Abstract
The differentiation of T Lymphocytes within the thymus is an important biological phenomenon during wich these cell acquire their functions to further control the immune system. Numerous experiments under various conditions have been devised to understand the different mechanisms involved in this complex process. Nevertheless, interpretation of these experiments lead to still contradictory debatable hypotheses. Modelisation of this process through classical simulation methods cannot be envisaged because they are not adapted to modifications of the model structure, which is the point of interest. For these reasons, we proposed a new approach of automatic search for model. The program consists of four independent connected modules : The generator produces model, based on the rationale of formal grammars. Protocol and experimental data are stored in a set of experiments. The simulator using a protocol and a model provides simulated results. Finally, the supervisor by comparing simulated results and experimental data, adapts the model parameters to increase their fit and either chooses a new experiment to explore, or modifies the model structure. Change of the model structure is performed among still unexplored models according to their “promise” level, which is iteratively evaluated relatively to previously explored models through a proposed model distance. The generator is written in Prolog and the other modules in C++. The architecture of the program allows us to modify or complete a module without changing anything in the other modules. As a consequence, the proposed modeling approach conceived to study T lymphocyte differentiation within the thymus remains independent of this biological phenomenon and can be applied to other biological problems.
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References
Bach, J.F. (1986). Immunologie, 3ème edition. Paris, Flammarion.
Berry, J.T. (1988). The Waite Group's C++ Programming. Indianapolis. Howard W. Sams & Company.
Bonnet, A., J.P. Haton and J.M. Truong-Ngoc (1986). Systèmes Experts, Vers la maîtrise technique. Paris. InterEditions.
Blue, M.L, D.A. Hafler, J.F. Daley, K. Levine, K.A. Graig, J.B. Breitmmmeyer and S.F. Schlossman (1988). Regulation of T cell clone function via CD4 and CD8 molecules. The Journal of Immunology 140: 376–383.
Farreny, H. (1985). Les systèmes Experts, Principes et exemples. Toulouse. CEPAD.
Glushkov, V.M., V.V. Ivanov and V.M. Janenko (1983). Mathematical Modelling of the efficiency of thymus functioning. In: G.I Marchuk and L.N. Belykh, eds. Mathematical modeling in immunology and medicine. Moscow. IFIP: 131–140
Hu, D. (1989). C/C++ for Expert Systems. Portland. Management Information Source, Inc.
Janeway, C.A., S. Carding, B. Jones, J. Murray, P. Portoles, etc (1988). CD4+ T Cells: Specificity and Function. Immunological Reviews 101: 39–77.
Kappler, J.W., U. Staerz, J. White and P.C. Marrack (1988). Self tolerance elimnates T cells specific for M1s modified products of the major histocompatibility complex. Nature 332: 35–45.
Kaufman, M., J. Urbain and I. Thomas (1985). Towards a logical analysis of the immune response. J. Theor. Biol. 114: 527–561.
Laurière, J. L. (1987). Intelligence Artificielle, Résolution de problèmes par l'homme et la machine. Paris. Eyrolles.
Marchuk, G.I. (1978). Some Mathematical Models in Immunology. Lecture notes in Immunology.
Marchuk, G.I. and L.N. Belykh (1982). Mathematical modeling in immunology and medicine. Moscow. IFIP.
Masini, G., A. Napoli, D. Colnet, D. Léonard and K. Tombre (1989). Les langages à objets. Paris. InterEditions.
Meyer, J.A., S. Clers and F. Chahuneau F. (1979). La simulation numérique des systèmes complexes: Objet et techniques. p 639–666, Elaboration et justification des modèles. Paris. Edition Maloine.
Nilsson, N.J. (1982). Principles of Artificial Intelligence. Berlin. Springer-Verlag.
Paul, W. (1989). Fundamental Immunolgy. New York. Raven Press.
Prikrylova, K. and M. Jilek (1986). Notes on mathematical modelling of the immune reponse. Congres. Prague
Penit, C. (1986). In vivo thymocyte maturation. BUdR labeling of cycling thymocytes and phenotypic analysis of their progeny support. Then single lineage model. The Journal of Immunology 137: 2115–2121.
Penit, C. and M. Papiernick (1986). Regulation of thymocyte proliferation and survival by desoxynucleosides. Desoxycytidine produced by thymic accessory cells protects thymocytes from deoxyguanosine toxicity and stimulates their spontaneous proliferation. Eur. J. Immunol. 16: 257–263.
Penit, C., F. Vasseur and M. Papiernik (1988). In vivo dynamics of CD4–8- thymocytes. Proliferation, renewal and differentiation of different cell subsets studied by DNA biosynthetic labeling and surface antigen detection. Eur. J. Immunol. 18: 1343–1350.
Penit, C. (1987). In vivo proliferation and differentiation of prothymocytes in the thymus. Immunol. Res. 6: 271–278.
Penit, C. (1988). Localization and Phenotype of Cycling and Post-cycling Murine Thymocytes Studied by Simultaneous Detection of Bromodeoxyurine and Surface Antigens. The Journal of Histochemistry and Cytochemistry 36: 473–478.
Penit, C. and F. Vasseur (1988). Sequential events in thymocyte differentiation and thymus regeneration revealed by a combination of bromodeoxyridine DNA labeling and antimitotic drug treatment. The Journal of Immunology 140: 3315–3323.
Penit, C. and S. Ezine (in press). Cell proliferation and thymocyte subset reconstitution in sublethally irradiated mice. Compared kinetics of endogenous and intrathymically transfered progenitors.
Penit, C. and F. Vasseur (in press). Cell proliferation and differentiation in thymus development.
Roitt, I., J. Brostoff and D. Male (1985). Immunologie fondamentale et apppliquée. Paris. MEDSI.
Satttentau, Q.J. (1988). The role of the CD4 antigen in HIV infection and immune pathogenesis. AIDS 2: S11-S16.
Smith, C.A., G.T. Williams, R. Kingston, E.J. Jenkinson and J.T. Owen (1989). Antibodies to CD3/T-cell receptor complex induce death by apoptosis in immature T cells in thymic cultures. Nature 337: 181–184.
Stroustrup, B.(1987). The C++ Programming Language. AT&T Bell Laboratories.
Weinand, R.G. and M. Conrad (1988). Maturation of the immune response: A computational Model. J. theor. biol. 133: 409–428.
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Buffat, L., Mary, JY. Automatic search for model to simulate the differentiation of T lymphocytes within the thymus. Acta Biotheor 40, 205–220 (1992). https://doi.org/10.1007/BF00168149
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DOI: https://doi.org/10.1007/BF00168149