Max Dale Cooper

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Max Dale Cooper

ForMemRS
Max Cooper at the Royal Society admissions day in London, July 2017
Born
Max Dale Cooper[1]

(1933-08-28) August 28, 1933 (age 90)[2]
Hazlehurst, Mississippi[3]
NationalityAmerican
Alma materTulane University
University of Mississippi
Holmes Junior College
Known forT cell and B cell biology
SpouseRosalie Cooper
AwardsAlbert Lasker Award for Basic Medical Research
Japan Prize
Robert Koch Award
Sandoz Prize for Immunology
Scientific career
InstitutionsEmory University
University of Alabama at Birmingham
Howard Hughes Medical Institute
University of Minnesota
University of California, San Francisco
Hospital for Sick Children, London

Max Dale Cooper ForMemRS (born August 31, 1933), is an American immunologist and a professor at the Department of Pathology and Laboratory Medicine and the Emory Vaccine Center of Emory University School of Medicine.[4] He is known for characterizing T cells and B cells.[5]

Early life and education[edit]

Cooper was born and raised in rural Mississippi. His father was the Superintendent of Education of a 12-grade school in Bentonia and his mother a teacher.[2] He lived with his family on the campus.[6] He was interested in becoming a physician at a young age, and his father, who wanted to study medicine but could not due to financial reasons, encouraged him to do so.[7] Cooper went to Holmes Junior College (now Holmes Community College)[8] on an American football scholarship from 1951 to 1952,[7][9] then entered the University of Mississippi for pre-medical studies.[10]

In 1954, Cooper started studying medicine at the University of Mississippi School of Medicine. Since the school at that time was a two-year medical school and was becoming a four-year one, Cooper was offered the option of staying or transferring elsewhere. He chose to move to the Tulane University School of Medicine,[6] and obtained his MD in 1957.[9]

Career[edit]

After graduating from medical school, Cooper interned at a hospital in Saginaw, Michigan for a year, and then returned to Tulane University School of Medicine for a residency.[6] In 1960, Cooper went to Hospital for Sick Children, London as pre-registration house officer and then research assistant until 1961.[6] From 1961 to 1962, he was a pediatric allergy and immunology fellow at the University of California, San Francisco.[9]

Cooper briefly returned to Tulane as an instructor, then moved to the Department of Pediatrics at the University of Minnesota in 1963 to as a medical fellow and instructor, working with Robert A. Good and conducting research. He became an assistant professor in 1966.

One year later he joined the University of Alabama at Birmingham (UAB) as a professor at the Division of Immunology and Allergy of the Department of Pediatrics and an associate professor at the Department of Microbiology. Over the next few years, Cooper also became a professor at the Department of Microbiology, of Pathology and of Medicine.[9] During this period, he was also involved with the Comprehensive Cancer Center (since 1971), the Multipurpose Arthritis Center (since 1979), and the Cystic Fibrosis Research Center (since 1981), all at UAB,[9] and was an investigator at the Howard Hughes Medical Institute between 1988 and 2006.[11]

In 2008, convinced by the Georgia Research Alliance,[12] where Emory University is a partner institution, Cooper moved to the Department of Pathology and Laboratory Medicine at the School of Medicine of Emory University in Georgia, US.[9] He is also a professor at the Winship Cancer Institute[13] and the Emory Vaccine Center,[14] and an Eminent Scholar at the Georgia Research Alliance.[12]

Cooper remains a Professor Emeritus of Medicine at UAB.[15]

Cooper was the president of the American Association of Immunologists between 1988 and 1989 and a member of their Council from 1983 to 1988.[16]

Research[edit]

Cooper's research focus is the adaptive immune system, particularly T cells and B cells. Following Jacques Miller's discovery in 1961 of the immunological role of the thymus,[17] the scientific community believed that there is only one lineage of lymphocytes (the T cells), that produced by the thymus. As a pediatrician, Cooper was studying patients of the Wiskott–Aldrich syndrome, who have few lymphocytes but high levels of plasma cells and antibodies, which were thought to derive from T cells.[18]

Inspired by a report that the bursa of Fabricius (or the bursa) in chickens may be responsible for producing antibodies,[19] he conducted experiments in 1964 on chickens to determine the roles of the thymus and the bursa.[20] He removed the thymus or the bursa from chicks and irradiated them with X-ray to kill lymphocytes that may have been produced earlier by the thymus and bursa.[21]

The experiments showed irradiated chicks with the bursa removed did not have plasma cells, antibodies, and germinal centers, despite their intact thymus. Conversely, irradiated chickens with the thymus removed had low lymphocyte levels, but had normal antibodies, plasma cells, and germinal centers.[22][23] The lymphocytes produced by the bursa are known as B cells.[24]

Again working on chickens, Cooper also made a contribution to deducing how B cells produce different types of antibodies at different stages of embryonic development, in the sequence of IgM, IgG, and IgA.[25] His experiments indicated a single lineage of B cells switch from IgM to producing other immunoglobulin isotypes, as opposed to multiple B cell subtypes each producing one immunoglobulin isotype.[26] This process is known as immunoglobulin class switching.

Collaborating with John Owen from the UK, Cooper used a series of experiments to determine the mammalian organ equivalent to the bursa and found that B cells are produced in the liver of fetal mice.[27] Together with independent reports by Pierre Vassalli[28] and Gustav Nossal[29] in 1974 that B cells were produced in the bone marrow of fetal mice, these discoveries show haematopoietic tissues generate B cells in mammals.[30]

More recently, Cooper studied the adaptive immune system in jawless vertebrates, including lampreys and hagfish. Working with Jan Klein, he confirmed these animals have cells functionally similar to mammalian T cells and B cells.[31][32] Cooper's group also found that instead of antibodies, lampreys have a family of immune receptors. They named it variable lymphocyte receptor.[33][34] Owing to the unique specificity of these antibody-counterparts and their distinction from human antibodies, they may be used in treating cancers such as multiple myeloma and brain cancer.[35][36]

External videos
video icon Seminar by Max Cooper about immune cells in jawless vertebrates after an introduction about his career.

Awards and honors[edit]

References[edit]

  1. ^ "Max Dale Cooper, MD". Emory University School of Medicine. Archived from the original on December 28, 2022. Retrieved December 28, 2022.
  2. ^ a b c "Max Dale Cooper". Alabama Academy of Honor. Archived from the original on January 4, 2023. Retrieved January 4, 2023.
  3. ^ "Max Dale Cooper, MD". Alabama Healthcare Hall of Fame. Archived from the original on December 29, 2022. Retrieved December 29, 2022.
  4. ^ "Max Cooper". Emory University School of Medicine. Archived from the original on December 30, 2022. Retrieved December 30, 2022.
  5. ^ "Honorary Degrees Past Recipients: 2010-2019". Duke University Board of Trustees. Archived from the original on December 30, 2022. Retrieved December 30, 2022.
  6. ^ a b c d "The American Association of Immunologists Oral History Project Transcript: Max D. Cooper, M.D." (PDF). American Association of Immunologists. May 6, 2012. Archived from the original (PDF) on December 28, 2022. Retrieved December 28, 2022.
  7. ^ a b Ioachimescu, Octavian C.; Cooper, Max D. (2022). "An extraordinary story of discovery: an interview with Doctor Max D Cooper". Journal of Investigative Medicine. 70 (7): 1461–1465. doi:10.1136/jim-2022-002505. PMC 9554051. PMID 35820715. Archived from the original on January 1, 2023. Retrieved January 1, 2023.
  8. ^ "History of the College". Holmes Community College. April 6, 2021. Archived from the original on June 24, 2022. Retrieved June 24, 2022.
  9. ^ a b c d e f "Curriculum vitae: Max Dale Cooper" (PDF). Robert Koch Foundation. Archived from the original (PDF) on January 4, 2023. Retrieved January 4, 2023.
  10. ^ Cardon, Dustin (January 11, 2019). "Max Cooper". Jackson Free Press. Archived from the original on January 4, 2023. Retrieved January 4, 2023.
  11. ^ "Max D. Cooper, MD". Howard Hughes Medical Institute. Archived from the original on January 12, 2023. Retrieved January 12, 2023.
  12. ^ a b "Max D. Cooper, M.D." Georgia Research Alliance. Archived from the original on January 12, 2023. Retrieved January 12, 2023.
  13. ^ "Max D. Cooper MD". Winship Cancer Institute. Archived from the original on January 1, 2023. Retrieved January 12, 2023.
  14. ^ "Max D. Cooper, MD". Archived from the original on January 12, 2023. Retrieved January 12, 2023.
  15. ^ "Max Dale Cooper, MD". University of Alabama at Birmingham. November 12, 2020. Archived from the original on January 12, 2023. Retrieved January 12, 2023.
  16. ^ "Max D. Cooper, M.D." American Association of Immunologists. Archived from the original on January 13, 2023. Retrieved January 13, 2023.
  17. ^ Miller, J. F. A. P. (1961). "Immunological function of the thymus". The Lancet. 278 (7205): 748–749. doi:10.1016/S0140-6736(61)90693-6. PMID 14474038. Retrieved January 19, 2023.
  18. ^ Doctrow, Brian (2019). "QnAs with Max D. Cooper and Jacques F. A. P. Miller". Proceedings of the National Academy of Sciences. 117 (1): 12–14. doi:10.1073/pnas.1920087116. PMC 6955343. PMID 31792192.
  19. ^ Glick, Bruce; Chang, Timothy S.; Jaap, R. George (1956). "The Bursa of Fabricius and Antibody Production". Poultry Science. 35 (1): 224–225. doi:10.3382/ps.0350224. Retrieved January 19, 2023.
  20. ^ "Laudatio for Prof. Dr. Max Dale Cooper" (PDF). Robert Koch Foundation. Archived from the original (PDF) on January 19, 2023. Retrieved January 19, 2023.
  21. ^ Ribatti, Domenico (2014). "Max D. Cooper and the delineation of two lymphoid lineages in the adaptive immune system". Immunology Letters. 162 (1(A)): 233–236. doi:10.1016/j.imlet.2014.09.005. PMID 25236938. Retrieved January 20, 2023.
  22. ^ Cooper, Max D.; Peterson, Raymond D. A.; Good, Robert A. (1965). "Delineation of the Thymic and Bursal Lymphoid Systems in the Chicken" (PDF). Nature. 205 (4967): 143–146. Bibcode:1965Natur.205..143C. doi:10.1038/205143a0. PMID 14276257. Archived from the original (PDF) on January 20, 2023. Retrieved January 20, 2023.
  23. ^ Cooper, Max D.; Peterson, Raymond D. A.; South, Mary Ann; Good, Robert A. (1966). "The Functions of the Thymus System and the Bursa System in the Chicken" (PDF). Journal of Experimental Medicine. 123 (1): 75–102. doi:10.1084/jem.123.1.75. PMC 2138128. PMID 5323079. Archived from the original (PDF) on January 20, 2023. Retrieved January 20, 2023.
  24. ^ "2018 Japan Prize Achievement - "Medical Science and Medicinal Science" field" (PDF). Japan Prize. Archived from the original (PDF) on January 24, 2023. Retrieved January 27, 2023.
  25. ^ Cooper, Max D. (2010). "A Life of Adventure in Immunobiology". Annual Review of Immunology. 28: 1–19. doi:10.1146/annurev-immunol-030409-101248. PMID 19968560.
  26. ^ Kincade, Paul W.; Lawton, Alexander R.; Bockman, Dale E.; Cooper, Max D. (1970). "Suppression of Immunoglobulin G Synthesis as a Result of Antibody-Mediated Suppression of Immunoglobulin M Synthesis in Chickens". Proceedings of the National Academy of Sciences. 67 (4): 1918–1925. Bibcode:1970PNAS...67.1918K. doi:10.1073/pnas.67.4.1918. PMC 283448. PMID 5275387.
  27. ^ Owen, John J. T.; Cooper, Max D.; Raff, Martin C. (1974). "In vitro generation of B lymphocytes in mouse foetal liver, a mammalian 'bursa equivalent'". Nature. 249 (455): 361–363. Bibcode:1974Natur.249..361O. doi:10.1038/249361a0. PMID 4546257. S2CID 4296027. Retrieved January 22, 2023.
  28. ^ Ryser, Jean-Etienne; Vassalli, Pierre (1974). "Mouse Bone Marrow Lymphocytes and Their Differentiation" (PDF). Journal of Immunology. 113 (3): 719–728. doi:10.4049/jimmunol.113.3.719. PMID 4213258. Retrieved January 22, 2023.
  29. ^ Osmond, D. G.; Nossal, G. J. V. (1974). "Differentiation of lymphocytes in mouse bone marrow: II. Kinetics of maturation and renewal of antiglobulin-binding cells studied by double labeling". Cellular Immunology. 13 (1): 132–145. doi:10.1016/0008-8749(74)90233-0. PMID 4141645. Retrieved January 22, 2023.
  30. ^ Gitlin, Alexander D.; Nussenzweig, Michel C. (2015). "Immunology: Fifty years of B lymphocytes". Nature. 517 (7533): 139–141. Bibcode:2015Natur.517..139G. doi:10.1038/517139a. PMID 25567266.
  31. ^ Mayer, Werner E.; Uinuk-ool, Tatiana; Tichy, Herbert; Gartland, Lanier A.; Klein, Jan; Cooper, Max D. (2002). "Isolation and characterization of lymphocyte-like cells from a lamprey". Proceedings of the National Academy of Sciences. 29 (99): 14350–14355. Bibcode:2002PNAS...9914350M. doi:10.1073/pnas.212527499. PMC 137887. PMID 12388781.
  32. ^ Uinuk-ool, Tatiana; Mayer, Werner E.; Sato, Akie; Dongak, Roman; Cooper, Max D.; Klein, Jan (2002). "Lamprey lymphocyte-like cells express homologs of genes involved in immunologically relevant activities of mammalian lymphocytes". Proceedings of the National Academy of Sciences. 99 (22): 14356–14361. Bibcode:2002PNAS...9914356U. doi:10.1073/pnas.212527699. PMC 137888. PMID 12391333.
  33. ^ Pancer, Zeev; Amemiya, Chris T.; Ehrhardt, Götz R. A.; Ceitlin, Jill; Gartland, G. Larry; Cooper, Max D. (2004). "Somatic diversification of variable lymphocyte receptors in the agnathan sea lamprey". Nature. 430 (6996): 174–180. Bibcode:2004Natur.430..174P. doi:10.1038/nature02740. hdl:2027.42/62870. PMID 15241406. S2CID 876413. Retrieved January 27, 2023.
  34. ^ Cooper, Max D.; Alder, Matthew N. (2006). "The Evolution of Adaptive Immune Systems". Cell. 124 (4): 815–822. doi:10.1016/j.cell.2006.02.001. PMID 16497590.
  35. ^ "A Lymphocyte Journey". Cell. 179 (1): 37–39. 2019. doi:10.1016/j.cell.2019.08.030. PMID 31519308.
  36. ^ Eastman, Quinn (February 2018). "Learning from Lampreys". Emory Medicine. No. Winter 2018. Retrieved January 27, 2023.
  37. ^ "Max D. Cooper, MD". American Society for Clinical Investigation. Archived from the original on January 17, 2023. Retrieved January 17, 2023.
  38. ^ "The UAB President's Medal". University of Alabama at Birmingham 2021 Commencement (PDF). University of Alabama at Birmingham. 2021. p. 16.
  39. ^ "Max D. Cooper". National Academy of Sciences. Archived from the original on January 17, 2023. Retrieved January 17, 2023.
  40. ^ "Novartis Basic and Clinical Immunology Prizes". American Association of Immunologists. Archived from the original on January 13, 2023. Retrieved January 13, 2023.
  41. ^ "Max D. Cooper, M.D." National Academy of Medicine. Archived from the original on January 17, 2023. Retrieved January 17, 2023.
  42. ^ "Max Dale Cooper". American Academy of Arts and Sciences. Archived from the original on January 17, 2023. Retrieved January 17, 2023.
  43. ^ "Elected Fellows". American Association for the Advancement of Science. Archived from the original on January 15, 2023. Retrieved January 15, 2023.
  44. ^ "Past Recipients". The American Association of Immunologists. Archived from the original on January 13, 2023. Retrieved January 13, 2023.
  45. ^ "Robert Koch Award 2010". Robert Koch Foundation. Archived from the original on January 13, 2023. Retrieved January 13, 2023.
  46. ^ "Max Cooper". French Academy of Sciences. Archived from the original on January 17, 2023. Retrieved January 17, 2023.
  47. ^ "Max Cooper". Royal Society. Archived from the original on May 23, 2017. Retrieved May 23, 2017.
  48. ^ "The 2018 Japan Prize". Japan Prize. Archived from the original on December 29, 2022. Retrieved December 29, 2022.
  49. ^ "Distinguished Fellows of AAI Past Recipients". American Association of Immunologists. Archived from the original on October 8, 2022. Retrieved October 8, 2022.
  50. ^ "2019 Albert Lasker Basic Medical Research Award". Lasker Foundation. Archived from the original on January 13, 2023. Retrieved January 13, 2023.
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