Timeline of immunology
Immunology |
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The following are notable events in the Timeline of immunology:
- 1549 – The earliest account of inoculation of smallpox (variolation) occurs in Wan Quan's (1499–1582) Douzhen Xinfa (痘疹心法).[1]
- 1718 – Smallpox inoculation in Ottoman Empire realized by West, and Lady Mary Wortley Montagu, recorded the positive effects of variolation.
- 1796 – First demonstration of smallpox vaccination (Edward Jenner)
- 1808 – 1813 - First experimental demonstration of the germ theory of disease by Agostino Bassi though he does not formally propose the theory until 1844
- 1837 – Description of the role of microbes in putrefaction and fermentation (Theodore Schwann)
- 1838 – Confirmation of the role of yeast in fermentation of sugar to alcohol (Charles Cagniard-Latour)
- 1850 – Demonstration of the contagious nature of puerperal fever (childbed fever) (Ignaz Semmelweis)
- 1857–1870 – Confirmation of the role of microbes in fermentation (Louis Pasteur)
- 1862 – Phagocytosis (Ernst Haeckel)
- 1867 – Aseptic practice in surgery using carbolic acid (Joseph Lister)
- 1876 – Demonstration that microbes can cause disease-anthrax (Robert Koch)
- 1877 – Mast cells (Paul Ehrlich)
- 1878 – Confirmation and popularization of the germ theory of disease (Louis Pasteur)
- 1880 – 81 Theory that bacterial virulence could be attenuated by culture in vitro and used as vaccines. Used to make chicken cholera and anthrax "vaccines" (Louis Pasteur)
- 1883 – 1905 – Cellular theory of immunity via phagocytosis by macrophages and microphages (polymorhonuclear leukocytes) (Elie Metchnikoff)
- 1885 – Introduction of concept of a "therapeutic vaccination". Report of a live "attenuated" vaccine for rabies (Louis Pasteur and Pierre Paul Émile Roux).
- 1888 – Identification of bacterial toxins (diphtheria bacillus) (Pierre Roux and Alexandre Yersin)
- 1888 – Bactericidal action of blood (George Nuttall)
- 1890 – Demonstration of antibody activity against diphtheria and tetanus toxins. Beginning of humoral theory of immunity. (Emil von Behring) and (Kitasato Shibasaburō)
- 1891 – Demonstration of cutaneous (delayed type) hypersensitivity (Robert Koch)
- 1893 – Use of live bacteria and bacterial lysates to treat tumors-"Coley's Toxins" (William B. Coley)
- 1894 – Bacteriolysis (Richard Pfeiffer)
- 1896 – An antibacterial, heat-labile serum component (complement) is described (Jules Bordet)
- 1900 – Antibody formation theory (Paul Ehrlich)
- 1901 – Blood groups (Karl Landsteiner)
- 1902 – Immediate hypersensitivity anaphylaxis (Paul Portier) and (Charles Richet)
- 1903 – Intermediate hypersensitivity, the "Arthus reaction" (Maurice Arthus)
- 1903 – Opsonization[2]
- 1905 – "Serum sickness" allergy (Clemens von Pirquet and (Bela Schick)
- 1909 – Paul Ehrlich proposes "immune surveillance" hypothesis of tumor recognition and eradication
- 1911 – 2nd demonstration of filterable agent that caused tumors (Peyton Rous)
- 1917 – Hapten (Karl Landsteiner)
- 1921 – Cutaneous allergic reactions (Otto Prausnitz and Heinz Küstner)
- 1924 – Reticuloendothelial system
- 1938 – Antigen-Antibody binding hypothesis (John Marrack)
- 1940 – Identification of the Rh antigens (Karl Landsteiner and Alexander Weiner)
- 1942 – Anaphylaxis (Karl Landsteiner and Merill Chase)
- 1942 – Adjuvants (Jules Freund and )
- 1944 – hypothesis of allograft rejection
- 1945 – Coombs test a.k.a. antiglobulin test (AGT)
- 1946 – Identification of mouse MHC (H2) by George Snell and Peter A. Gorer
- 1948 – Antibody production in plasma B cells (Astrid Fagraeus)
- 1949 – Growth of polio virus in tissue culture, neutralization, and demonstration of attenuation of neurovirulence (John Enders) and (Thomas Weller) and (Frederick Robbins)
- 1951 – A vaccine against yellow fever
- 1953 – Graft-versus-host disease
- 1953 – Validation of immunological tolerance hypothesis
- 1957 – Clonal selection theory (Frank Macfarlane Burnet)
- 1957 – Discovery of interferon by Alick Isaacs and Jean Lindenmann[3]
- 1958–1962 – Discovery of human leukocyte antigens (Jean Dausset and others)
- 1959��1962 – Discovery of antibody structure (independently elucidated by Gerald Edelman and Rodney Porter)
- 1959 – Discovery of lymphocyte circulation (James Gowans)
- 1960 – Discovery of lymphocyte "blastogenic transformation" and proliferation in response to mitogenic lectins-phytohemagglutinin (PHA) (Peter Nowell)
- 1961–1962 Discovery of thymus involvement in cellular immunity (Jacques Miller)
- 1960 – Radioimmunoassay – (Rosalyn Sussman Yalow)
- 1961 – Demonstration that glucocorticoids inhibit PHA-induced lymphocyte proliferation (Peter Nowell)
- 1963 – Development of the plaque assay for the enumeration of antibody-forming cells in vitro by Niels Jerne and
- 1963 – Gell and Coombs classification of hypersensitivity
- 1964–1968 – T and B cell cooperation in immune response
- 1965 – Discovery of lymphocyte mitogenic activity, "blastogenic factor" () and (Louis Lowenstein) () and ()
- 1965 – Discovery of "immune interferon" (gamma interferon) ()
- 1965 – Secretory immunoglobulins
- 1967 – Identification of IgE as the reaginic antibody (Kimishige Ishizaka)
- 1968 – Passenger leukocytes identified as significant immunogens in allograft rejection ( and Ronald D. Guttmann)
- 1969 – The lymphocyte cytolysis Cr51 release assay () and ()
- 1971 – Peter Perlmann and Eva Engvall at Stockholm University invented ELISA
- 1972 – Structure of the antibody molecule
- 1973 – Dendritic Cells first described by Ralph M. Steinman
- 1974 – Immune Network Hypothesis (Niels Jerne)
- 1974 – T-cell restriction to MHC (Rolf Zinkernagel and (Peter C. Doherty)
- 1975 – Generation of monoclonal antibodies (Georges Köhler) and (César Milstein)[4]
- 1975 – Discovery of Natural Killer cells (, Eva Klein, )
- 1976 – Identification of somatic recombination of immunoglobulin genes (Susumu Tonegawa)
- 1980–1983 – Discovery and characterization of interleukins, 1 and 2 IL-1 IL-2 (Robert Gallo, , Tadatsugu Taniguchi)
- 1983 – Discovery of the T cell antigen receptor TCR () (Philippa Marrack) and (John Kappler)[5] (James Allison)
- 1983 – Discovery of HIV (Luc Montagnier) (Françoise Barré-Sinoussi) (Robert Gallo)
- 1985–1987 – Identification of genes for the T cell receptor
- 1986 – Hepatitis B vaccine produced by genetic engineering
- 1986 – Th1 vs Th2 model of T helper cell function ()
- 1988 – Discovery of biochemical initiators of T-cell activation: CD4- and CD8-p56lck complexes (Christopher E. Rudd)
- 1990 – Gene therapy for SCID
- 1991 – Role of peptide for MHC Class II structure (Scheherazade Sadegh-Nasseri & Ronald N. Germain)(http://doi.org/10.1038/353167a0)
- 1992 – Discovery of transitional B cells (David Allman & Michael Cancro)[6][7]
- 1994 – 'Danger' model of immunological tolerance (Polly Matzinger)
- 1995 – James P. Allison describes the function of CTLA-4
- 1995 – Regulatory T cells (Shimon Sakaguchi)
- 1995 – First Dendritic cell vaccine trial reported by Mukherji et al.
- 1996 – 1998 – Identification of Toll-like receptors
- 1997 – Discovery of the autoimmune regulator and the AIRE gene.
- 2000 – Characterization of M1 and M2 macrophage subsets by [8]
- 2001 – Discovery of FOXP3 – the gene directing regulatory T cell development
- 2005 – Development of human papillomavirus vaccine (Ian Frazer)
- 2006 – Antigen-specific NK cell memory first reported by Ulrich von Andrian's group after discovery by
- 2010 – The first autologous cell-based cancer vaccine, provenge, is approved by the FDA for the treatment of metastatic, asymptomatic stage IV prostate cancer.
- 2010 – First immune checkpoint inhibitor, ipilimumab (anti-CTLA-4), is approved by the FDA for treatment of stage IV melanoma
- 2011 – Carl H. June reports first successful use of CAR T-cells expressing the 4-1BB costimulatory signaling domain for the treatment of CD19+ malignancies
- 2014 – A second class of immune checkpoint inhibitor (anti-PD-1) is approved by the FDA for the treatment of melanoma. Pembrolizumab and nivolumab are approved within months of each other.
- 2016 – Halpert and first characterize the role of dendritic cell CTLA-4 in Th immune polarization
- 2016 – A third class of immune checkpoint inhibitor, anti-PD-L1 (atezolizumab), is approved for the treatment of bladder cancer
- 2017 – First autologous CAR T-cell therapy tisagenlecleucel approved for the treatment of pediatric B-ALL; second autologous CAR T-cell therapy axicabtagene ciloleucel (Yescarta) is approved.
- 2020 – The first mRNA vaccines (BNT162b2, mRNA-1273), are developed for SARS-CoV-2 infection; this new technology completed design, testing, and emergency approval in under one year.
References[]
- ^ Needham, Joseph. (2000). Science and Civilization in China: Volume 6, Biology and Biological Technology, Part 6, Medicine. Cambridge: Cambridge University Press. Page 134.
- ^ Wright, A.E.; Stewart, R.D. (1 September 1903). "An experimental investigation on the role of the blood fluids in connection with phagocytosis". Proceedings of the Royal Society of London. 72 (477–486): 357–370. doi:10.1098/rspl.1903.0062.
- ^ Kolata, Gina (22 January 2015). "Jean Lindenmann, Who Made Interferon His Life's Work, Is Dead at 90". New York Times. Retrieved 12 February 2015.
- ^ Köhler, G; Milstein, C (7 August 1975). "Continuous cultures of fused cells secreting antibody of predefined specificity". Nature. 256 (5517): 495–7. Bibcode:1975Natur.256..495K. doi:10.1038/256495a0. PMID 1172191.
- ^ Haskins, K; Kubo, R; White, J; Pigeon, M; Kappler, J; Marrack, P (1 April 1983). "The major histocompatibility complex-restricted antigen receptor on T cells. I. Isolation with a monoclonal antibody". The Journal of Experimental Medicine. 157 (4): 1149–69. doi:10.1084/jem.157.4.1149. PMC 2186983. PMID 6601175.
- ^ Allman, DM; Ferguson, SE; Cancro, MP (15 October 1992). "Peripheral B cell maturation. I. Immature peripheral B cells in adults are heat-stable antigenhi and exhibit unique signaling characteristics". Journal of Immunology. 149 (8): 2533–40. PMID 1383316.
- ^ Allman, DM; Ferguson, SE; Lentz, VM; Cancro, MP (1 November 1993). "Peripheral B cell maturation. II. Heat-stable antigen(hi) splenic B cells are an immature developmental intermediate in the production of long-lived marrow-derived B cells". Journal of Immunology. 151 (9): 4431–44. PMID 8409411.
- ^ Mills CD; et al. (2000). "M-1/M-2 Macrophages and the Th1/Th2 Paradigm". J Immunol. 164 (12): 6166–6173. doi:10.4049/jimmunol.164.12.6166. PMID 10843666.
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- History of immunology