Your search keyword '"LOH"' showing total 4 results

1. Identification of different tumor escape mechanisms in several metastases from a melanoma patient undergoing immunotherapy.

Author

Méndez, Rosa, Ruiz-Cabello, Francisco, Rodríguez, Teresa, Campo, Ana, Paschen, Annette, Schadendorf, Dirk, and Garrido, Federico

Subjects

*T cells, *CYTOKINES, *CANCER cells, *METASTASIS, *MELANOMA, *IMMUNOTHERAPY

Abstract

The cytotoxic activity of T cells selects the outgrowth of tumor cells that escape from immune surveillance by different strategies. The different mechanisms that interfere with immune recognition and limit vaccination efficiency are still poorly understood. We analysed six cell lines established from different metastases of melanoma patient UKRV-Mel-20 for specific characteristics known to have an impact on the tumor-T cell interaction: (1) alterations in the HLA class I phenotype, (2) expression of Fas/CD95, and (3) expression of specific cytokines and chemokines. One of the cell lines, UKRV-Mel-20f, exhibited an HLA class I haplotype loss and just this cell line was also characterised by the expression of Fas/CD95 and of relatively high levels of proinflammatory chemokines suggesting that the cytotoxic activity of tumor-infiltrating T cells might have selected the outgrowth of this tumor cell variant. All other cell lines analysed showed no alterations in HLA class I expression, but, in contrast to UKRV-Mel-20f, expressed much lower levels of Fas/CD95 and of proinflammatory chemokines and some of them produced high levels of immunosuppressive TGF-β1. These results suggest that in patient UKRV-Mel-20, tumor cells interfere with T cell recognition by different strategies which might partially explain why this patient did not have a clinical response to an autologous tumor cell vaccine. [ABSTRACT FROM AUTHOR]

Published

2007

2. High frequency of homozygosity of the HLA region in melanoma cell lines reveals a pattern compatible with extensive loss of heterozygosity.

Author

Rodriguez, Teresa, Méndez, Rosa, Roberts, Chrissy, Ruiz-Cabello, Francisco, Dodi, I., Nevot, Miguel, Paco, Laura, Maleno, Isabel, Marsh, Steven, Pawelec, Graham, and Garrido, Federico

Subjects

*CELL transformation, *LEUCOCYTES, *ANTIGENS, *MELANOMA, *IMMUNE response, *TUMORS, *CANCER, *CELL lines

Abstract

Malignant transformation of cells is frequently associated with abnormalities in human leukocyte antigen (HLA) expression. MHC class I loss or down-regulation in cancer cells is a major immune escape route used by a large variety of human tumours to evade antitumour immune responses mediated by cytotoxic T lymphocytes. The goal of our study was to explore HLA genotyping and phenotyping in a variety of melanoma tumour cell lines. A total of 91 melanoma cell lines were characterised for HLA class I and II genotype. In addition, 61 out of the 91 cell lines were also analysed for HLA class I and II cell surface molecule expression by flow cytometry. Unexpectedly, we found that 19.7% of the melanoma cell lines were homozygous for HLA class I genotypes, sometimes associated with HLA class II homozygosity (8.79%) and sometimes not (10.98%). The frequency of homozygosity was significantly higher compared with the control groups (1.6%). To identify the reasons underlying the high frequency of HLA homozygosity we searched for genomic deletions using eight pairs of highly polymorphic microsatellite markers covering the entire extended HLA complex on the short arm of chromosome 6. Our results were compatible with hemizygous deletions and suggest that loss of heterozygosity on chromosome arm 6p is a common feature in melanoma cell lines. In fact, although autologous normal DNA from the patients was not available and could not be tested, the retention in some cases of heterozygosity for a number of microsatellite markers would indicate a hemizygous deletion. In the rest of the cases, markers at 6p and 6q showed a single allele pattern indicating the probable loss of part or the whole of chromosome 6. These results led us to conclude that loss of heterozygosity in chromosome 6 is nonrandom and is possibly an immunologically relevant event in human malignant melanoma. Other well-established altered HLA class I phenotypes were also detected by flow cytometry that correspond to HLA class I total loss and HLA-ABC and/or specific HLA-B locus down-regulation. [ABSTRACT FROM AUTHOR]

Published

2005

3. Analysis of HLA expression in human tumor tissues.

Author

Cabrera, Teresa, López-Nevot, Miguel, Gaforio, Jose, Ruiz-Cabello, Francisco, and Garrido, Federico

Subjects

CANCER cells, CANCER treatment, CANCER genetics, GENE therapy, CANCER patients, LYMPHOCYTES

Abstract

Cancer cells can be detected and destroyed by cytotoxic T lymphocytes in many experimental tumor systems, and – as has been well-documented – in some human tumors. In humans however, most diagnosed tumors are not eliminated by T cells but grow steadily, invading and metastasizing until the host is destroyed. Evidence is accumulating that progressive tumor growth occurs not because the immune system is defective or deteriorated, but because the cancer cell is capable of developing a variety of strategies to escape immune recognition. In addition, cancer cells acquire new biological properties to generate invasive capacity in order to migrate and colonize new tissues. Major histocompatibility complex (MHC) antigens are molecules that are specialized in communicating with the T cell receptor and natural killer (NK) cell ligands. With the former, they use the interaction with peptides derived from processed cellular and exogenous proteins to monitor self and non-self status. With the latter, they determine the degree of activation and killing capacity of NK cells by interacting with NK receptors. Any change in the MHC profile of tumor cells (including classical and nonclassical MHC molecules) may therefore have a profound influence on the immune recognition and immune rejection of cancer cells. We have reviewed the data from our laboratory and other groups, and have presented a standardized procedure for analyzing the MHC profile of human tumors with special emphasis on the quality and laboratory use of the material obtained from microdissected tumor samples. Appropriate tissue processing is of particular relevance, since it is not possible to obtain tumor cell lines from most patients. Oncologists require rapid information on the MHC profile of the tumor if gene therapy is envisaged to restore normal MHC class I gene expression. [ABSTRACT FROM AUTHOR]

Published

2003

4. Multiple mechanisms generate HLA class I altered phenotypes in laryngeal carcinomas: high frequency of HLA haplotype loss associated with loss of heterozygosity in chromosome region 6p21.

Author

Maleno, Isabel, López-Nevot, Miguel, Cabrera, Teresa, Salinero, José, and Garrido, Federico

Subjects

LARYNGEAL cancer, HLA histocompatibility antigens, PHENOTYPES, CANCER cells, MAJOR histocompatibility complex, IMMUNOGENETICS

Abstract

Major histocompatibility complex (MHC) class I loss or downregulation in cancer cells is a major immune escape route used by a large variety of human tumors to evade anti-tumor immune responses mediated by cytotoxic T lymphocytes. Multiple mechanisms are responsible for such HLA class I alterations. However, the precise frequency of these molecular defects has not been clearly determined in tumors derived from specific tissues. To analyze such defects we aim to define the major HLA class I-altered phenotypes in different tumor types. In this paper we report on HLA class I expression in 70 laryngeal carcinomas. We used immunohistological techniques with a highly selective panel of anti-HLA monoclonal antibodies (mAb), and polymerase chain reaction (PCR) microsatellite amplification of previously selected microsatellite markers (STR) located in chromosome 6 and 15. DNA was obtained from microdissected tumor tissues and surrounding stroma to define the loss of heterozygosity (LOH) associated with chromosome 6p21. Our results showed that LOH in chromosome 6 produced HLA haplotype loss (phenotype II) in 36% of the tumors. In addition, HLA class I total loss (phenotype I) was found in 11%; HLA A or B locus downregulation (phenotype III) was detected in 20%; and HLA class I allelic loss (phenotype IV) in 10% of all cases. We sometimes observed two or more associated mechanisms in the same HLA-altered phenotype, such as LOH and HLA total loss in phenotype I. In only 23% of tumors it was not possible to identify any HLA class I alteration. We conclude that the combination of immunohistological techniques and molecular analysis of tumor DNA obtained from microdissected tumor tissues provides a means for the first time of determining the actual frequency of the major HLA class I-altered phenotypes in laryngeal carcinomas. [ABSTRACT FROM AUTHOR]

Published

2002