Microbiology and Immunology

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Rous, Peyton WORLD OF MICROBIOLOGY AND IMMUNOLOGY

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tumor viruses is the presence of a protein that coats the viral
RNA. The gag gene codes for this latter protein. The protein
encoded by the gag gene is also found in the envelope. The
presence of these two protein species in RNA tumor viruses
is being explored as a target for therapy to prevent RNA
virus-induced cancer.
Another hallmark of RNA tumor viruses is the presence
of a gene that is designated pol. The products of the pol gene
include reverse transcriptase, another enzyme that helps inte-
grate the viral genetic material into the host genome, and
other enzymesthat help process the genetic material and viral
proteins so as to permit assembly of new virus. These essen-
tial functions have made the pol gene the target of antiviral
strategies.
The infection process begins with the binding of the
virus particles to a specific molecule on the surface of the host
cell. Generically, such molecules are termed receptors. Once
the virus is bound, it can be taken into the host by the process
of endocytosis. Blocking the viral recognition of the host
receptor and binding of the virus is yet another strategy to pre-
vent tumor development.
The molecular basis for the transformationof cells by
RNA tumor viruses was revealed by a number of scientists,
including the Nobel laureate Harold Varmus. He and the oth-
ers demonstrated that the cancer genes (oncogenes) of the
viruses were similar or the same as certain genes with the
nucleic acid of the host cell. When a virus infects the host, the
host gene may become part of a new virus particle following
viral replication. Over time, the host gene may become altered
in subsequent rounds of viral replication. Eventually, this
altered host gene may end up replacing a normal gene in a new
host cell. The altered gene produces a protein that is involved
in over-riding the controls on the division process of the host
cell. The result is the uncontrolled cell division that is the hall-
mark of a cancer cell.

See alsoAIDS, recent advances in research and treatment;
Immunodeficiency; Viral genetics

RRous, Peyton OUS, PEYTON(1879-1970)

American physician

Francis Peyton Rous was a physician-scientist at the
Rockefeller Institute for Medical Research (later the
Rockefeller University) for over sixty years. In 1966, Rous
won the Nobel Prize for his 1910 discovery that a virus can
cause cancer tumors. His other contributions to scientific med-
icine include creating the first blood bank, determining major
functions of the liver and gall bladder, and identifying factors
that initiate and promote malignancy in normal cells.
Rous was born in Baltimore, Maryland, to Charles
Rous, a grain exporter, and Frances Wood, the daughter of a
Texas judge. His father died when Rous was eleven, and his
mother chose to stay in Baltimore. His sisters were profes-
sionally successful, one a musician, the other a painter.
Rous, whose interest in natural science was apparent at
an early age, wrote a “flower of the month” column for the

Baltimore Sun. He pursued his biological interests at Johns
Hopkins University, receiving a B.A. in 1900 and an M.D. in


  1. After a medical internship at Johns Hopkins, however,
    he decided (as recorded in Les Prix Nobel en 1966) that he was
    “unfit to be a real doctor” and chose instead to concentrate on
    research and the natural history of disease. This led to a full
    year of studying lymphocytes with Aldred Warthin at the
    University of Michigan and a summer in Germany learning
    morbid anatomy (pathology) at a Dresden hospital.
    After Rous returned to the United States, he developed
    pulmonary tuberculosisand spent a year recovering in an
    Adirondacks sanatorium. In 1909, Simon Flexner, director of
    the newly founded Rockefeller Institute in New York City,
    asked Rous to take over cancer research in his laboratory. A
    few months later, a poultry breeder brought a Plymouth Rock
    chicken with a large breast tumor to the Institute and Rous,
    after conducting numerous experiments, determined that the
    tumor was a spindle-cell sarcoma. When Rous transferred a
    cell-free filtrate from the tumor into healthy chickens of the
    same flock, they developed identical tumors. Moreover, after
    injecting a filtrate from the new tumors into other chickens, a
    malignancy exactly like the original formed. Further studies
    revealed that this filterable agent was a virus, although Rous
    carefully avoided this word. Now called the Rous sarcoma
    virus RSV) and classed as an RNAretrovirus, it remains a pro-
    totype of animal tumor virusesand a favorite laboratory
    model for studying the role of genes in cancer.
    Rous’s discovery was received with considerable disbe-
    lief, both in the United States and in the rest of the world. His
    viral theory of cancer challenged all assumptions, going back
    to Hippocrates, that cancer was not infectious but rather a
    spontaneous, uncontrolled growth of cells and many scientists
    dismissed his finding as a disease peculiar to chickens.
    Discouraged by his failed attempts to cultivate virusesfrom
    mammal cancers, Rous abandoned work on the sarcoma in

  2. Nearly two decades passed before he returned to cancer
    research.
    After the onset of World War I, Rous, J. R. Turner, and
    O. H. Robertson began a search for emergency blood transfu-
    sion fluids. Nothing could be found that worked without red
    blood corpuscles so they developed a citrate-sugar solution
    that preserved blood for weeks as well as a method to trans-
    fuse the suspended cells. Later, behind the front lines in
    Belgium and France, they created the world’s first blood bank
    from donations by army personnel. This solution was used
    again in World War II, when half a million Rous-Turner blood
    units were shipped by air to London during the Blitz.
    During the 1920s, Rous made several contributions to
    physiology. With P. D. McMaster, Rous demonstrated the
    concentrating activity of bile in the gall bladder, the acid-
    alkaline balance in living tissues, the increasing permeability
    along capillaries in muscle and skin, and the nature of gall-
    stone formation. In conducting these studies, Rous devised
    culturetechniques that have become standard for studying
    living tissues in the laboratory. He originated the method for
    growing viruses on chicken embryos, now used on a mass
    scale for producing viral vaccines, and found a way to isolate
    single cells from solid tissues by using the enzyme trypsin.


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