Your search keyword '"CTL epitopes"' showing total 10 results

1. The degree of HIV-1 amino acid variability is strictly related to different disease progression rates.

Author

Scutari, Rossana, Faieta, Monica, D’Arrigo, Roberta, Fabeni, Lavinia, Mussini, Cristina, Cossarizza, Andrea, Casoli, Claudio, Perno, Carlo Federico, Svicher, Valentina, Alteri, Claudia, and Aquaro, Stefano

Abstract

The aim of this study is to evaluate the amino acid variability of HIV-1 Gp41, C2-V3, and Nef in a group of patients characterized by different disease progression rates. HIV-1 sequences were collected from 19 Long term non progressor patients (LTNPs), 9 slow progressors (SPs), and 11 rapid progressors (RPs). Phylogenetic trees were estimated by MEGA 6. Differences in amino acid variability among sequences belonging to the 3 groups have been evaluated by amino acid divergence, Shannon entropy analysis, and the number of amino acid mutations (defined as amino acid variations compared with HxB2). The involvement of amino acid mutations on epitope rich regions was also investigated. The population was mainly composed of males (74.3%) and HIV-1 subtype B strains (B: 92.32%, CRF_12BF, A1, C: 2.56% each). Viral load (log10 copies/mL) and CD4+T cell count (cells/mm3) were 3.9 (3.5-4.2) and 618 (504-857) in LTNPs, 3.3 (2.8-4.7) and 463 (333-627) in SPs, and 4.6 (4.3-5.3) and 201 (110-254) in RPs. Gp41 and C2-V3 amino acid divergence was lower in LTNP and SP strains compared to RPs (median value: 0.085 and 0.091 vs. 0.114, p = 0.005 and 0.042) and a trend of lower variability was observed for Nef (p = 0.198). A lower entropy value was observed at 10, 3, and 7 positions of Gp41, C2-V3, and Nef belonging to LTNPs and at 7, 3, and 1 positions of Gp41, C2-V3, and Nef belonging to SPs compared with RPs (p < 0.05). Focusing on epitope rich regions, again a higher degree of conservation was observed in Gp41 and C2-V3 sequences belonging to LTNPs and SPs compared to those belonging to RPs. This study shows that the extent of amino acid variability correlates with a different HIV-1 progression rate. This variability also involves CTL epitope rich regions, thus suggesting its involvement in the immune escape process modulation. [ABSTRACT FROM AUTHOR]

Published

2018

2. Viral CD8 T cell epitope nucleotide composition shows evidence of short- and long-term evolutionary strategies.

Author

Maman, Yaakov, Hershberg, Uri, and Louzoun, Yoram

Subjects

*VIRAL antigens, *CD8 antigen, *T cells, *EPITOPES, *NUCLEOTIDES, *GENETIC code, *INFECTION

Abstract

Viral epitopes have a distinct codon usage that reflects their dual role in infection and immunity. On the one hand, epitopes are part of proteins important to viral function; on the other hand, they are targets of the immune response. Studies of selection are most commonly based on changes of amino acid and seen through the accumulation of non-synonymous mutations. An independent measure of selection is the codon usage and underlying changeability of the nucleotide sequences. We here use multiple tools and a large-scale analysis of viral genomes to demonstrate that viral epitopes have a distinct codon usage and that this codon usage reflects distinct short- and long-term types of selection during viral evolution. We show that CD8 T cell epitopes are encoded by codons more distant from stop codons and more changeable than codons outside epitopes. This biased codon usage reflects the viral population toggling back and forth from a wild-type sequence to an escape mode, which enable them to avoid immune detection when needed, and go back to the functionally favorable form when the threat is removed (i.e., in a new host). [ABSTRACT FROM AUTHOR]

Published

2015

3. Characterization of binding specificities of bovine leucocyte class I molecules: impacts for rational epitope discovery.

Author

Hansen, Andreas, Rasmussen, Michael, Svitek, Nicholas, Harndahl, Mikkel, Golde, William, Barlow, John, Nene, Vishvanath, Buus, Søren, and Nielsen, Morten

Subjects

*LEUCOCYTES, *MAJOR histocompatibility complex, *PEPTIDES, *IMMUNOINFORMATICS, *THEILERIA parva, *IMMUNOGENETICS

Abstract

The binding of peptides to classical major histocompatibility complex (MHC) class I proteins is the single most selective step in antigen presentation. However, the peptide-binding specificity of cattle MHC (bovine leucocyte antigen, BoLA) class I (BoLA-I) molecules remains poorly characterized. Here, we demonstrate how a combination of high-throughput assays using positional scanning combinatorial peptide libraries, peptide dissociation, and peptide-binding affinity binding measurements can be combined with bioinformatics to effectively characterize the functionality of BoLA-I molecules. Using this strategy, we characterized eight BoLA-I molecules, and found the peptide specificity to resemble that of human MHC-I molecules with primary anchors most often at P2 and P9, and occasional auxiliary P1/P3/P5/P6 anchors. We analyzed nine reported CTL epitopes from Theileria parva, and in eight cases, stable and high affinity binding was confirmed. A set of peptides were tested for binding affinity to the eight BoLA proteins and used to refine the predictors of peptide-MHC binding NetMHC and NetMHCpan. The inclusion of BoLA-specific peptide-binding data led to a significant improvement in prediction accuracy for reported T. parva CTL epitopes. For reported CTL epitopes with weak or no predicted binding, these refined prediction methods suggested presence of nested minimal epitopes with high-predicted binding affinity. The enhanced affinity of the alternative peptides was in all cases confirmed experimentally. This study demonstrates how biochemical high-throughput assays combined with immunoinformatics can be used to characterize the peptide-binding motifs of BoLA-I molecules, boosting performance of MHC peptide-binding prediction methods, and empowering rational epitope discovery in cattle. [ABSTRACT FROM AUTHOR]

Published

2014

4. Cytotoxic T lymphocyte epitopes from human heparanase can elicit a potent anti-tumor immune response in mice.

Author

Xu-Dong Tang, Guang-Ping Liang, Chuan Li, Ying Wan, Ting Chen, Ling Chen, Song-Tao Yu, Zhen Xiong, Dian-Chun Fang, Guo-Zheng Wang, and Shi-Ming Yang

Subjects

*EPITOPES, *IMMUNE response, *T cells, *LYMPHOCYTES, *IMMUNOTHERAPY

Abstract

Heparanase is expressed in almost all advanced tumors, and therefore it may serve as a potential target for tumor therapy. Our previous study has shown that heparanase can serve as a potential universal tumor-associated antigen (TAA) for the immunotherapy of advanced tumors. Further study demonstrated that the HLA-A*0201-restricted Cytotoxic T lymphocytes (CTL) epitopes Hpa525 (PAFSYSFFV), Hpa277 (KMLKSFLKA) and Hpa405 (WLSLLFKKL) from human heparanase could induce a potent anti-tumor immune response in vitro. The present study was designed to investigate whether the above peptides could induce immune responses in mice. Our results demonstrated that the effectors from heparanase peptide-immunized mice could effectively lyse various tumor cells that were heparanase positive and HLA-A*0201 matched. We also found that these peptide-specific CTLs did not lyse autologous lymphocytes that had low heparanase activity. Further study revealed that Hpa525, Hpa277, and Hpa405 peptides increased the frequency of IFN-γ-producing T cells as compared to a negative peptide. These results suggest that Hpa525, Hpa277, and Hpa405 peptides are novel HLA-A*0201-restricted CTL epitopes capable of inducing heparanase-specific CTLs in mice. Because heparanase is expressed in most advanced malignant tumors, Hpa525, Hpa277, and Hpa405 peptide-based vaccines may be useful for the immunotherapy of patients with advanced tumors. [ABSTRACT FROM AUTHOR]

Published

2010

5. NetMHCpan, a method for MHC class I binding prediction beyond humans.

Author

Hoof, Ilka, Peters, Bjoern, Sidney, John, Pedersen, Lasse Eggers, Sette, Alessandro, Lund, Ole, Buus, Søren, and Nielsen, Morten

Subjects

*MOLECULES, *PROTEINS, *CHIMPANZEES, *RHESUS monkeys, *HLA histocompatibility antigens

Abstract

Binding of peptides to major histocompatibility complex (MHC) molecules is the single most selective step in the recognition of pathogens by the cellular immune system. The human MHC genomic region (called HLA) is extremely polymorphic comprising several thousand alleles, each encoding a distinct MHC molecule. The potentially unique specificity of the majority of HLA alleles that have been identified to date remains uncharacterized. Likewise, only a limited number of chimpanzee and rhesus macaque MHC class I molecules have been characterized experimentally. Here, we present NetMHCpan-2.0, a method that generates quantitative predictions of the affinity of any peptide–MHC class I interaction. NetMHCpan-2.0 has been trained on the hitherto largest set of quantitative MHC binding data available, covering HLA-A and HLA-B, as well as chimpanzee, rhesus macaque, gorilla, and mouse MHC class I molecules. We show that the NetMHCpan-2.0 method can accurately predict binding to uncharacterized HLA molecules, including HLA-C and HLA-G. Moreover, NetMHCpan-2.0 is demonstrated to accurately predict peptide binding to chimpanzee and macaque MHC class I molecules. The power of NetMHCpan-2.0 to guide immunologists in interpreting cellular immune responses in large out-bred populations is demonstrated. Further, we used NetMHCpan-2.0 to predict potential binding peptides for the pig MHC class I molecule SLA-1*0401. Ninety-three percent of the predicted peptides were demonstrated to bind stronger than 500 nM. The high performance of NetMHCpan-2.0 for non-human primates documents the method’s ability to provide broad allelic coverage also beyond human MHC molecules. The method is available at . [ABSTRACT FROM AUTHOR]

Published

2009

6. Immunogenic HER-2/neu peptides as tumor vaccines.

Author

Baxevanis, Constantin N., Sotiriadou, Nectaria N., Gritzapis, Angelos D., Sotiropoulou, Panagiota A., Perez, Sonia A., Cacoullos, Nike T., and Papamichail, Michael

Subjects

*ANTIGENS, *T cells, *IMMUNIZATION, *CANCER, *GLYCOPROTEINS

Abstract

During the last decade, a large number of tumor-associated antigens (TAA) have been identified, which can be recognized by T cells. This has led to renewed interest in the use of active immunization as a modality for the treatment of cancer. HER-2/neu is a 185-KDa receptor-like glycoprotein that is overexpressed by a variety of tumors including breast, ovarian, lung, prostate and colorectal carcinomata. Several immunogenic HER-2/neu peptides recognized by cytotoxic T lymphocytes (CTL) or helper T lymphocytes (TH) have been identified thus far. Patients with HER-2/neu over-expressing cancers exhibit increased frequencies of peripheral blood T cells recognizing immunogenic HER-2/neu peptides. Various protocols for generating T cell-mediated immune responses specific for HER-2/neu peptides have been examined in pre-clinical models or in clinical trials. Vaccination studies in animals utilizing HER-2/neu peptides have been successful in eliminating tumor growth. In humans, however, although immunological responses have been detected against the peptides used for vaccination, no clinical responses have been described. Because HER-2/neu is a self-antigen, functional immune responses against it may be limited through tolerance mechanisms. Therefore, it would be interesting to determine whether abrogation of tolerance to HER-2/neu using appropriate adjuvants and/or peptide analogs may lead to the development of immune responses to HER-2/neu epitopes that can be of relevance to cancer immunotherapy. Vaccine preparations containing mixtures of HER-2/neu peptides and peptide from other tumor-related antigens might also enhance efficacy of therapeutic vaccination. [ABSTRACT FROM AUTHOR]

Published

2006

7. Potential Mouse Tumor Model for Pre-Clinical Testing of Mage-Specific Breast Cancer Vaccines.

Author

Sypniewska, Roza, Hoflack, Lieve, Bearss, David, and Gravekamp, Claudia

Abstract

Currently, there is a lack of suitable pre-clinical mouse models for testing and optimization of experimental cancer vaccines. Here, in situ developed mammary tumors of MMTV-v-Ha-ras and MMTV-c-myc transgenic mice and normal mammary, liver, spleen, and testis were screened for expression of tumor-associated antigens (TAA) Mage-b1/2/3 by reverse-transcriptase polymerase chain reaction (RT-PCR) and Southern blot hybridization. Mage-b1/2/3 are homologues of the human TAA MAGE-B1/2/3. Expression of these human MAGE genes has been found in tumors of various histological types, including breast cancer [39]. Mage-specific RT-PCR products (using primers that amplify all three Mage-b1/2/3) were detected in mammary tumors of the MMTV-v-Ha-ras and MMTV-c-myc transgenic mice and in testis, but not in other normal tissues. RT-PCR products obtained from the mammary tumors (using primers that amplify the complete protein-encoding region of Mage-b1/2/3) were cloned and sequenced, and appeared to be most homologous with Mage-b3. Comparison of the Mage-b3 gene in mammary tumors and normal tissues suggest that somatic mutations did not occur in the Mage-b3 gene of the ras- and myc-induced mammary tumors. In addition, no differences were found between the Mage-b3 cDNA of testis, the only normal tissue that expresses Mage-b3, and Mage-b3 in genomic DNA of normal kidney, where Mage-b3 is silent. The MMTV-v-Ha-ras and MMTV-c-myc transgenic mice of this study are the first immune competent mouse models with in situ developed mammary tumors in which the expression of Mage-b3 TAA has been demonstrated. This makes them potentially suitable as a mouse model for pre-clinical testing of Mage-specific cancer vaccines in vivo. [ABSTRACT FROM AUTHOR]

Published

2002

8. A common rhesus macaque MHC class I molecule which binds a cytotoxic T-lymphocyte epitope in Nef of simian immunodeficiency virus.

Author

Horton, Helen, Rehrauer, William, Meek, Eliabeth C., Shultz, Millicent A., Piekarczyk, Marian S., Jing, Peicheng, Carter, Donald K., Steffen, Susan R., Calore, Briana, Urvater, Julie A., Vogel, Thorsten U., Wilson, Nancy A., and Watkins, David I.

Subjects

SIMIAN viruses, IMMUNODEFICIENCY, HIV, RHESUS monkeys, HIV infections, VIRAL replication, VACCINES

Abstract

Focuses on the importance of simian immunodeficiency virus (SIV) infection of rhesus macaques as a model for the study of HIV infection in humans. Importance in controlling viral replication in infected hosts; Expansion on the utility of the rhesus macaque as a model for vaccine and pathogenesis study; Understanding on the importance of cytotoxic T lymphocytes responses during SIV infection.

Published

2001

9. Generation of cellular immune responses to antigenic tumor peptides.

Author

Pietersz, G. A., Apostolopoulos, V., and McKenzie, I. F. C.

Subjects

CELLS, TUMORS, EPITOPES, PEPTIDES, VACCINES, T cells

Abstract

Tumor immunotherapy is currently receiving close scrutiny. However, with the identification of tumor antigens and their production by recombinant means, the use of cytokines and knowledge of major histocompatibility complex (MHC) class I and class II presentation has provided ample reagents for use and clear indications of how they should be used. At this time, much attention is focused on using peptides to be presented by MHC class I molecules to both induce and be targets for CD8+ cytolytic T cells. Many peptides generated endogenously or given exogenously can enter the class I pathway, but a number of other methods of entering this pathway are also known and are discussed in detail herein. While the review concentrates on inducing cytotoxic T cells (CTLs), it is becoming increasingly apparent that other modes of immunotherapy would be desirable, such as class II presentation to induce increased helper activity (for CTL), but also activating macrophages to be effective against tumor cells. [ABSTRACT FROM AUTHOR]

Published

2000

10. Antigen processing by proteasomes: insights into the molecular basis of crypticity.

Author

Djaballah, Hakim

Abstract

Eight to eleven amino acid residues are the sizes of predominant peptides found to be associated with MHC class I molecules. Proteasomes have been implicated in antigen processing and generation of such peptides. Advanced methodologies in peptide elution together with sequence determination have led to the characterisation of MHC class I binding motifs. More recently, screening of random peptide phage display libraries and synthetic combinatorial peptide libraries have also been successfully used. This has led to the development and use of predictive algorithms to screen antigens for potential CTL epitopes. Not all predicted epitopes will be generated in vivo and the emerging picture suggests differential presentation of predicted CTL epitopes ranging from cryptic to immunodominant. The scope of this review is to discuss antigen processing by proteasomes, and to put forward a hypothesis that the molecular basis of immunogenicity can be a function of proteasomal processing. This may explain how pathogens and tumours are able to escape immunosurveillance by altering sequences required by proteasomes for epitope generation. Abbreviations: CTL – cytotoxic T lymphocytes; DRiPs – defective ribosomal products; ER – endoplasmic reticulum; Hsps – heat shock proteins; LMP – low molecular weight peptide; MHC – major histocompatibility complex; TAP – transporter associated with antigen processing. [ABSTRACT FROM AUTHOR]

Published

1997