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Alex B. Novikoff

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Alex B. Novikoff
Born(1913-02-28)28 February 1913
Died9 January 1987(1987-01-09) (aged 73)
NationalityAmerican
Alma materColumbia University
Known forCell organelles
Scientific career
FieldsCell biology, histochemistry
InstitutionsBrooklyn College
University of Vermont College of Medicine
Albert Einstein College of Medicine

Alex Benjamin Novikoff (28 February 1913 – 9 January 1987) was a Ukrainian-born American biologist who is recognized for his pioneering works in the discoveries of cell organelles. His greatest achievements were in developing histochemical techniques for studying the structure and functions of cells and their organelles. He is also recognized as a public figure of the mid-20th century at the height of McCarthyism in America. He was accused of his participitation in Communist Party as disloyalty to the nation. He was dismissed in 1953 from the University of Vermont College of Medicine where he was serving as a tenured professor, upon his refusal to cooperate in disclosing his communist friends. He was even denied twice of his willingness to serve in the US Army during the Second World War. Due to lack of substantial evidence, the case itself was dismissed after twenty years. The incident has become popularly known as the "Novikoff Affair", and is the most notable case of MaCarthyism in Vermont. In 1983, after thirty years of his banishment, the university made an apology by presenting him an honorary degree.[1][2] He is regarded as one of the overlooked scientists to get Nobel Prize.

Early life and education

Novikoff was born to Jewish parents in the small town of Semenivka in Ukraine. Hoping to overcome severe poverty under the then Soviet Union, his family emigrated to the United States. The family settled in the Brownsville section of Brooklyn, New York. His father earned their living by working as a salesman in a garment factory. Novikoff was a precocious boy, developing an early fascination for biology. His hobbies included skinning and dissecting animal corpses, and he once boiled a dead cat to observe its skeleton. He skipped four grades, and completed high school when he was only fourteen years of age. He graduated from Columbia University in 1931 at the age of eighteen. Even under financial constraints, the family encouraged him to study medicine. However antisemitism at the time prevented him from entering medical school. He therefore pursued the only open opportunity by continuing at the same university to study zoology. He joined the graduate school in 1931.[1]

Career

While still at the graduate school, to support his studies, Novikoff worked as a part-time instructor at the new Brooklyn College. His initial research focused on experimental embryology, and soon his interest shifted to cell biology under the influence of Arthur Pollister. At age twenty-three, in 1936, he published his first technical paper. In 1938 he was awarded his PhD. He was not on good terms with the other teachers and the administration at Brooklyn College, such that his promotion was delayed for a year even after his new degree. He did a post-doc at the University of Wisconsin in 1946–1947. In 1947 he joined the University of Vermont College of Medicine as Professor of Experimental Pathology and Biochemistry. He was expelled from the institute in 1953 on charges of disloyalty to the nation. In 1955 he joined the faculty of pathology at the newly established Albert Einstein College of Medicine, becoming full professor in 1958. He worked there for the rest of his life.[1]

Achievements

During his career at Vermont, Novikoff had successfully developed a technique of cell fractionation. Using this he had separated cell fractions and identified six cell organelles, along with two unidentified fractions. Christian de Duve from Belgium became interested in the unknown fractions. In 1952 de Duve proposed that the fraction contained membrane-bound particle having specific enzymatic activity. Novikoff confirmed the enzyme activity in 1953.[3] The two met at Central Park in New York City to discuss their results. In 1955, now confident that the membranous particles were cell organelles, de Duve gave a hypothetical name "lysosomes" to reflect their digestive properties.[4] That same year, after visiting de Duve's laboratory, using his own histochemical protocol Novikoff successfully produced the first real images (electron micrographs) of the new organelle. In 1965 with de Duve, he confirmed the location of the hydrolytic enzymes of lysosomes.[5][6] Novikoff further established the importance of lysosomes in diseases. "It is largely due to Novikoff's bold and imaginative use of morphological techniques," de Duve praised him, "that lysosomes have come to be recognized in a broader biological context." de Duve went on to win the Nobel Prize in Physiology or Medicine in 1974 for the discovery of lysosomes, but Novikoff's contributions were forgotten.

In 1956 Novikoff described a new class of membrane-bound organelles that he called "dense bodies."[5] was the first to describe the actual lysosomal functions with respect to degradation of mitochondria. However he thought that the digestive activities he observed were due to other intracelluar organelles which he called "cytolysomes".[7] It was at the Ciba Foundation Symposium on Lysosomes held in London on 12–14 February 1963, that he explained this phenomenon in which organelles such as endoplasmic reticulum, ribosomes, mitochondria and other cell debris were degraded by autolysis in the cytolysomes. Then the following speaker de Duve correctly identified that these organelles were lysosomes, and named them autophagic vacuoles, and he introduced the term "autophagy" for the process of such intracellular digestion.[6][8] In 1962 he established for the first time the functional relationship between ER, Golgi and lysosomes. He specifically showed that smooth-surfaced derivatives of the ER fused with the Golgi membranes and the Golgi membranes in turn fused with lysosomes.[9] He was the first to show that this GERL is responsible vesicular transport during synthesis and sorting of proteins.[10] He gave this functional organisation an acronym GERL, for Golgi-endoplasmic reticulum-lysosome. Novikoff's further works became a milestone in understanding the importance of autophagy in diseases such as cancer.[11]

He was the first to establish the type of liver tumour, now known in his honour as "Novikoff hepatoma".[12][13] In 1961 with Sidney Goldfischer, Novikoff developed a staining method for the Golgi body using the enzyme nucleosidediphosphatase, by which they described the enzymatic property of the organelle for the first time.[14] In 1969 they developed a staining technique (alkaline diaminobenzidine, or DAB) by which they studied the structure of another new organelle, peroxisome, for the first time.[15] In 1969 he gave the first clear-cut distinction between lysosomes and peroxisomes.[16] In 1972, he and his wife discovered a new type of peroxisomes from the intestinal epithelium of rat, which they named "microperoxisome".[17][18][19][20]

His works in cell biology are best summed up in a textbook he wrote with his student Eric Holtzman, Cells and Organelles, first published in 1970.[21]

The Novikoff Affair

In 1935, Novikoff joined the Communist Party while he was working for PhD. He was most inspired by the scientific attitude of Marxism towards the well-being of society, beside other idealistic issues. He helped writing and disseminating party newsletters in the Brooklyn campus, which was a centre of communist activity in the area. He became actively involved in the teachers' union and particularly fought against stratification of junior and senior faculty in the college. This caused serious antagonism with other teachers and the administration. In 1940 under a new college president, Novikoff was investigated for affiliation to the Communist Party. However, no further action was taken against him.

During the Second World War he voluntarily applied to serve in the US military on a medical commission. His applications were declined twice, in 1943 and in 1944. The objections were based on the allegations in the previous documents that his "loyalty" to the nation was doubtful. Ironically, he was employed by the US Army after the war, in 1948, to analyse two films about enzyme and carbohydrate metabolism. Even then doubt about his loyalty resurfaced and his appointment was terminated soon after he completed the major work.

In 1953 while he was a permanent faculty at the University of Vermont College of Medicine, at the time McCarthyism was at its height, anti-communist activists once again targeted him for his 1930s involvement in the Communist Party. But this time the case was taken to the federal level. On 23 April 1953, he refused to testify before the Senate Subcommittee on Internal Security at Washington D.C. on anything about his past political life, especially on identification of his communist colleagues at Brooklyn College. His denial was taken as "positive evidence that he was the leader of communist-dominated union."[22] Although he invoked the Fifth Amendment of the US Constitution, the Vermont administration made sure that the institute dismiss him. The then Vermont Governor Lee E. Emerson persuaded the university President Carl Borgmann to convene a six-person committee consisting of faculty and Board of Trustees, to assure that the "faculty is 100 percent pro-American and anti-communist". Even though the committee, chaired by Robert Joyce, voted 5 to 1 for Novikoff to remain in his profession, Emerson convinced the Board of Trustees to override the committee's decision. The trustees therefore suspended Novikoff on 16 July initially for a month, with the "walk or talk" ultimatum that if Novikoff would not return to Washington to reveal names before the Senate Committee, he would be dismissed from the university. Members of the university's chapter of the American Association of University Professors could convince Borgmann in August 1953 that it was against the university bylaws to suspend Novikoff before any public hearing. Then a final hearing was convened that consisted of twenty-three member Board of Review, which included the governor, members of the Board of Trustees, and several faculty members. The board meeting on 29 August voted 14 to 8 to recommend the dismissal of Novikoff. A week later, on 5 September, the fifteen-member Board of Trustees confirmed his firing from the university, with a single dissenting vote from Robert Joyce.[23][24][25] His case was kept open for twenty years, and having found no substantiated evidence, the FBI closed his file in 1974, which by then contained 822 pages.[1] Vermont University then conferred him an honorary doctorate of science as a way of apology in 1983, after thirty years of his dismissal, with 8,000 audience giving standing ovation.[2][26][27]

Awards and honours

Death

Novikoff died on Friday, 28 January 1987, at the hospital of Albert Einstein College of Medicine. He is survived by his wife Dr Phyllis, two sons, two sisters (Lillian and Sonia), and two grandchildren.[2]

References

  1. ^ a b c d "Novikoff, Alex Benjamin (forthcoming in The New Dictionary of Scientific Biography)" (PDF). Regents of the University of Minnesota. Retrieved 11 November 2013.
  2. ^ a b c "Alex B. Novikoff Dies; Professor and Biologist". The New York Times. The New York Times Company. 11 January 1987. Retrieved 11 November 2013.
  3. ^ Novikoff, AB; Podber, E; Ryan, J; Noe, E (1953). "Biochemical heterogeneity of the cytoplasmic particles isolated from rat liver homogenate". The Journal of Histochemistry and Cytochemistry. 1 (1): 27–46. doi:10.1177/1.1.27. PMID 13022957.
  4. ^ De Duve, C (2005). "The lysosome turns fifty". Nature Cell Biology. 7 (9): 847–9. doi:10.1038/ncb0905-847. PMID 16136179.
  5. ^ a b Novikoff, AB; Beaufay, H; De Duve, C (1956). "Electron microscopy of lysosomerich fractions from rat liver". The Journal of Biophysical and Biochemical Cytology. 2 (4 Suppl): 179–84. doi:10.1083/jcb.2.4.179. PMC 2229688. PMID 13357540.
  6. ^ a b Klionsky, DJ (2008). "Autophagy revisited: A conversation with Christian de Duve". Autophagy. 4 (6): 740–3. doi:10.4161/auto.6398. PMID 18567941.
  7. ^ Novikoff, AB; Essner, E (1962). "Cytolysomes and mitochondrial degeneration". The Journal of cell Biology. 15 (1): 140–6. doi:10.1083/jcb.15.1.140. PMC 2106132. PMID 13939127.
  8. ^ De Duve, C (1983). "Lysosomes revisited". European Journal of Biochemistry / FEBS. 137 (3): 391–7. doi:10.1111/j.1432-1033.1983.tb07841.x. PMID 6319122.
  9. ^ Essner, E; Novikoff, AB (1962). "CYTOLOGICAL STUDIES ON TWO FUNCTIONAL HEPATOMAS : Interrelations of Endoplasmic Reticulum, Golgi Apparatus, and Lysosomes". The Journal of Cell Biology. 15 (2): 289–312. doi:10.1083/jcb.15.2.289. PMC 2106148. PMID 19866611.
  10. ^ Holtzman, E; Novikoff, AB; Villaverde, H (1967). "Lysosomes and GERL in normal and chromatolytic neurons of the rat ganglion nodosum". The Journal of Cell Biology. 33 (2): 419–35. doi:10.1083/jcb.33.2.419. PMC 2108357. PMID 4292314.
  11. ^ William A. Dunn Jr.; Laura A. Schroder; John P. Aris (2013). "Historical overview of autophagy". In Hong-Gang Wang (ed.). Autophagy and Cancer. Springer. pp. 3–4. ISBN 9781461465614.
  12. ^ Novikoff, AB (1955). "Some aspects of hepatoma NK". Journal of the National Cancer Institute. 15 (5, Suppl): 1533–4. PMID 13243091.
  13. ^ Sidney Goldfischer (1987). "In memoriam: ALex B. Novikoff". The Einstein Quarterly Journal of Biology and Medicine. 5 (1): 71–79.
  14. ^ Novikoff, AB; Goldfischer, S (1961). "Nucleosidediphosphatase activity in the Golgi apparatus and its usefulness for cytological studies". Proceedings of the National Academy of Sciences of the United States of America. 47 (6): 802–10. doi:10.1073/pnas.47.6.802. PMC 221344. PMID 13729758.
  15. ^ Novikoff, AB; Goldfischer, S (1969). "Visualization of peroxisomes (microbodies) and mitochondria with diaminobenzidine". The Journal of Histochemistry and Cytochemistry. 17 (10): 675–80. doi:10.1177/17.10.675. PMID 4194356.
  16. ^ Beard, ME; Novikoff, AB (1969). "Distribution of peroxisomes (microbodies) in the nephron of the rat: A cytochemical study". The Journal of Cell Biology. 42 (2): 501–18. doi:10.1083/jcb.42.2.501. PMC 2107674. PMID 5792337.
  17. ^ Novikoff, PM; Novikoff, AB (1972). "Peroxisomes in absorptive cells of mammalian small intestine". The Journal of Cell Biology. 53 (2): 532–60. doi:10.1083/jcb.53.2.532. PMC 2108721. PMID 4112543.
  18. ^ Novikoff, AB; Novikoff, PM; Davis, C; Quintana, N (1972). "Studies on microperoxisomes. II. A cytochemical method for light and electron microscopy". The Journal of Histochemistry and Cytochemistry. 20 (12): 1006–23. doi:10.1177/20.12.1006. PMID 4640962.
  19. ^ De Duve, C (1987). "Alex Novikoff: Reminiscences". The Journal of Histochemistry and Cytochemistry. 35 (9): 931, 933–4. PMID 3302017.
  20. ^ Essner, ES (1987). "A tribute to Alex B. Novikoff". The Journal of Histochemistry and Cytochemistry. 35 (9): 937–8. doi:10.1177/35.9.3302019. PMID 3302019.
  21. ^ "Cells and organelles (Modern biology series) [Paperback]". Amazon. Retrieved 11 November 2013.
  22. ^ Lionel S. Lewis (1898). Cold War on Campus: A Study of the Politics of Organizational Control. Transaction Publishers. p. 307. ISBN 9781412819794.
  23. ^ "Review Board Reverses Committee on Novikoff". The Harvard Crimson. The Harvard Crimson, Inc. 29 September 1954. Retrieved 12 November 2013.
  24. ^ VC News Staff (12 February 2004). "UVM Trustees". The Vermont Cynic. Retrieved 12 November 2013.
  25. ^ Woodsmoke Productions; Vermont Historical Society. "The Case of Alex B. Novikoff". Vermont Historical Society. Retrieved 12 November 2013.
  26. ^ Dudley Clendinen (22 May 1983). "VERMONT U. HONORS MCCARTHY ERA VICTIM IT OUSTED". The New York Times. The New York Times Company. Retrieved 12 November 2013.
  27. ^ Douglas Allchin (2008). "Marxism & Cell Biology: Can Political Perspectives Enrich Science?" (PDF). The American Biology Teacher. 70 (5): 303–305. doi:10.1662/0002-7685(2008)70[303:mcbcpp]2.0.co;2.

Further reading