Ankesh Nigam scite author profile

T cell tolerance to parenchymal self-antigens is thought to be induced by encounter of the T cell with its cognate peptide–major histocompatibility complex (MHC) ligand expressed on the parenchymal cell, which lacks appropriate costimulatory function. We have used a model system in which naive T cell receptor (TCR) transgenic hemagglutinin (HA)-specific CD4+ T cells are adoptively transferred into mice expressing HA as a self-antigen on parenchymal cells. After transfer, HA-specific T cells develop a phenotype indicative of TCR engagement and are rendered functionally tolerant. However, T cell tolerance is not induced by peptide–MHC complexes expressed on parenchymal cells. Rather, tolerance induction requires that HA is presented by bone marrow (BM)–derived cells. These results indicate that tolerance induction to parenchymal self-antigens requires transfer to a BM-derived antigen-presenting cell that presents it to T cells in a tolerogenic fashion.

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Immunomodulatory properties of antineoplastic drugs administered in conjunction with GM-CSF-secreting cancer cell vaccines.

Nigam

Yacavone

Zahurak

et al. 1998

Int J Oncol

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Profile of Placental Alkaline Phosphatase Expression in Human Malignancies: Effect of Tumour Cell Activation on Alkaline Phosphatase Expression

Dabare¹,

Nouri²,

Cannell

et al. 1999

Urol Int

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Cellular alkaline phosphatases (ALP) are increasingly recognised as important markers for monitoring tumour cell behaviour in human malignancies. Colorimetric, flow-cytometric, and immunocytochemical assays were employed to assess the influence of activation on expression of cellular ALP in human tumour cell lines. The results showed the following: (1) Testis tumour biopsies (16/16) unlike bladder (0/14) and head and neck (0/16) tumours showed positive staining for ALP, particularly the placental type, i.e. PLAP, although this was not always present on all the cells of non-seminoma biopsies. (2) The intensity of ALP expression differed widely in tumour cell lines. Based on biochemical analysis, the profile of ALP fell into two categories: (a) low expressing (MW 70 kD, placental type ALP) like Hep2 and KB lines, and (b) those expressing both low and high molecular (MW 95 kD) bands like testis lines Tera II and Ep2102. In all cases treatment of tumour cell lysates with heat prior to biochemical analysis showed the disappearance of the higher and sharpening of the lower molecular weight ALP band. (3) Exposure of tumour cells to epidermal growth factor (EGF) expressing EGF receptor led to a decreased ALP expression by as much as 54% as assessed by biochemical or flow-cytometric techniques. These data demonstrated that testis tumour tissues and cell lines expressed ALP which were different from others. The data also showed that exposure of tumour cell lines expressing EGFr to EGF resulted in suppression of ALP expression. These observations are consistent with the notion that EGFr and PLAP expression may be taken as a marker of proliferation and differentiation in human malignancies, respectively.

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Ankesh Nigam

CD4+ T Cell Tolerance to Parenchymal Self-Antigens Requires Presentation by Bone Marrow–derived Antigen-presenting Cells

Immunomodulatory properties of antineoplastic drugs administered in conjunction with GM-CSF-secreting cancer cell vaccines.

Profile of Placental Alkaline Phosphatase Expression in Human Malignancies: Effect of Tumour Cell Activation on Alkaline Phosphatase Expression

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