD4(+) T lymphocytes. Secretion of both TNF-alpha and IFN-gamma by CD154(+)CD4(+) T cells on BKV-specific stimulation was associated with higher levels of granzyme B and a higher proportion of degranulating cells compared with CD154(+)CD4(+) T cells producing only IFN-gamma or neither cytokine. These healthy subjects also harbored populations of functional CD8(+) T cells specific for one or more of three newly defined HLA-A 02-restricted cytotoxic T lymphocyte epitopes within the BKV TAg as well as two HLA-A 02-restricted epitopes within the BKV VP1 we have previously described. The BKV-specific CD4(+) T cells characterized in this study may play a part in maintaining persistent memory T cell responses to the virus and thus contribute to the immune control of BKV in healthy individuals.