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known. Cohn's "adroit tissue culturing of macrophages made it possible to observe, challenge, and manipulate them to figure out how they worked." He showed how "the cell's outer membrane folds around the captured material, forms a sac or vacuole that is pinched off from the cell surface and enclosed within the cell, and fuses with the lysosome where the contents are then digested." The result, as Moberg and
Steinman put it, was the transformation of endocytosis into "a central field of cell biology, because it is pertinent to all cells for extracting from their surrounding environment the nutrients needed for survival as well as for capturing and destroying toxins and pathogens." A Rockefeller University source puts it this way: "Cohn's discoveries on endocytosis in macrophages have proved fundamental to cell biology, since endocytosis is a process universal to all cells, and is the mechanism by which cells digest materials from their surroundings, ranging from microbes to proteins carrying nutrients."
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clinical medicine." Steinman told the New York Times after Cohn's death that "I think his greatest pleasure was to nurture the development of students and young faculty, many of whom now occupy professorial positions." Calling him a "demanding yet inspiring mentor," Moberg and
Steinman write that Cohn "took great pleasure in nurturing graduate students and postdoctoral fellows," adding that he "never imposed any model or edict that might detract from a person's individuality or creativity. There was always a quiet but profound sense of mutual respect in his interactions with everyone. He kept an open door and an open mind. Brief in his discourses, he got to the heart of the matter in a few words, exercising an impressive memory and analytical skills. Gentle, but firm and self-assured, he defined and organized complex research problems into simple, intelligible terms that were rooted in practicality of execution."
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began visiting hospitals in Brazil, and later in
Colombia, Ethiopia, India, Nepal, and the Philippines, to study patients with leprosy and various other diseases, including tuberculosis and AIDS. "For some reason," Cohn said in a 1983 interview, "no one had ever really looked very hard at the local skin lesions of leprosy patients. Diagnosis has usually been based on analysis of cells in the blood stream. So when we first went to Brazil, we decided that we would examine the cells in the skin. In the virulent lepromatous lesions we found bacteria-filled macrophages together with a large number of suppressor T cells. As we studied patients in the intermediate stages of the disease and on to the tuberculoid form, we found that the number of so-called helper cells began to increase relative to the number of suppressor T cells."
408:"one of the first medical scientist training programs for the combined M.D.-Ph.D. degree." Cohn also "fostered interactions of young people with physicians at Rockefeller, Weill Cornell Medical College, and Memorial Sloan-Kettering Cancer Center, the three biomedical research and educational institutions across the street from one another," establishing "the Tri-Institutional Biomedical Forum, an informal sherry-and-lecture series reminiscent of his happy 1988 sabbatical at the Dunn School in Oxford, where young scientists could get to know their counterparts at these three institutions." He also brought new life to the Clinical Scholars program, which trained new doctors "to care for patients on a daily basis while conducting bench research to better understand their diseases."
334:"used these new tools to address the question of whether phagocytes contained preformed bactericidal substances or whether these substances developed after foreign particles were engulfed. They isolated granules from the rest of the cell contents, used phase and electron microscopy to visualize them, and determined chemically that they were lysosomes, the cell organelles recently identified by Belgian biochemist Christian de Duve. These discoveries, which traced the phagocytic digestive system to the fusion of phagocytic vacuoles and lysosomes, became widely available to the community after Jim and Zan made a remarkable series of films showing living phagocytes discharging their abundant lysosomes to kill bacteria."
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everyone fortunate enough to have known him. He was an eminent scientist, a caring physician, and a great human being guided by a clear philosophical stance." Moberg and
Steinman also suggest that Cohn's "talents were distinctive in cell biology and unusual in cellular immunology at the time, because they included an ability to quantify and identify biochemical mechanisms and to obtain images of subcellular behavior." In addition, they note that Cohn "was known for keeping his focus on important scientific questions and looking for major changes. His philosophy, influenced by Dubos, was that if you need statistics to know the data are significant, then you are probably not looking at a major event."
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they ingest, they also secrete many molecules into their surrounding environment, affecting the activity of other cells. 'This is an important part of the inflammatory process, which may lead either to wound healing and tissue repair or to destruction of tissues,' says Dr. Cohn. 'Among the secreted chemicals are those that stimulate the formation of blood cells and blood vessels; pyrogens, the fever-producing substances; and enzymes involved in lipoprotein metabolism. A delicate balance exists in the amount and nature of the secretory products. When present in excessive amounts disease states such as rheumatoid arthritis, glomerulonephritis, and even atherosclerosis may be potentiated.'"
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intermediates, such as superoxide and hydrogen peroxide, to destroy bacteria and tumor cells. A further demonstration that macrophages could be activated by lymphokines in vivo was important in the laboratory's subsequent clinical efforts to treat diseases in which macrophages achieve both intracellular and extracellular killing." Cohn called macrophages the "versatile element of inflammation," with some of their secretions resulting in the healing of wounds, the repair of tissues, or the destruction of microbes and tumors, while excessive amounts of secretions from overstimulated microphages can intensify various diseases, including rheumatoid arthritis and atherosclerosis.
524:"Their intertwined scientific legacy is enormous, and their work in the Laboratory of Cellular Physiology and Immunology constitutes one of the most important scientific-cultural threads in the history of immunology – and of the University." The professorship was funded by $ 500,000 from the Steinman family and $ 2.6 million from 129 other donors, with the Steinman family's portion coming out of Steinman's Nobel Prize money. "It was Dr. Steinman's wish during his life," Rockefeller University pointed out, "to honor his mentor and collaborator, Zanvil A. Cohn, with whom he discovered dendritic cells and made scientific discoveries that transformed the field of immunology."
353:"used a radiolabeled isotope to label blood monocytes and trace their production and development. They identified the blood monocyte as the precursor for tissue macrophages and the bone marrow as the source of monocytes." At the same time, electron microscope studies he performed with Hirsch and Martha Fedorko provided further insight into macrophage formation and differentiation. This work, according to Moberg and Steinman, "illuminated a pivotal pathway to host defense and captivated the minds and spirits of innumerable scientists," resulting in five international conferences on mononuclear phagocytes held at Leiden between 1969 and 1991.
421:. "Following in the footsteps of retiring editor René Dubos," recalls Moberg and Steinman, Cohn "insisted its pages provide sufficient space to document conclusions adequately and to pursue mechanisms in detail; he looked for papers with novelty, clarity, and a mechanistic analysis that was quantitative, direct, and multifaceted." He also served as an "adviser to several institutions of biomedical research." Over the course of his career, furthermore, Cohn served as "adviser or trustee of Harvard University, Massachusetts General Hospital, Max Planck Institute, Trudeau Institute,
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pocket full of pencils and pens, and without any formalities, he arrived quietly, exchanged a few pleasantries about birds, children, or the weather, then inquired about a few experimental details and offered pithy insights or suggestions, and left just as silently. Without writing a single note he managed to keep track of the ongoing work and life of nearly 60 people. In turn, this personal attention encouraged special diligence on the part of the researchers who avoided unnecessary work and achieved astonishing progress in the whole laboratory."
263:'s graduate program in bacteriology in the Department of Microbiology, where he did so well that he was able to enter Harvard Medical School a year later. It was while he was a medical student there that he published his first scientific paper, based on work begun in the Department of Microbiology. He received his M.D. degree in 1953 and was one of an extremely small number of students in that medical school's history to be awarded an M.D. summa cum laude. His thesis concerned host-parasite relationships, which would be the focus of his career.
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the lab with cells of other diseases indicate that either or both may be possible, but we need to know a lot more about the bacteria and the immune cells before we can manipulate them clinically....What we can learn about these suppressor cells...is also of great interest because there's a fair amount of evidence in many animal models that suppressor cells modify the ability of a host to fight off tumors, and that if you can destroy the suppressor cells, you'll allow normal body defenses to come back and destroy the tumor."
322:, whose 1954 monograph Biochemical Determinants of Microbial Diseases he considered "visionary and provocative" and "always kept within reach." Dubos's studies in microbiology had played a key role in the development of antibiotics. Yet there was little understanding of how these "wonder drugs" worked. Cohn's first project in Dubos' lab, which he conducted with Steven Morse, was to confirm that it is polymorph leukocytes that kill the bacteria that cause staph infections.
282:, as well as by his experiences with penicillin on the Liberty ships, to become a doctor and medical researcher. They also suggest that his interest in medicine, and particularly in the study of infectious diseases, might be traced back to a childhood "brush with death from scarlet fever that quarantined the whole family" and/or to his experiences with "the caring family physician who looked after his father, bedridden nearly a year following a severe bout of
156:. When Zanvil Cohn (1926-1993) began studying macrophages in the early 1960s, little was known about them. Immunologists had for decades focused on the chemistry of the second major component of the immune system—the acquired immune response, in which the body produces antibodies in response to exposure to an antigen. In pioneering studies, both at the laboratory bench and with human subjects, Cohn helped launch the new field of cellular immunology."
286:." (Cohn's father died at 57 while Cohn was in high school.) A 1983 profile of Cohn indicated that "While he was still in medical school, his interest in research had been spurred by a series of technological advances that were dramatically expanding the scope of cell biology. His interest in Rockefeller stemmed from the fact that many of the advances, in electron microscopy, cell fractionation, and immunology, were happening there."
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his own scientific papers, reviews, and lectures, of which he wrote hundreds, Cohn "first thought long and hard about the topic, saying his best thinking was done while commuting by car from home on Long Island or on his fishing boat. Then he sat down with sharpened pencils and a yellow lined pad and wrote straight through from beginning to end, without correcting, changing, or rewriting a sentence."
490:, at the eastern end of Long Island, and one wall of his office "was covered with an enormous nautical survey map of all these waters where he fished from his boat Davess III....It was known he could be enticed to give lectures and attend conferences around the world when fishing, birding, or collecting nomadic rugs were a planned part of the visit."
179:, tuberculosis and AIDS. He also established that macrophages can release a multitude of biologically active products. Since the mid-1980s he used hormone-like products of the immune system to increase patients' resistance to microbial infections. This work took him to parts of Asia and Latin America where leprosy and tuberculosis are endemic."
247:, became a hospital corpsman, and served from 1944 to 1946 "as purser-pharmacist on Liberty ships in the Atlantic and Pacific," where he was sometimes "the only medically trained person among the ship's crew and 1,500 soldiers, with responsibility for preventing epidemics, administering vaccines and antibiotics, and treating wounds."
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Cohn was known to friends and colleagues as "Zan." "With an imposing stature and warm demeanor," write Moberg and
Steinman, Cohn "exuded an air of equanimity and quiet authority." At his memorial service, Rockefeller University President Torsten Wiesel described him as "a prince of a man who inspired
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Cohn also placed great importance on "writing and speaking clearly and succinctly. Part of his mentoring of graduate students involved going over their first papers, discussing every sentence, removing most punctuation, and smoothing rough data into seamless, well-reasoned arguments." When preparing
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A Rockefeller
University source noted that Cohn's "support of young scientists is reflected in the large number of them in his laboratory and in his stewardship, for many years, of the University's joint MD.-Ph.D. program with Cornell University Medical College, which also reflects his commitment to
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In 1966 Cohn was made full professor at
Rockefeller, which had just changed its name from the Rockefeller Institute for Medical Research to the Rockefeller University, and, with Hirsch, formed a Laboratory of Cellular Physiology and Immunology. There they explored macrophages, about which little was
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and other pathogens, as well as toxins and dead cells. They are central to so-called innate immunity—immune defenses that can act without previous exposure to a pathogen. They are central to inflammation, the responses of the body to infection and injury, and also when inflammation becomes chronic
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In 1989 he paid tribute to Dubos on the 50th anniversary of Dubos's discovery of the antibiotic gramicidin by organizing a symposium on "Launching the
Antibiotic Era." At the event, he spoke of the importance of "supporting young investigators and global research, the opportunities afforded single
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This, Cohn said, suggested "that the suppressor cells produce a factor which, in effect, turns off the macrophage. Or else, the macrophages don't work because of the absence of helper cells. The question is, Can you suppress the suppressors or help the helpers? Some experiments we've been doing in
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In the early 1980s, wanting to discover "why in certain diseases the macrophages, after ingesting pathogens, not only fail to kill them but instead provide a hospitable environment for them to thrive, multiply, and reactivate disease," and thus develop therapies, Cohn and other members of his team
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An interview with Cohn described the discovery of the secretory role of macrophages as follows: "A major immunological finding, which has come primarily from work in Dr. Cohn's laboratory, is that macrophages are not just eaters. In addition to the chemicals they make to kill and degrade the cells
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habit of talking to newcomers 'for the first two days, and if he thought they could get along on their own he would not talk to them again for another year. I was terribly upset, I must say.'" Cohn worked at
Rockefeller for the next 35 years, "most of them on the fourth floor of Bronk Laboratory."
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on
October 3, 2011, only three days after his death. After his October 10 memorial service, the Steinman and Cohn families agreed to the establishment of a Zanvil A. Cohn-Ralph M. Steinman Professorship. Explaining why the two scientists merited this recognition, Rockefeller University noted that
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When Cohn began working under Dubos, as Moberg and Steinman explain, "the study of leukocytes was still in its infancy....It was also the time when the new science of cell biology was emerging at Rockefeller....This was making it possible to explore the world inside cells: electron microscopy for
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Moberg and Steinman describe the situation in the Dubos Laboratory of Bacteriology and Pathology, as follows: "Dubos fostered investigators, not mere problem solvers, thus allowing newcomers independence to plan experiments and progress at their own pace. As said in a 1983 interview, Dubos had a
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Cohn was appointed Rockefeller University's vice president for medical affairs by President Torsten Wiesel in 1992. During the last seven years of his life, Cohn was also the Henry G. Kunkel Professor at the university. In addition, he held the title of senior physician at Rockefeller University
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joined the Cohn-Hirsch laboratory in 1970, and eventually it became the Cohn-Steinman laboratory. In 1973, in the course of studying macrophages, Steinman and Cohn discovered "an entirely distinct class of immune cells" which differed "in structure, appearance, and function from macrophages" and
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Cohn, write Moberg and Steinman, "had a distinct way of running a large laboratory; he managed by walking around. Rather than assume the role of boss, he would visit each person in every laboratory at least once a week to follow the progress of their experiments. Clad in a white lab coat with a
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The editors of the Journal of Experimental Medicine, in a posthumous tribute to Cohn, wrote that he had given the publication "years of leadership and energy." Adding that "his unique style enlivened our weekly deliberations," they praised his "incisive manner, his admiration of clever new
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The examination of T cells in leprosy patients led Cohn and his team to develop treatments that "restored some of the patients' immune function at both the local and systemic level, although they did not cure the disease." Cohn developed "high expectations that lymphokines and other agents
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Cohn's team discovered other key functions of macrophages, moving beyond endocytosis to study macrophages' secretions and identifying more than 50 products of macrophages that play "active roles in inflammation and immunity." The team found that "activated macrophages release active oxygen
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A number of films were made to illustrate the processes Cohn studied, including Phagocytosis and Degranulation (with Hirsch, 1962) and Pinocytosis and Granule Formation in Macrophages (1967). The Journal of Experimental Medicine later noted that Hirsch and Cohn's "elegant films of live
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which would come to be recognized as "powerful initiators of the immune response and major controllers of both innate and adaptive immunity." As one source puts it, this cell, which Steinman named the dendritic cell, would later be found "to be the sentinel cells of the immune system."
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Professor for seven years. Cohn was senior physician at the university as well as vice president for medical affairs. Until two years before his death, he also served as principal investigator of the Irvington Institute for Medical Research. Although Cohn never won the
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In a 2009 biographical memoir, Carol L. Moberg and Steinman wrote that "Zanvil Cohn may be most remembered as the founder of modern macrophage biology and for leading the shift in mid-twentieth-century research from bacterial cells to host-parasite relationships."
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Cohn died suddenly of an aneurysm of the aorta. In addition to his wife and brother, he was survived by two children, David J. Cohn, a radiologist, and Ellen R. Cohn, editor-in-chief of the Benjamin Franklin papers, and three grandchildren.
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interacting with macrophages would someday enter the physician's armamentarium to fight disease." At the time of his death, Cohn was arranging "an expanded program to enhance the immune system of immune-compromised individuals with
219:, then Columbia Grammar School in Manhattan, where he played baseball and football, was president of the student government, and played piano at graduation. After graduating from Columbia Grammar at 16, Cohn attended
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With R. van Furth, J. G. Hirsch, J. H. Humphrey, W. G. Spector, and H. L. Langevoort. The mononuclear phagocyte system: A new classification of macrophages, monocytes, and their precursor cells. Bull. W. H. O.
215:, and worked as a buyer for Oppenheim, Collins & Co., a Manhattan clothing store, later becoming a partner in an apparel firm. As a child, Cohn spoke both German and English. He attended public schools in
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With C. F. Nathan, S. C. Silverstein, and L. H. Brukner. Extracellular cytolysis by activated macrophages and granulocytes. II . Hydrogen peroxide as a mediator of cytotoxicity. J. Exp. Med. 149:100-113.
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as part of one of the earliest U.S.-China cooperate ventures in science and culture following the death of Mao and the end of the Cultural Revolution. In 1988 he spent a sabbatical at the Dunn School at
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Returning to Bates after the war, Cohn met Fern Dworkin in 1946 in an organic chemistry class. After graduating in June 1948, they married in December of the same year. Unable to gain entrance into
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With W. C. Van Voorhis, G. Kaplan, E. N. Sarno, M. A. Horwitz, R. M. Steinman, W. R. Levis, N. Nogueira, L. S. Hair, C. R. Gattass, and B. A. Arrick. The cutaneous infiltrates of leprosy. Cellular
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In October 1957 Cohn was appointed assistant physician and research associate at the Rockefeller Hospital and what was then called the Rockefeller Institute for Medical Research (later
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With S. Gordon and J. C. Unkeless. Induction of macrophage plasminogen activator by endotoxin stimulation and phagocytosis. Evidence for a two-stage process. J. Exp. Med. 140:995-1010.
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With A. A. Aderem, K. A. Albert, M. M. Keum, J. K. T. Wang, and P. Greengard. Stimulus-dependent myristoylation of a major substrate for protein kinase C. Nature (Lond.) 332:362-364.
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With W. A. Muller and R. M. Steinman. The membrane proteins of the vacuolar system. II . Bidirectional flow between secondary lysosomes and plasma membrane. J. Cell Biol. 86:304-314.
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With A. A. Aderem, D. S. Cohen, and S. D. Wright. Bacterial lipopolysaccharides prime macrophages for enhanced release of arachidonic acid metabolites. J. Exp. Med. 164:165-179.
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With J. G. Hirsch. The influence of phagocytosis on the intracellular distribution of granule‑associated components of polymorphonuclear leucocytes. J. Exp. Med. 112:1015-1022.
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With R. M. Steinman. Identification of a novel cell type in peripheral lymphoid organs of mice. I. Morphology, quantitation, tissue distribution. J. Exp. Med. 137:1142-1162.
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With W. A. Scott, N. A. Pawlowski, H. W. Murray, M. Andreach, and J. Zrike. Regulation of arachidonic acid metabolism by macrophage activation. J. Exp. Med. 155:1148-1160.
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With J. D. Young, T. M. Young, L. P. Lu, and J. C. Unkeless. Characterization of a membrane pore-forming protein from Entamoeba histolytica. J. Exp. Med. 156:1677-1690.
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investigators working in small laboratories, the efficacy of personal involvement at the bedside, and a moral climate that led to patents for the general good."
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With M. E. Fedorko and J. G. Hirsch. The in vitro differentiation of mononuclear phagocytes. V. The formation of macrophage lysosomes. J. Exp. Med. 123:757-766.
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Hospital. For a long period, ending only two years before his death, moreover, he was principal investigator at the Irvington Institute for Medical Research.
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With I. S. Mellman, R. M. Steinman, and J. C. Unkeless. Selective iodination and polypeptide composition of pinocytic vesicles. J. Cell Biol. 86:712-722.
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With E. Wiener. The particulate hydrolases of macrophages. II . Biochemical and morphological response to particle ingestion. J. Exp. Med. 118:1009-1020.
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With J. G. Hirsch. The isolation and properties of the specific cytoplasmic granules of rabbit polymorphonuclear leucocytes. J. Exp. Med. 112:983-1004.
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showing cell structures never before observed and centrifugation methods for separating and analyzing cellular constituents." Cohn and his colleague
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With W. A. Scott, J. M. Zrike, A. L. Hamill, and J. Kempe. Regulation of arachidonic acid metabolites in macrophages. J. Exp. Med. 152:324-335.
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in 1975, was appointed to Rockefeller's first Henry G. Kunkel Professorship in 1986, and received honorary degrees from Bates College (1987),
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The macrophage—versatile element of inflammation. In The Harvey Lectures: 1981–1982, series 77, pp. 63–80. Harvey Society of New York.
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With R. M. Steinman. The interaction of soluble horseradish peroxidase in mouse peritoneal macrophages in vitro. J. Cell Biol. 55:186-204.
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With J. G. Hirsch. Degranulation of polymorphonuclear leucocytes following phagocytosis of microorganisms. J. Exp. Med. 112:1005-1014.
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With B. Benson. The differentiation of mononuclear phagocytes. Morphology, cytochemistry, and biochemistry. J. Exp. Med. 121:153-170.
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With B. A. Ehrenreich. The uptake, storage, and intracellular hydrolysis of carbohydrates by macrophages. J. Exp. Med. 129:201-225.
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With B. A. Ehrenreich. The uptake and digestion of iodinated human serum albumin by macrophages in vitro. J. Exp. Med. 126:941-958.
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Carol L. Moberg and Ralph M. Steinman, "Zanvil Alexander Cohn", Biographical Memoirs of the National Academy of Sciences (2009)
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With S. Gordon and J. Todd. In vitro synthesis and secretion of lysozyme by mononuclear phagocytes. J. Exp. Med. 139:1228-1248.
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With R. M. Steinman, I. S. Mellman, and W. A. Muller. Endocytosis and the recycling of plasma membrane. J. Cell Biol. 96:1-27.
306:. For two years Cohn "explored respiratory enzymes and the cell wall of the intracellular parasite Rickettsia tsutsugamushi."
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became an owner of Kansas Packing, a meat packing firm in New York. Cohn's mother, born in the United States of parents from
195:, the son of David and Esther (Schwartz) Cohn; he had one sibling, a brother, Donald, who was three years younger. Zanvil, a
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With R. M. Steinman and S. E. Brodie. Membrane flow during pinocytosis. A stereologic analysis. J. Cell Biol. 68:665-687.
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With N. Nogueira. Trypanosoma cruzi: In vitro induction of macrophage microbicidal activity. J. Exp. Med. 148:288-300.
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486:, he developed what would become a "lifelong love of saltwater fishing." As an adult, he fished principally at
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No one in Cohn's family had a medical or academic background. Moberg and Steinman say that he was motivated by
109:(November 16, 1926 – June 28, 1993) was a cell biologist and immunologist who upon his death was described by
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425:, the National Institute of Allergy and Infectious Diseases, the New York Blood Center, and Bates College."
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Cohn was on the editorial boards of several journals, and served for twenty years as editor-in-chief of the
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as being "in the forefront of current studies of the body's defenses against infection.", professor at
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With C. F. Nathan and H. W. Murray. The macrophage as an effector cell. N. Engl. J. Med. 303:622-626.
1076:"Rockefeller creates Cohn-Steinman Professorship to honor discoverers of dendritic cells | Newswire"
132:, with whom he ran a laboratory at Rockefeller University for many years, was named to win the 2011
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In 1977, Cohn was one of nine Rockefeller University professors to visit the People's Republic of
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With A. L. Hubbard. The enzymatic iodination of the red cell membrane. J. Cell Biol. 55:390-405.
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Cohn performed his internship and residency at Massachusetts General Hospital, then entered the
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With R. van Furth. The origin and kinetics of mononuclear phagocytes. J. Exp. Med. 128:415-435.
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at age 19 in 1905 and after working for some years in his uncle Josef's butcher shop in
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characteristics and the predominant T-cell phenotypes. N. Engl. J. Med. 307:1593-1597.
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With S. C. Silverstein and R. M. Steinman. Endocytosis. Annu. Rev. Biochem. 46:669-722.
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for the work on dendritic cells done in their lab, eighteen years after Cohn's death.
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and bacteria. He applied these insights to patient-oriented investigations of
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version of Samuel, was a family name. His father had come to New York from
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By way of explaining Cohn's importance, one commentator has noted that
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838:"Zanvil Cohn, 66, Biologist, Dies; Studied Defense Against Infection"
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phagocytes...remain an ideal component for many courses in biology."
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Looking into the genesis of macrophages, Cohn and his colleague
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experiments, his sense of fairness and respect, and his wit."
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Members of the United States National Academy of Sciences
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as a captain, working in the laboratory of virologist
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863:"Launching the Modern Study of Innate Immunity"
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478:After Cohn's parents built a summer house in
449:Personal attributes and professional conduct
1149:Members of the National Academy of Medicine
1134:American people of Hungarian-Jewish descent
816:(7th ed.). Gale Research. p. 410.
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1174:United States Army Medical Corps officers
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384:Other professional activities
945:National Academy of Sciences
435:National Academy of Sciences
211:, was raised in Huntington,
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958:Bell, Dean Phillip (2008).
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512:Cohn-Steinman Professorship
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1179:20th-century American Jews
1139:Jewish American scientists
1062:The Rockefeller University
867:The Rockefeller University
812:Mossman, Jennifer (2001).
119:. There Cohn had been the
1055:"Stalking the Macrophage"
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793:"Cohn died in Manhattan"
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996:"Zanvil Alexander Cohn"
938:"Zanvil Alexander Cohn"
47:New York City, New York
1124:American immunologists
402:Alexander Gordon Bearn
316:Rockefeller University
257:Harvard Medical School
227:, where he majored in
117:Rockefeller University
84:Rockefeller University
58:June 28 1993 (aged 66)
528:Selected publications
148:during diseases like
107:Zanvil Alexander Cohn
1159:Bates College alumni
245:U.S. Merchant Marine
1012:10.1084/jem.179.1.1
376:and tuberculosis."
798:The New York Times
445:in Leiden (1990).
296:Army Medical Corps
251:Post-war education
243:, Cohn joined the
112:The New York Times
96:, cellular biology
27:American physician
773:Ralph M. Steinman
517:Ralph M. Steinman
443:Rijksuniversiteit
439:Oxford University
429:Honors and awards
395:Oxford University
191:Cohn was born in
130:Ralph M. Steinman
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154:tuberculosis
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80:Institutions
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1119:1993 deaths
1114:1926 births
1006:(1): 1–30.
621:46:845-852.
484:Long Island
213:Long Island
169:bone marrow
141:macrophages
126:Nobel Prize
18:Zanvil Cohn
1108:Categories
1081:2016-06-22
779:References
480:Amityville
320:René Dubos
280:Arrowsmith
201:DĂĽsseldorf
94:Immunology
63:Occupation
1000:J Exp Med
284:pneumonia
278:'s novel
205:Manhattan
67:Physician
842:NY Times
762:See also
270:'s book
209:Budapest
173:protozoa
145:bacteria
1030:8270858
1021:2191311
488:Montauk
302:at the
274:and by
261:Harvard
239:During
229:biology
197:Yiddish
177:leprosy
165:T-cells
1028:
1018:
968:
290:Career
217:Queens
1058:(PDF)
941:(PDF)
503:Death
494:Films
390:China
225:Maine
161:Times
1026:PMID
966:ISBN
752:1988
742:1986
729:1983
708:1982
689:1980
679:1979
669:1978
659:1977
649:1976
636:1974
626:1973
609:1972
599:1969
589:1968
579:1967
569:1966
559:1965
549:1963
533:1960
374:AIDS
152:and
55:Died
40:Born
1016:PMC
1008:doi
1004:179
223:in
1110::
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20:)
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