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Sidney Pestka was born on May 29, 1936 in the Polish town of [[Drobin]], which is now located in what is now known as the county of [[Plock]] (Powiat Plocki). His family emigrated to the [[United States]] a few years later. When he was a young boy, he began inventing devices. "It was stimulating to see chemicals change the color of fluids, to construct crystal radios, and to make caramel from sugar—however, my mother’s pots and pans were never the same afterward. It seemed that I constantly thought about new ideas to implement. As a teenager I developed an electronic security key and many other devices, but I did not know about patents at that time." <ref name="mitawards">[http://web.mit.edu/invent/a-winners/a-pestka.html 2006 Lemelson-MIT Lifetime Achievement Award Winner]</ref> Both his parents encouraged his curiosity; his mother taught him mathematics when he was very young and his father shared his own hobby of building bicycles with basic parts.
Sidney Pestka was born on May 29, 1936 in the Polish town of [[Drobin]], which is now located in what is now known as the county of [[Plock]] (Powiat Plocki). His family emigrated to the [[United States]] a few years later. When he was a young boy, he began inventing devices. "It was stimulating to see chemicals change the color of fluids, to construct crystal radios, and to make caramel from sugar—however, my mother’s pots and pans were never the same afterward. It seemed that I constantly thought about new ideas to implement. As a teenager I developed an electronic security key and many other devices, but I did not know about patents at that time." <ref name="mitawards">[http://web.mit.edu/invent/a-winners/a-pestka.html 2006 Lemelson-MIT Lifetime Achievement Award Winner]</ref> Both his parents encouraged his curiosity; his mother taught him mathematics when he was very young and his father shared his own hobby of building bicycles with basic parts.


In 1957, Pestka graduated summa cum laude from [[Princeton University]] with a degree in chemistry. He went on to the [[University of Pennsylvania School of Medicine]] and completed his MD in 1961. Dr. Pestka completed his pediatric and medical internship at Baltimore City Hospital, after which he joined the [[National Heart Institute]] in 1962. Here he worked in the laboratory of Dr. [[Marshall W. Nirenberg]], winner of the [[Nobel Prize in Physiology or Medicine]] in 1968 for "breaking the genetic code."
In 1957, he graduated summa cum laude from [[Princeton University]] with a degree in chemistry. He went on to the [[University of Pennsylvania School of Medicine]] and completed his MD in 1961. Dr. Pestka completed his pediatric and medical internship at Baltimore City Hospital, after which he joined the [[National Heart Institute]] in 1962. Here he worked in the laboratory of Dr. [[Marshall W. Nirenberg]], winner of the [[Nobel Prize in Physiology or Medicine]] in 1968 for "breaking the genetic code."


== Research ==
== Research ==
While in the Nirenberg Laboratory, he discovered how the genetic code of the
While in the Nirenberg Laboratory, he discovered how the genetic code of the
[[mRNA]] is translated into protein through the [[small ribosomal subunit]], a discovery that was contrary to the scientific thinking at that time. This early work helped create new fundamental tenets about the mechanism of [[protein biosynthesis]] and antibiotic action.
[[mRNA]] is translated into protein through the small ribosomal subunit, a discovery that was contrary to the scientific thinking at that time. This early work helped create new fundamental tenets about the mechanism of [[protein biosynthesis]] and antibiotic action.


In 1966, he moved to the [[National Cancer Institute]], where for three years he continued his research on protein synthesis, and began investigations in other areas. It was here that he first learned about [[interferons]]. Scientists first observed interferon in the 1950s, and when they learned that human cells secreted the substance it was postulated that interferon could hold the key to beneficial antiviral properties. He became very interested in interferon.
In 1966, he moved to the [[National Cancer Institute]], where for three years he

continued his research on protein synthesis and began investigations in other areas.
For the next 16 years, he worked on a method to develop a process to purify interferons. He came up with [[reversed phase HPLC]], which enabled his laboratory to isolate and purify interferon in sufficient quantities for research. He also developed the procedure to clone interferons; this led to the first biotherapeutic, alpha interferon.


== Work ==
== Work ==

Revision as of 15:41, 9 March 2010


New Sidney Pestka is

Sidney Pestka
Sidney Pestka receiving National Medal of Technology
Sidney Pestka (middle) receives the National Medal of Technology from President George W. Bush (right)
Born(1936-05-29)May 29, 1936
Alma materPrinceton University
University of Pennsylvania
Awards2002 National Medal of Technology
2006 Lemelson–MIT Prize Lifetime Achievement Award
Scientific career
InstitutionsRobert Wood Johnson Medical School

Sidney Pestka (born May 29, 1936) is an American biochemist and geneticist. Is sometimes referred to as the "father of interferon" for his groundbreaking work developing antiviral treatments for hepatitis B and C. He was part of the team working on research involving the genetic code, protein synthesis and ribosome function that led to the Nobel Prize in Physiology or Medicine received by Marshall Warren Nirenberg.

Early Life and Education

Sidney Pestka was born on May 29, 1936 in the Polish town of Drobin, which is now located in what is now known as the county of Plock (Powiat Plocki). His family emigrated to the United States a few years later. When he was a young boy, he began inventing devices. "It was stimulating to see chemicals change the color of fluids, to construct crystal radios, and to make caramel from sugar—however, my mother’s pots and pans were never the same afterward. It seemed that I constantly thought about new ideas to implement. As a teenager I developed an electronic security key and many other devices, but I did not know about patents at that time." [1] Both his parents encouraged his curiosity; his mother taught him mathematics when he was very young and his father shared his own hobby of building bicycles with basic parts.

In 1957, he graduated summa cum laude from Princeton University with a degree in chemistry. He went on to the University of Pennsylvania School of Medicine and completed his MD in 1961. Dr. Pestka completed his pediatric and medical internship at Baltimore City Hospital, after which he joined the National Heart Institute in 1962. Here he worked in the laboratory of Dr. Marshall W. Nirenberg, winner of the Nobel Prize in Physiology or Medicine in 1968 for "breaking the genetic code."

Research

While in the Nirenberg Laboratory, he discovered how the genetic code of the mRNA is translated into protein through the small ribosomal subunit, a discovery that was contrary to the scientific thinking at that time. This early work helped create new fundamental tenets about the mechanism of protein biosynthesis and antibiotic action.

In 1966, he moved to the National Cancer Institute, where for three years he continued his research on protein synthesis, and began investigations in other areas. It was here that he first learned about interferons. Scientists first observed interferon in the 1950s, and when they learned that human cells secreted the substance it was postulated that interferon could hold the key to beneficial antiviral properties. He became very interested in interferon.

For the next 16 years, he worked on a method to develop a process to purify interferons. He came up with reversed phase HPLC, which enabled his laboratory to isolate and purify interferon in sufficient quantities for research. He also developed the procedure to clone interferons; this led to the first biotherapeutic, alpha interferon.

Work

In 1969, he joined the Roche Institute of Molecular Biology in Nutley, New Jersey, where he initiated the work on interferon.

His work with IFN-α has led to cancer therapy with interferons and the use of interferon for the treatment of chronic Hepatitis B and C preventing development of liver cancer due to hepatitis. IFN-α is approved for treatment of a number of cancers and is the only approved treatment for advanced melanoma. His developments related to IFN-β led to its use for the treatment of multiple sclerosis.

Since 1986, he has been Professor and Chairman of the Department of Molecular Genetics, Microbiology and Immunology at UMDNJ-Robert Wood Johnson Medical School in Piscataway, New Jersey. He is also the Founder and Chairman of the Board of Pestka Biomedical Laboratories in Piscataway.

Patents

While at the Roche Institute of Molecular Biology, he generated a large portfolio of groundbreaking patents for Hoffmann-La Roche. In 1993, he was inducted into the New Jersey Inventors Hall of Fame. His work is the basis of a number of U.S. and more than 100 foreign patents. Interferon is a major product of several U.S. companies and foreign companies almost all of which license interferon under his patents, including Schering-Plough, Hoffmann-La Roche, Amgen, Biogen and Berlex.

Awards and Honors

At a White House ceremony in June 2002, President George W. Bush honored him with the National Medal of Technology. He was cited for his "pioneering achievements that led to the development of the biotechnology industry, to the first recombinant interferons for the treatment of cancers, leukemias, viral diseases such as hepatitis B and C, and multiple sclerosis; to fundamental technologies leading to other biotherapeutics; and for basic scientific discoveries in chemistry, biochemistry, genetic engineering and molecular biology from protein biosynthesis to receptors and cell signaling."[2] In 2004, he received the Warren Alpert Prize from Harvard. He has also received the Selman A. Waksman Award in Microbiology, the Lemelson-MIT Prize and the Seymour and Vivian Milstein Award from the International Society for Interferon and Cytokine Research.

Publications

He has published over 600 articles in peer-reviewed journals. He has edited five books, three of which are classic reference books about interferons in the Methods in Enzymology series.

  • "Molecular Mechanisms of Protein Biosynthesis (Molecular Biology)" (Academic Press, 1977) ISBN 0127442502
  • "Methods in Enzymology Volume 78: Interferons, Part A" (Academic Press, 1981) ASIN B002JBOWGG
  • "Methods in Enzymology Volume 79: Interferons, Part B" (Academic Press, 1982) ISBN 0121819795
  • "Methods in Enzymology Volume 119: Inteferons Part C" (Academic Press, 1986) ISBN 012182019X
  • "Cytokine Yearbook Volume 1" (Springer, 1996) ISBN 0792338766

References