The Affirmation of Self: A New Perspective on the Immune System

The fundamental concepts of autopoiesis, which emphasize the circular organization underlying both living organisms and cognition, have been criticized on the grounds that since they are conceived as a tight logical chain of definitions and implications, it is often not clear whether they are indeed a scientific theory or rather just a potential scientific vocabulary of doubtful utility to working scientists. This article presents the deployment of the concepts of autopoiesis in the field of immunology, a discipline where working biologists themselves spontaneously have long had recourse to cognitive metaphors: recognition; a repertoire of recognized molecular shapes; learning and memory; and, most striking of all, a self versus non-self distinction. It is shown that in immunology, the concepts of autopoiesis can be employed to generate clear novel hypotheses, models demonstrating these ideas, testable predictions, and novel therapeutic procedures. Epistemologically, it is shown that the selfnon-self distinction, while quite real, is misleadingly named. When a real mechanism for generating this distinction is identified, it appears that the actual operational distinction is between (a) a sufficiently numerous set of initial antigens, present from the start of ontogeny, in conditions that allow for their participation in the construction of the system's organization and operation, and (b) single antigens that are first presented to the system after two successive phases of maturation. To call this a selfnon-self distinction obscures the issue by presupposing what it ought to be the job of scientific investigation to explain.

[1]  P. Hogeweg,et al.  Unreasonable implications of reasonable idiotypic network assumptions. , 1989, Bulletin of mathematical biology.

[2]  F. Varela,et al.  Second generation immune networks. , 1991, Immunology today.

[3]  F. Varela,et al.  Morphogenesis in shape-space. Elementary meta-dynamics in a model of the immune network. , 1991, Journal of theoretical biology.

[4]  Jerne Nk Towards a network theory of the immune system. , 1974 .

[5]  F. Varela,et al.  Dynamics of a class of immune networks. I. Global stability of idiotype interactions. , 1990, Journal of theoretical biology.

[6]  F J Varela,et al.  Self and non-sense: an organism-centered approach to immunology. , 1978, Medical hypotheses.

[7]  A. Coutinho,et al.  The Role of Thymic Epithelium in the Establishment of Transplantation Tolerance , 1993, Immunological reviews.

[8]  Pamela Lyon,et al.  The biogenic approach to cognition , 2006, Cognitive Processing.

[9]  S. Avrameas,et al.  Natural autoantibodies: from 'horror autotoxicus' to 'gnothi seauton'. , 1991, Immunology today.

[10]  L. Segel,et al.  Shape space: an approach to the evaluation of cross-reactivity effects, stability and controllability in the immune system. , 1989, Immunology letters.

[11]  A. Perelson,et al.  Size and connectivity as emergent properties of a developing immune network. , 1991, Journal of theoretical biology.

[12]  A. Coutinho,et al.  A model of the immune network with B-T cell co-operation. I--Prototypical structures and dynamics. , 1996, Journal of theoretical biology.

[13]  G. Oster,et al.  Theoretical studies of clonal selection: minimal antibody repertoire size and reliability of self-non-self discrimination. , 1979, Journal of theoretical biology.