Marek Zaleski scite author profile

One of the obvious ways of testing the clonal selection hypothesis is to determine the minimum number of cells needed to initiate a measurable immune response. At least in the uncompromising, and now classical, hypothesis of one antigen-sensitive cell clone per antibody specificity (1, 2) it is mandatory that a given antigenic determinant should not be recognizable by every small lymphocyte--accepting that antigen-sensitive ceils are to be found among this, in several ways, heterogenous cell population. While this extreme result, if found, would truly invalidate the hypothesis it is unfortunately not possible to define exactly the maximum frequency of antigen-sensitive cells which would still be compatible with the hypothesis. Clearly, the more complex the immunological universe is thought to be, the higher becomes the number of different clones required by the hypothesis, and the lower becomes the expected frequency of a cell belonging to one particular clone. Few immunologists would probably expect a frequency higher than 10 -4.For reasons which were suggested by earlier studies of the factor of immunization (3), the strong histocompatibility antigens were considered to provide a particularly exacting test of the clonal selection hypothesis. The graftvs.-host (GVH) reactions in chicken embryos injected intravenously with adult chicken lymphocytes were used in the present study to determine the frequency of antigen-sensitive cells with re3pect to the strong antigens of the B locus (4). It is concluded that their frequency is too high to be compatible with the orthodox version of clonal selection.

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Genetic Control of the Immune Response to Thy‐1 Antigens¹

Zaleski

Klein

1978

Immunological Reviews

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Preliminary evidence of genetic control of the immune response to the Thy-1.2 antigen in mice

Zaleski

1975

Immunogenetics

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Murine AIDS: A model for the human disease or a distinct entity?

et al. 1994

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The LP-BM5 mixture of murine retroviruses elicits a disease in mice referred to as murine immunodeficiency syndrome (MAIDS) that is considered by some to be an animal homologue of human AIDS. In this article, we present and discuss some recent findings on the pathogenesis of the murine disease and their implications for the proposed homology between murine and human syndromes. The murine disease seems to display as many similarities to as it does differences from human AIDS. Among the latter are: definitive and exclusive viral etiology, a strong genetic effect on susceptibility to infection, expansion of the CD4+ cell population in spleen and peripheral blood, consistent transmissibility by a single transfusion of the minute amounts of blood or plasma from infected donors, and striking similarity between virus-induced alteration of the in vitro spleen cell proliferation and those caused by treatment with a protein kinase inhibitor K252a. With this in mind, the use of the noncommittal term retrovirus-induced murine lymphoproliferative disease instead of MAIDS appears to be more appropriate at this time.

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Plaque-Forming-Cell Response to H-2 Antigens of Mice

Fuji

Zaleski

Milgrom

1971

Experimental Biology and Medicine

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Marek Zaleski

The Frequency of Antigen-Sensitive Cells in Tissue Transplantation

Genetic Control of the Immune Response to Thy‐1 Antigens¹

Preliminary evidence of genetic control of the immune response to the Thy-1.2 antigen in mice

Murine AIDS: A model for the human disease or a distinct entity?

Plaque-Forming-Cell Response to H-2 Antigens of Mice

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Resources

About

Marek Zaleski

The Frequency of Antigen-Sensitive Cells in Tissue Transplantation

Genetic Control of the Immune Response to Thy‐1 Antigens1

Preliminary evidence of genetic control of the immune response to the Thy-1.2 antigen in mice

Murine AIDS: A model for the human disease or a distinct entity?

Plaque-Forming-Cell Response to H-2 Antigens of Mice

Contact Info

Product

Resources

About

Genetic Control of the Immune Response to Thy‐1 Antigens¹