INDEX OF AUTHORS AARDEN, L.A. — European Network of Im- and BRAUN-BRETON, C. — Malarial pro- munology Institute: Immune functions at teases: assignment of function to activity the molecular level. Summary of Sessions Barpli, R., Ju, L.Y., JENHANI, S., AYED, K., AARDEN, L.A. — See PARREN, P.W.H.T. CHAMMAKHI, S. and CHARRON, D. — As- ABBAS, A.K. — See WILLIAMS, M.E. sociation of type 1 diabetes mellitus with AcCHA-OrBEA, H. — Limited heterogeneity of the HLA-DQA1*0301 allele in a Tunisian autoantigens and T cells in autoimmune population diseases? Barry, P. — See FIALA, M. AITMAN, T.J. — See Topp, J.A. BARNWELL, J.W. and GALINskI, M.R. — The ALCAIDE-LORIDAN, C. — See Bono, M.R. adhesion of malaria merozoite proteins to ANDRADE, Z.A. — Pathogenesis of Chagas’ erythrocytes: a reflection of function? . disease BEcourRT, C. — See BoiTarp, C. ANDRIEN, M. — See LAMBERT, M. Beur, C. and Dusois, P. — Evaluation of hu- ANTOINE, N. — See HEINEN, E. man T-cell response to malaria antigens in APEL, M. and Berek, C. — Molecular analy- naturally acquired immunity sis of germinal centre B cells BELL, J. — See McMICHAEL, A. ARANDA-ANZALDO, A. — A role for CD8* BEREK, C. — See APEL, M. T lymphocytes in the pathogenesis of AIDS BETz CoRRADIN, S. — See MAUEL, J. ARANEO, B.A. — See DAynegs, R.A. BIEWENGA, J. — See Soesatyo, M. ARNHOLDT, A.C.V. and SCHARFSTEIN, J. — BILLIAR, T.R., LANGREHR, J.M., CURRAN, Immunogenicity of 7rypasonoma cruzy R.D., Ocuoa, J.B., STADLER, J., HaAr- cysteine proteinase BRECHT, B.G., HOFFMAN, R.A. and SiIm- ARNOLD, B. — See HAMMERLING, G.J. MONS, R.L. — Two unique aspects of ATTAayA, M. — See Monaco, J.J. inducible ._N =O synthase in liver cells and AVRAMEAS, S. — See BAcCALA, R. accessory cells: hepatic damage is Ayapi, H., MARCHE, P.N., El Gaaiep, A., minimized by hepatocyte ._N=O produc- Liepe-Gris, C. and CAZENAVE, P.-A. — tion and immunoregulation is mediated by Organization and structure of wild rabbit macrophage .N=O production x2 genes: implications for regulation of BogEVE, L.C.M. — See PArrEN, P.W.H.I. kappa expression BoITARD, C., SEMPE, P., VILLA, M.C., BE- AyYeED, K. — See BarpI, R. court, C., RICHARD, M.F., Timsit, J. and BABINET, C. — See KALLENBACH, S. BacH, J.F. — Monoclonal antibodies: BAcCALA, R., GUILBERT, B., LABROUSSE, H., probes for studying experimental autoim- AVRAMEAS, S. and Gounon, P. — Visuali- munity in animals zation of natural autoantibody polyreactivi- BoiTarD, C. — See BAcH, J.-F. ty by rotary metal-shadowing electron BoNnNEFOY, S. — See MERCEREAU-PUIJALON, O. microscopy Bono, M.R., ALCAiDE-LORIDAN, C., LETOUZE, Bacu, J.-F., CAILLAT-ZUCMAN, S., GARCHON, B., Jouin, H., Gosin, S.J.P. and FELLous, H.-J., Timsit, J. and Boitarp, C. — M. — The recombinant human interferon-y Mechanisms and significance of HLA receptor is fully functional in a human x type I diabetes association murine hybrid containing human chromo- Bacn, J.F. — See Boitarp, C. some 21 BALLs, M. — See CLOTHIER, R.H. BossELoirR, A. — See HEINEN, E. BARALE, J.-C., LANGSLEY, G., MANGEL, W.F. BOUHAROUN-TAYOUN, H. — See DRUILHE, P. 858 RESEARCH IN IMMUNOLOGY BRAUN-BRETON, C. — See BARALE, J.-C. CHRISTOPHER, R. — See FIALA, M. BRENER, Z. — See GAZZINELLI, G. Ciaas, F.H.J. — See ZHANG, J.J. BRETSCHER, P.A. — The regulatory functions CLAASSEN, E. — Histological organization of of CD4* and CD8* T-cell subsets in im- the spleen: implications for immune func- mune class regulation tions in different species Brey, P.T. — ‘‘The taming of the CLAASSEN, E. — See Brown, A.R. Anopheles’’ : current trends in malaria vec- CLAASSEN, E. — See Van den E&RTWEGH, tor research A.J.M. Brick-GHANNAM, S. — See CHARRON, D. CLAASSEN, E. — See WESTERMANN, J. Bropsky, F.M. — Intracellular routes for an- CLOTHIER, R.H., RUBEN, L.N., BALLS, M. and tigen processing and presentation GREENHALGH, L. — Morphological and Brown, A.R. and CLAASSEN, E. — B lympho- immunological changes in the spleen of cytes in the spleen: idiotype and anti- Xenopus laevis during metamorphosis . idiotype antibody-forming cells: qualitative COFFMAN, R.L., CHATELAIN, R., LEAL, and quantitative aspects of an in situ en- L.M.C.C. and VarKILA, K. — Leishmania zyme histochemial approach major infection in mice: a model system for Brown, G.D., NoBUNAGA, T., Morris, D.R. the study of CD4* T-cell subset differen- and MERuELO, D. — Jn vivo stimulation of tiation H-2D¢ expression following RadLV infec- CorFMAN, R.L. and MosMann, T.R. — CD4* tion of thymocytes: increased transcription T-cell subsets: regulation of differentiation and DNA-binding activity to sequence 5’ of and function the D® gene Cone, L.A. — See FIALA, M. Brown, J.H. — See Goraa, J.C. CoRBEAU, P. — See PONCELET, P. Brown, M.G. — See Monaco, J.J. CorRNALL, R.J. — See Topp, J.A. BUCHMULLER ROUILLER, Y. — See MAUEL, J. CurRRAN, R.D. — See BILLIAR, T.R. Burke, S.K. — See WILLIAMS, M.E. DanskA, J.S. — See RUBERTI, G. CABEZA MECKERT, P. — See LAGUENS, R.P. Davip, P.H. — A malaria divertimento .. CAILLAT-ZUCMAN, S. — See BAcu, J.-F. Davip, P.H. — See SNeEwin, V.A. CARREL, S., SALVI, S., GALLAY, P., RAPIN, C. Daynes, R.A., MEIKLE, A.W. and ARANEO, and SEKALI, R.P. — Positive signal trans- B.A. — Locally active steroid hormones duction via surface CD4 molecules does not may facilitate compartmentalization of im- need coexpression of the CD3/TcR com- munity by regulating the types of lym- plex phokines produced by helper T cells ... CARTER, R. — See MENDis, K.N. DELARBRE, C. — See GODEAU, F. CASANOVA, J.-L. — See GobDEAU, F. De.LovitcH, T.L. — See Hapzia, M. CAZENAVE, P.-A. — See Ayan, H. Devaux, C. — See PONCELET, P. CeBRA, J.J., SCHRADER, C.E., SHROFF, K.E. DiskstRA, C.D. and KraaL, G. — Non- and WEINSTEIN, P.D. — Are Peyer’s patch lymphoid cells in the splenic white pulp germinal centre reactions different from DuykstrRA, C.D. and Van den BeErc, T.K. — those occurring in other lymphoid tissues ? The follicular dendritic cell: possible CERBAN, F. — See Gruppl, A. regulatory roles of associated molecules CHAMBO, J. — See LAGUENS, R.P. DosBasHi, M. — See TERASHIMA, K. CHAMMAKHI, S. — See Barpi, R. DrapigeR, J.C. — L-arginine-derived nitric CHANG, T.L. — See WILLIAMS, M.E. oxide and the cell-mediated immune CHAOUAT, G., KINSKy, R., HOFMANN, R., response RABOURDIN ComBg, C. and KouriLsky, P. DRUILHE, P. and BOUHAROUN-TAYOUN, N. — — The in vivo antibody response to han Natural immunities EGG white lysozyme in H-2°-compatible Dusois, P. — See BEnHR, C. responder and non-responder mice: is it Dupont, E. — See LAMBERT, M. regulated by its N-terminal peptide at the EBERSOLE, J.L. and KORNMAN, K.S. — Sys- level of antigen-presenting cells? temic antibody responses to oral microor- CHARRON, D., BRICK-GHANNAM, S., RAMIREZ, ganisms in the cynomolgus monkey: R. and Mooney, N. — HLA class-Il- development of methodology and longitu- mediated B-lymphocyte activation: signal dinal responses during ligature-induced dis- transduction and physiologic consequences CHARRON, D. — See Baropi, R. EckE.Ls, D.D., Geicer, M.J. and Gorski, J. — CHATELAIN, R. — See CorrMan, R.L. Towards a structural understanding of al- CHERMANN, J.C. — See PONCcELET, P. loreactivity Cuo, S. — See Monaco, J.J. El Gaaiep, A. — See Ayapi, H. INDEX OF AUTHORS FAIRCHILD, K.D. — See GopEAu, F. Gounon, P. — See BAccaLA, R. FANDEUR, T. — See MERCEREAU-PUIJALON, O. GRANGER, D.L. — Macrophage production of FATHMAN, C.G. — See RuBERTI, G. nitrogen oxides in host defence against FELLous, M. — See Bono, M.R. microorganisms FIALA, M., Cone, L.A., CHRISTOPHER, R., Gray, D. — Understanding germinal centres KERMANI, V. and GorNBEIN, J.A. — Hu- GREEN, S.J. — See Nacy, C.A. man immunodeficiency virus type 1 an- GREENHALGH, L. — See CLOTHIER, R.H. tigenaemia is enhanced in patients with Gruppl, A., PISTORESI-PALENCIA, M.-C., CER- disseminaed cytomegalovirus infection and BAN, F. and VotTTerRo-Cima, E. — deficient T lymphocytes Trypanosoma cruzi exoantigens : can those FIALA, M., Mosca, J.D., Barry, P., Luciw, recognized by sera from chagasic patients P.A. and Vinters, H.V. — Miulti-step trigger a protective immune response in pathogenesis of AIDS — role of mice? cytomegalovirus GUILBERT, B. — See BAcCALA, R. FitcH, F.W. — See GAsewskI, T.F. GUILLOTTE, M. — See MERCEREAU- FowELL, D. — See Powrig, F. PUIJALON, O. FREEDMAN, A.S. and NADLER, L.M. — Cellu- GysInN, J. — Relevance of the squirrel monkey lar interactions within the germinal centre as a model for experimental human malaria Fucus, D. — See WERNER-FELMAYER, G. GysIN, J. — See GARRAUD, O. FusJISAWA, K. — See NisHimura, Y. GysIN, J. — See Kun, J. GACHELIN, G. — See GobDEAU, F. Hapziya, M., SempLe, J.W. and DELovitcn, GAJEWSKI, T.F. and Fitcn, F.W. — Differen- T.L. — Influence of antigen processing on tial activation of murine TH1 and TH2 thymic T-cell selection clones HALL, J. — See Topp, J.A. GALINSKI, M.R. — See BARNWELL, J.W. HAMMERLING, G.J., SCHONRICH, G., Mom- GALLAY, P. — See CArRREL, S. BURG, F., MALISSEN, M., SCHMITT- GARCHON, H.-J. — See BAcu, J.-F. VERHULST, A.-M., MALISSEN, B. and GARRAUD, O., PERRAUT, R. and GysIn, J. — ARNOLD, B. — Distinct mechanisms of Peripheral blood mononuclear cells in the peripheral tolerance in transgenic mice . squirrel monkey Saimiri sciureus: explora- HARBRECHT, B.G. — See BILLIAR, T.R. tion of the IL2/IL2R pathway of T-cell ac- Hausen, A. — See WERNER-FELMAYER, G. tivation HEARNE, C.M. — See Topp, J.A. Gaur, A. — See RuBErTI, G. HEINEN, E., TsuNopA, T., MArcory, C., Bos- GAZZINELLI, G. and BRENER, Z. — Immuno- SELOIR, A., KINET-DENOEL, C., ANTOINE, logical aspects of the morbidity of human N. and Simar, L.J. — The germinal Chagas’ disease centre: a monastery or a bar? ........ GAZZINELLI, R.T. — Natural anti-Gal antibod- HEINZEL, F.P. — See LocksLey, R.M. ies prevent, rather than cause, autoimmu- HESSELBACH, J. — See Kun, J. nity in human Chagas’ disease Hisss, J.B., Jr — Synthesis of nitric oxide GEERTS, M.E.J. — See PArREN, P.W.H.I. from L-arginine: a recently discovered GEIGER, M.J. — See EcxeE ts, D.D. pathway induced by cytokines with an- GHOsH, S. — See Topp, J.A. titumour and antimicrobial activity .... Del Giupice, G., Lussow, A.R. and LAMBERT, Hosss, S.H. — See Root-BERNSTEIN, R.S. P.-H. — Heat shock proteins as ‘‘super’’- HoFMANN, R. — See CHaAouat, G. carriers for sporozoite peptide vaccines? HorFMAN, R.A. — See BILLIAR, T.R. GoBIN, S.J.P. — See Bono, M.R. Hotapay, B.J. — See Locks.ey, R.M. GODEAU, F., CASANOVA, J.-L., FAIRCHILD, Homme. , M. — Steps towards a malaria vac- K.D., SAuciER, C., DELARBRE, C., CACHE- LIN, G. and Kouri_sky, P. — Expression HONTEBEYRIE-JOSKOWICZ, M. — Murine and characterization of recombinant mouse Trypanosoma cruzi infection: a role for $,-microglobulin type a in insect cells in- TH2 cells in the immunopathology of fected with recombinant baculoviruses . 409 chronic infection GOODHARDT, M. — See KALLENBACH, S. HONTEBEYRIE-JOSKOWICZ, M. and Minoprio, P. Gorpbon, J. — See MacLennan, I.C.M. — Chagas’ disease: 7rypanosoma cruzZi Vs. GorGa, J.C., Brown, J.H., JARDETzkKy, T., the host immune system WiLey, D.C. and Srromincer, J.L. — HONTEBEYRIE-JOSKOWICZ, M. — See STAROBI- Crystallization of HLA-DR antigens . 401 NAS, N. GORNBEIN, J.A. — See FIALA, M. IMAI, Y. — See TERASHIMA, K. Gorski, J. — See EckeEts, D.D. JARDETZKY, T. — See Goraa, J.C. 860 RESEARCH IN IMMUNOLOGY JENHANI, S. — See Barbi, R. LAVERRIERE, A. — See MARCHE, P.N. JEURISSEN, S.H.M. — Structure and function LEAL, L.M.C.C. — See CorrMan, R.L. of the chicken spleen LeecH, J. — Plasmodium falciparum cytoad- JOHNSON, G.D. — See MacLennan, I.C.M. herence Jouin, H. — See Bono, M.R. LeGuern, C. — See MArcHE, P.N. Ju, L.Y. — See Baro, R. LEMAIRE, G. — See LEpoivre, M. KALLENBACH, S., GOODHARDT, M., BABINET, C. LepoivreE, M., RaAppassi, K., Oswa.p, I., and RouGEOoN, F. — Mutation of im- TeENU, J.-P. and LEMAIRE, G. — An- munoglobulin J, splice sites does not af- tiproliferative effects of NO synthase fect the rearrangement frequency of J, products segments LeEtTouzE, B. — See Bono, M.R. KAMIKAWAJI, N. — See NISHIMURA, Y. Levin, M.J. — Molecular mimicry and Cha- Kast, W.M. — See MEL.IEF, C.J.M. gas’ heart disease: hight anti-R-13 autoan- KERMANI, V. — See FIALA, M. tibody levels are markers of severe Chagas KiLBourRN, R.G. — Regulation of nitric oxide heart complaint biosynthesis LICHTMAN, A.H. — See WiLtiams, M.E. Kimura, A. — See NISHIMURA, Y. LieBe-Gris, C. — See AyaApi, H. KinpT, T.J. — See MArcHE, P.N. Liu, Y.-J. — See MacLennan, I.C.M. KINET-DENOEL, C. — See HEINEN, E. LIVINGSTONE, A. — See RUBERTI, G. KiInsky, R. — See CHAouat, G. LocksLeEY, R.M., HEINZEL, F.P., HoLapay, KNIGHT, A. — See Topp, J.A. B.J., Mutua, S.S., REINER, S.L. and KORNMAN, K.S. — See EBERSOLE, J.L. Sapick, M.D. — Induction of Thl and Kors, N. — See Sogesatyo, M. Th2 CD4* subsets during murine Leish- Kosco, M. — Germinal centres and the im- mania major infection mune response LONGACRE, S. — See SNEWIN, V.A. Kosco, M.H. — Cellular interactions during Love, J. — See Topp, J.A. the germinal centre response Luciw, P.A. — See FIALA, M. KourILsky, F. — See PONCELET, P. Lussow, A.R. — See Del Giupice, G. KourRILsky, P. — See CHAouaT, G. McALEER, M.A. — See Topp, J.A. KourRILsky, P. — See GobDEAU, F. Maccuia, D. — See ROMAGNANI, S. KRAAL, G. — See Disxstra, C.D. McDevitt, H. — Ir genes: towards the year KrRoeseE, F.G.M., SENWEN, H.G. and NIEUWEN- 2000 HUIS, P. — The initiation of germinal MacLennan, I.C.M., JoHNson, G.D., Liu, Y.-J. centre reactivity and Gorpon, J. — The heterogeneity of Kun, J., HESSELBACH, J., SCHREIBER, M., follicular reactions SCHERF, A., GysIN, J., MATTE!I, D., MacLennan, I.C.M. and Liu, Y.-J. — Margi- PEREIRA da Si_vA, L. and MULLER-HILL, B. nal zone B cells respond both to polysac- — Cloning and expression of genomic charide antigens and protein antigens .. DNA sequences coding for putative McKniGuT, A.J. — See Powrig, F. erythrocyte membrane-associated antigens McMIcHAEL, A. and BELL, J. — HLA B27: a of Plasmodium falciparum disease-associated immune response gene KwIATKowskI, D. — Cytokines and anti- MaepbaA, K. — See TERASHIMA, K. disease immunity to malaria Maacai, E. — See ROMAGNANI, S. LaBROUSSE, H. — See BAcCALA, R. MALISSEN, B. — See HAMMERLING, G.J. LAGUENS, R.P., CABEZA MECKERT, P. and CHAMBO, J. — Origin and significance of MALISSEN, M. — See HAMMERLING, G.J. anti-heart and anti-skeletal muscle autoan- MANGEL, W.F. — See BARALE, J.-C. tibodies in Chagas’ disease MANNING, M.J. — Histological organization of the spleen: implications for immune LAMBERT, M., Van EGGERMOND, M., ANDRIEN, functions in amphibians M., Mascart, F., VAMos, E., Dupont, E. and Van den ELsen, P. — Analysis of the MaArcue, P.N., LAVERRIERE, A., LeGUERN, C. peripheral T-cell compartment in the MHC and KinptT, T.J. — A gene remnant in the class II deficiency syndrome rabbit MHC related to HLA-DR«a LAMBERT, P.-H. — See Del Giupice, G. MARCHE, P.N. — See Ayapi, H. LAMERS, C.H.J. — See Van MUuISWINKEL, Marcoty, A. — See HEINEN, E. W.B. MARQUEZ, C. — See PEzzi, L. LANGREHR, J.M. — See BILLIAR, T.R. MArTINEZ-A., C. — See Pezzi, L. LANGSLEY, G. — See BARALE, J.-C. MascartT, F. — See LAMBERT, M. LATHROP, M. — See Topp, J.A. Mason, D. — See Powrig, F. INDEX OF AUTHORS Matsuno, K. — Outer PALS as an im- NELSON, B.J. — See Nacy, C.A. munoproliferative microenvironment ... 342 NIEUWENHUIS, P. — See Kroesge, F.G.M. Mattel, D. and ScHerFr, A. — Cross-reacting NISHIMURA, Y., KAMIKAWAJI, N., FusisaAwa, epitopes shared between Plasmodium fal- K., YOSHIZUMI, H., YASUNAMI, M., ciparum and its host: the origin of au- KimurA, A. and SAsAzuki, T. — Genetic toreactive antibodies? ................ control of immune response and disease Matte!, D. — See Kun, J. susceptibility by the HLA-DOQ gene .... Mavué., J., Betz Corrapin, S. and Bucu- NosunaGa, T. — See Brown, G.D. MULLER ROUILLER, Y. — Nitrogen and oxy- OcuHoa, J.B. — See BILLIAR, T.R. gen metabolites and the killing of OswaLp, I. — See LEpoivre, M. Leishmania by activated murine macro- Passt, R. and WESTERMANN, J. — The unique phages role of the spleen and its compartments in Maziger, D. — Malaria antigens expressed on lymphocyte migration the surface of infected hepatocytes: a role PasstT, R. — See WESTERMANN, J. in protective immunity? .............. PARHAM, P. — The pros and cons of poly- MEIKLE, A.W. — See Daynes, R.A. morphism: a brighter future for cheetahs? ME .tEF, C.J.M. and Kast, W.M. — T-cell im- PARREN, P.W.H.I., Geerts, M.E.J., Boge, munotherapy of cancer L.C.M. and AArRpeN, L.A. — Induction MELTZER, M.S. — See Nacy, C.A. of T-cell proliferation by recombinant MeENpis, K.N. and Carter, R. — Transmis- mouse and chimeric mouse/human anti- sion blocking immunity may provide clues CD3 monoclonal antibodies that antimalarial immunity is largely T- PARRONCHI, P. — See ROMAGNANI, S. independent PEREIRA da Si_va, L. — See Kun, J. MERCEREAU-PUIJALON, O., FANDEUR, T., GUIL- PERKINS, M.E. — Approaches to study LOTTE, M. and Bonneroy, S. — Parasite merozoite invasion of erythrocytes features impeding malaria immunity: an- PERRAUT, R. — See GARRAUD, O. tigenic diversity, antigenic variation and PETERLIN, B.M. — Transcriptional regulation poor immunogenicity of HLA-DRA gene MERUELO, D. — See Brown, G.D. PETERSON, L. — See Topp, J.A. MInoprRIO, P. — Chagas’ disease: CDS5 B-cell- Petry, K. and Van Vooruis, W.C. — Anti- dependent Th2 pathology? gens of Trypanosoma cruzi that mimic MInoprio, P. — See HONTEBEYRIE-JOSKOWICZ, mammalian nervous tissues: investigations M. of their role in the autoimmune Mrnoprio, P. — See STAROBINAS, N. pathophysiology of chronic Chagas’ disease Momesurc, F. — See HAMMERLING, G.J. Pezzi, L., MARQuEz, C., Torisio, M.L. and Monaco, J.J., CuHo, S., Attraya, M. and MarTINEz-A., C. — Translocation of alka- Brown, M.G. — Molecular genetics of the line phosphatase during the activation of B K end of the murine MHC cells Mooney, N. — See CHARRON, D. PiccINNi, M.-P. — See ROMAGNANI, S. Morris, D.R. — See Brown, G.D. PIRMEz, C. — See RIBEIRO-dos-SANTOs, R. Mosca, J.D. — See FIALA, M. PISTORESI-PALENCIA, M.-C. — See Gruppli, A. MosMANN, T.R. — Cytokine secretion pheno- Poinas, G. — See PONCELET, P. types of TH cells: how many subsets, how PONCELET, P., PoinAs, G., CORBEAU, P., WE NS io ov cc ccc acwexvacs’ DeEvAUx, C., TUBIANA, N., MUuLoko, N., MosMAnn, T.R. — See COFFMAN, R.L. TAMALET, C., CHERMANN, J.C., KOURILSKY, MULLER-HILL, B. — See Kun, J. F. and Sampo, J. — Surface CD4 densi- Mutscu, A. — NO synthases: mechanism of ty remains constant on lymphocytes of activation, identity of NO, and expression HIV-infected patients in the progression of in human cells disease Mu.oxo, N. — See PONCELET, P. Powrig, F., Fowe__, D., McKniGuT, A.J. and MutTnwa, S.S. — See Locks.Ley, R.M. Mason, D. — Lineage relationships and Nacy, C.A., NELSON, B.J., MELTZER, M.S. functions of CD4* T-cell subsets in the rat and GREEN, S.J. — Cytokines that regulate Prins, J.B. — See Topp, J.A. macrophage production of nitrogen oxides RABOURDIN ComBE, C. — See CHAOUAT, G. and expression of antileishamanial activi- Rappassi, K. — See LeEpoivre, M. ties RADEMAKERS, L.H.P.M. — Follicular dendrit- NADLER, L.M. — See FREEDMAN, A.S. ic cells in germinal centre development . 257 NATHAN, C. — A commentary: inducible RAMIREZ, R. — See CHARRON, D. nitric oxide synthase Rapin, C. — See CARREL, S. 862 RESEARCH IN IMMUNOLOGY REIBNEGGER, G. — See WERNER-FELMAYER, G. mune response of the rat after in- REINER, S.L. — See Locks.Ley, R.M. traperitoneal depletion of macrophages by RIBEIRO-dos-SANTOS, R., PIRMEZ, C. and SAvI- liposome-encapsulated dichloromethylene No, W. — Role of autoreactive immuno- diphosphanate logical mechanisms in chagasic carditis . Spits, H. — See de Vrigs, J.E. RICHARD, M.F. — See Boitarp, C. STADLER, J. — See BILLiAR, T.R. ROMAGNANI, S., Macai, E., PARRONCHI, P., STAROBINAS, N., Russo, M., MINoprRio, P. and MaccuiA, D. and Piccinni, M.-P. — HONTEBEYRIE-JOSkowicz, M. — Is TNFa Regulation of IgE synthesis by CD4~ hu- involved in early susceptibility of T7rypano- man T-cell subsets soma cruzi-infected C3H/He mice Romsout, J.H.W.M. — See Van MUISWINKEL, STAROBINAS, N. — See Russo, M. W.B. STOHLMAN, S.A. — Accessory cells control in- RONCAROLO, M.-G. — See de Vries, J.E. duction of CD4* T cells with specific ef- Root-BERNSTEIN, R.S. and Hosss, S.H. — fector function Homologie between mycoplasma adhesion STROMINGER, J.L. — See Goraa, J.C. peptide, CD4 and class II MHC proteins: Swain, S.L. — Regulation of the development a possible mechanism for HIV-mycoplasma of distinct subsets of CD4* T cells .... synergism in AIDS SZAKAL, A.K. and Tew, J.G. — Significance ROUGEON, F. — See KALLENBACH, S. of iccosomes in the germinal centre reaction RuBen, L.N. — See CLorTuier, R.H. TAMALET, C. — See PONCELET, P. RUBERTI, G., LIVINGSTONE, A., DANSKA, J.S., TARLETON, R.L. — The role of T-cell sub- Gaur, A. and FATHMAN, C.G. — Analysis populations in experimental Chagas’ dis- of the ternary complex of antigen, MHC and T-cell receptor: the influence of the TENU, J.-P. — See LEpoivre, M. T-cell receptor V8 repertoire on the VB gene TERASHIMA, K., DoBASHI, M., MAEDA, K. and element usage Imai, Y. — Cellular components involved Russo, M. and Starosinas, N. — Macro- in the germinal centre reaction phage activation and resistance to T7rypano- Tew, J.G. — See SZAKAL, A.K. soma cruzi infection THORBECKE, G.J. — See TsIAcBE, V.K. Russo, M. — See STARoBINAS, N. TIMENS, W. — The human spleen and the im- Sapick, M.D. — See LocksLey, R.M. mune system: not just another lymphoid SALVI, S. — See CARREL, S. organ SAMPOL, J. — See PONCELET, P. Timsit, J. — See Bacn, J.-F. SASAZUKI, T. — See NISHIMURA, Y. TimsitT, J. — See Boitarp, C. SAUCIER, C. — See GODEAU, F. Topp, J.A., AITMAN, T.J., CORNALL, R.J., SAVINO, W. — See RIBEIRO-dos-SANTOS, R. GHOSH, S., HALL, J., HEARNE, C.M., SCHARFSTEIN, J. — See ARNHOLDT, A.C.V. KNIGHT, A., Love, J., McALEER, M.A., ScCHERF, A. — See Kun, J. Prins, J.B., LATHROP, M., PETERSON, L. SCHERF, A. — See Mattel, D. and Wicker, L. — Genetic analysis of a SCHMITT-VERHULST, A.-M. — See HAMmeErR- complex, multifactorial disease, autoim- LING, G.J. mune type | (insulin-dependent) diabetes SCHONRICH, G. — See HAMMERLING, G.J. Toripio, M.L. — See Pezzi, L. SCHRADER, C.E. — See Cepsra, J.J. TsIAGBE, V.K. and THORBECKE, G.J. — Scott, P. — Host and parasite factors Memory B cells and germinal centres .. regulating the development of CD4* TsuUNODA, T. — See HEINEN, E. T-cells subsets in experimental cutaneous TUBIANA, N. — See PONCELET, P. leishmaniasis Vamos, E. — See LAMBERT, M. SEVEN, H.G. — See Krogse, F.G.M. Van den Bera, T.K. — See Diskstra, C.D. SEKALY, R.P. — See CArrREL, R.P. Van den EERTWEGH, A.J.M. and CLAAssEN, E. SEMPE, P. — See BoiTarp, C. — T cells in the spleen: localization, SEMPLE, J.W. — See Hapzisa, M. cytokine production and cell/cell interac- SHROFF, K.E. — See Cesra, J.J. tions SIMAR, L.J. — See HEINEN, E. Van den ELsen, P. — See LAMBERT, M. Simmons, R.L. — See BILLIAR, T.R. Van EGGERMOND, M. — See LAMBERT, M. SMINIA, T. — See Sogsatyo, M. Van MUISWINKEL, W.B., LAMErS, C.H.J. and SNEWIN, V.A., LONGACRE, S. and Davip, P.H. Romsout, J.H.W.M. — Structural and — Plasmodium vivax: older and wiser? functional aspects of the spleen in bony fish SoESATYO, M., BIEWENGA, J., van ROOWEN, N., Van Roop, J.J. — See ZHANG, L. Kors, N. and SmMInia, T. — The in situ im- Van Roolsen, N. — The role of antigens, an- INDEX OF AUTHORS tibodies and immune complexes in the func- — Histophysiology of autotransplanted tional activity of germinal centres 272 splenic tissue Van RooieEN, N. — The humoral immune WEINSTEIN, P.D. — See CesraA, J.J. response in the spleen 328 WESTERMANN, J. — See Passt, R. Van RooiEN, N. — See Sogesatyo, M. WiIcKER, L. — See Topp, J.A. Van VooruHis, W.C. — See Petry, K. WiLey, D.C. — See Goraa, J.C. VARKILA, K. — See COFFMAN, R.L. WILLIAMS, M.E., CHANG, T.L., BurKE, S.K., VILLA, M.C. — See Boitarp, C. LICHTMAN, A.H. and Aspas, A.K. — Ac- VINTERS, H.V. — See FIALA, M. tivation of functionally distinct subsets of VOTTERO-CIMA, E. — See Gruppl, A. CD4* T lymphocytes De Vrigs, J.E., de WAAL MALEFYT, R., YSSEL, WraITH, D.C. — The use of MHC-binding H., RoNcaAroLo, M.-G. and Spits, H. — Do peptides in the immunotherapy of autoim- human TH1 and TH2 CD4* clones exist? mune diseases: a commentary De WAAL MALEFytT, R. — See de Vries, J.E. YASUNAMI, M. — See NIsSHIMuRA, Y. WACHTER, H. — See WERNER-FELMAYER, G. YOSHIZUMI, H. — See NISHIMURA, Y. WERNER, E.R. — See WERNER-FELMAYER, G. YssEL, H. — See de Vrizs, J.E. WERNER-FELMAYER, G., WERNER, E.R., ZAVALA, F. — The multifactorial character of Fucus, D., HAUSEN, A., REIBNEGGER, G. the protective immunity induced by immu- and WacnTER, H. — On multiple forms of nization with sporozoites NO synthase and their occurrence in human ZHANG, L., van Roop, J.J. and Ciaas, F.H.J. cells — The T-cell repertoire is not dictated by WESTERMANN, J., PABsT, R. and CLAASSEN, E. self antigens alone INDEX OF KEY-WORDS AIDS, CMV, HIV; ACE, ADC, Pathogene- Thymus, Antigen processing, Insulin, sis; Times and Trends Selection, Nurse cells AIDS, HIV, Replication, T lymphocyte, Im- Arginine, Nitric oxide, Immunoregulation, munosuppression; Clonal anergy, Graft vs. Macrophage; Calcium, Bacteriostasis, host disease, Experimental immunodefi- Cytostasis; Forum ciency; Position paper Autoantibody, Epitope, Myosin, Immunoregu- AIDS, Retinitis, CMV, HIV1, T lymphocyte, lation; Immune complexes, Electron Antigenaemia; CD4 and CD8 deficiencies, microscopy, Polyreactivity, NaAAb .... Viraemia, p24 antigen Autoantigen, T lymphocyte, Diabetes, Retrovi- AIDS, T lymphocyte, CD4, HIV; Phenotyp- rus; Mls locus, MHC, TcR, Oligoclonali- ing, V1-V2 domains ty, Autoimmune diseases Alkaline phosphatase, B lymphocyte, Plasmo- Autoimmune disease, Diabetes, MHC; Mouse cyte, Cytoskeleton; Differentiation, Trans- Autoimmune disease, MHC, T lymphocyte; location Peptides, EAE, TcR, Immunotherapy .. Allele DQA1, Diabetes, HLA; Genotyping, Autoimmune disease, T lymphocyte, Thymus, Tunisia APC, Antigen processing; Insulin, Selec- Alloreactivity, MHC, T lymphocyte; Recep- tion, Nurse cell tors, Peptides, Recognition, Interactions Autoimmunity, Chagas’ disease, 7rypanoso- Allorepertoire, T lymphocyte, HLA; Cytotox- ma cruzi, T lymphocyte, Carditis ;F orum icity Autoimmunity, MHC mAb, T-cell receptor, Allotypy, Immunoglobulin, Rabbit, Kappa Diabetes; NOD mouse chain, Genome; bas mutant, Kappa-2 B lymphocyte, Alkaline phosphatase, Plasmo- genes, Evolution cyte, Cytoskeleton; Differentiation, Trans- Antigen presentation, HLA, Immunogenetics, location Immunosuppression, T lymphocyte; Im- B lymphocyte, HLA, MHC, Transduction; mune response gene, Disease susceptibility Class II antigens Antigen processing, MHC, Genome; K end, B lymphocyte, Lymphoid tissue, Germinal Mouse centre, T lymphocyte, Memory cell, Plas- Antigen processing, T lymphocyte, Autoim- mocyte; Follicular dendritic cell, Immune mune disease, Thymus, APC; Insulin, response; Forum Selection, Nurse cells B lymphocyte, Spleen, T lymphocyte, Im- Antigenaemia, AIDS, Rettinitis, CMV, HIV1, munogenesis; Histology, Polygenesis, T lymphocyte; CD4 and CD8 deficiencies, Transplantations; Forum Viraemia, p24 antigen 8,-microglobulin*, Baculovirus, MHC; Antigenicity, Immunogenicity, Trypanosoma Mouse, Characterization cruzi, Exoantigen, Chagas’ disease; Hu- Baculovirus, §8,-microglobulin*, MHC; moral immunity, Cellular immunity, Mouse, Characterization Mouse, Experimental infection Cachexia, ZJrypanosoma cruzi, Tumour Antigenicity, Malaria, Erythrocyte, Plasmodi- necrosis factor, Cytokine, Macrophage; um falciparum, DNA; Genome, Cloning, Cachectin, Mouse, Mortality, Immuno- Membrane-associated antigen, Vaccine . genetics APC, Lysozyme, Peptide, MPC, Macrophage, Carditis, Chagas’ disease, Trypanosoma cru- Immunoregulation; H-2° mouse, N- zi, T lymphocyte, Autoimmunity ;F orum terminal peptides, Responder mice CD3, T lymphocyte, IgG, IgM, IgE, Im- APC, T lymphocyte, Autoimmune disease, munosuppression, TcR; Activation, mAb, 866 RESEARCH IN IMMUNOLOGY Isotypes, PBMC, Chimeric antibodies, Genome, MHC, Antigen processing; K end, ADCC, FcR Mouse CD4, T lymphocyte, AIDS, HIV; Phenotyp- Germinal centre, Lymphoid tissue, T lympho- ing, V1-V2 domains cyte, B lymphocyte, Memory cell, Plasmo- CD4, T lymphocyte, TcR, HIV; mAb, IL], [L2 cyte; Follicular dendritic cell, Immune Chagas’ disease, Antigenicity, Immunogenic- response; Forum ity, 7rypanosoma cruzi, Exoantigen; Hu- Gingivitis, Periodontitis, IgG, IgM, Porphyro- moral immunity, Cellular immunity, monas gingivalis; Monkey, Inmunomodu- Mouse, Experimental infection lation, Thymopoietin, Model Chagas’ disease, 7rypanosoma cruzi, T lym- H-2, Oncogenesis, Thymocyte, Leukaemia, phocyte, Autoimmunity, Carditis; Forum MHC, Radiation, DNA; H-2D¢ expres- Chromosome 21, IFNy, Transfection, Trans- sion, Viral induction duction; Signal, Antiviral protection, So- HIV, AIDS, Replication, T lymphocyte, Im- matic cell hybrids, Induction munosuppression; Clonal anergy, Graft vs. Class II molecule, MHC, Peptide; Vaccina- host disease, Experimental immunodefi- tion, Antigen processing ciency; Position paper CMV, AIDS, Retinitis, HIV1, T lymphocyte, HIV1, AIDS, Retinitis, CMV, T lymphocyte, Antigenaemia; CD4 and CD8 deficiencies, Antigenaemia; CD4 and CD8 deficiencies, Viraemia, p24 antigen Viraemia, p24 antigen CMV, HIV, AIDS; ACE, ADC, Pathogene- HIV, CMV, AIDS; ACE, ADC, Pathogene- sis; Times and Trends sis; Times and Trends Cytokine, 7rypanosoma cruzi, Tumour necro- HIV, T lymphocyte, CD4, AIDS; Phenotyp- sis factor, Cachexia, Macrophage; Cachec- ing, V1-V2 domains tin, Mouse, Mortality, Immunogenetics HIV, T lymphocyte, TcR, CD4; mAb, ILI, Cytoskeleton, Alkaline phosphatase, B lym- IL2 phocyte, Plasmocyte; Differentiation, HLA, Diabetes, Allele DQA1; Genotyping, Translocation Tunisia Diabetes, Autoimmune disease, MHC; Mouse HLA, Diabetes, MHC; Murine models, Man Diabetes, HLA, Allele DQA1; Genotyping, HLA, Immunogenetics, Immunosuppression, Tunisia T lymphocyte, Antigen presentation; Im- Diabetes, HLA, MHC; Murine models, Man mune response gene, Disease susceptibility Diabetes, MHC mAb, T-cell receptor, Autoim- HLA, MHC, B lymphocyte, Transduction; munity; NOD mouse Class II antigens Diabetes, T lymphocyte, Autoantigen, Retrovi- HLA, T lymphocyte, Allorepertoire ;C ytotox- rus; Mls locus, MHC, TcR, Oligoclonali- icity ty, Autoimmune diseases HLA, Tumour antigen, T lymphocyte, MHC; DNA, Malaria, Erythrocyte, Antigenicity, Interleukin-2, Immunotherapy, Cytotoxicity Plasmodium falciparum; Genome, Clon- HLA B27 gene, MHC, T-cell receptor ;P atho- ing, Membrane-associated antigen, Vaccine genesis DNA, Oncogenesis, H-2, Thymocyte, Leukae- HLA-DR, MHC; Class II antigens, Crystals mia, MHC, Radiation; H-2D*° expression, HLA-DRA, MHC, Lymphocyte, Im- Viral induction munoregulation ; Class II genes, Transcrip- Epitope, Autoantibody, Myosin, Immunoregu- tion, Bare lymphocyte syndrom lation; Immune complexes, Electron HLA-DRa, MHC, Rabbit, Pseudogene; DF microscopy, Polyreactivity, NaAAb .... fragment, Evolution Erythrocyte, Malaria, Antigenicity, Plasmodi- IFNy, Chromosome 21, Transfection, Trans- um falciparum, DNA; Genome, Cloning, duction; Signal, Antiviral protection, So- Membrane-associated antigen, Vaccine . matic cell hybrids, Induction Evolution, Genetic variation, Polymorphism, IgE, T lymphocyte, IgG, IgM, Immunosup- MHC; Cheetah pression, TcR, CD3; Activation, mAb, Iso- Exoantigen, Antigenicity, Immunogenicity, types, PBMC, Chimeric antibodies, Trypanosoma cruzi, Chagas’ disease; Hu- ADCC, FcR moral immunity, Cellular immunity, IgG, Periodontitis, Gingivitis, lgM, Porphyro- Mouse, Experimental infection monas gingivalis; Monkey, Immunomodu- Genetic variation, Evolution, Polymorphism, lation, Thymopoietin, Model MHC; Cheetah IgG, T lymphocyte, IgM, IgE, Immunosup- Genome, Immunoglobulin, Allotypy, Rabbit, pression, TcR, CD3; Activation, mAb, Iso- Kappa chain; bas mutant, Kappa-2 genes, types, PBMC, Chimeric antibodies, Evolution ADCC, FcR