Microbiology and Immunology

WORLD OF MICROBIOLOGY AND IMMUNOLOGY Dubos, René

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nature and the environment, an interplay which is as old as life

itself and which is the mechanism for creation on Earth.”

Dubos was born in Saint-Brice-sous-Foret, France, the

only child of Georges Alexandre and Adeline Madeleine de

Bloedt Dubos. Young Dubos spent his early years in the farm-

ing villages of Ile-de-France, north of Paris. Amongst the

rolling hills and agricultural fields, Dubos developed a keen

appreciation for the influence of landscape on the human

spirit, a subject that would come to dominate his thoughts in

later years. A bout with rheumatic fever at the age of ten both

restricted Dubos’s physical activity and enhanced his contem-

plative nature. When Dubos was 13, his father moved the fam-

ily to Paris to open a butcher shop; a few months later,

Georges Dubos was called to military service in World War I,

leaving his wife and young son in charge of the business.

Despite the best efforts of mother and son, the shop did poorly

and the family had a difficult time getting by. Upon complet-

ing high school at the College Chaptal in 1919, Dubos had

hoped to study history at the university, but the death of his

father from head injuries suffered at the front forced him to

stay closer to home to look after his mother. Dubos was

granted a scholarship to study agricultural science at the

Institut National Agronomique in Paris, receiving his bachelor

of science degree in 1921. He spent part of the next year as an

officer trainee in the French Army, but was soon discharged

because of heart problems.

In 1922, Dubos was offered the job of assistant editor at

a scholarly journal called International Agriculture

Intelligence, published by the International Institute of

Agriculture, then part of the League of Nations in Rome. Not

long after he arrived in Italy, Dubos came across an article on

soil microbes written by the Russian bacteriologist Sergei

Winogradsky, who was then associated with the Pasteur

Institute in Paris. Winogradsky’s contention that microbes

should be studied in their own environment rather than in

pure, laboratory-grown cultures so intrigued Dubos that he

resolved to become a bacteriologist. “This is really where my

scholarly life began,” he told John Culhane in an interview for

the New York Times Magazine.“I have been restating that idea

in all forms ever since.” Soon after, Dubos happened to meet

the American delegate to the International Institute of

Agriculture, who convinced him to pursue graduate studies in

the United States.

In order to finance his trip, Dubos translated books on

forestry and agriculture and gave guided tours of Rome to for-

eign visitors. He eventually set sail for New York in 1924.

During the crossing, Dubos ran into Selman Waksman, head of

the soil microbiology division of the State Agricultural

Experiment Station at Rutgers University in New Jersey (a

man the aspiring scientist had guided around Rome some

months before). After the ship docked in New York, Waksman

introduced Dubos to his colleagues at Rutgers University,

helping the young man secure a research assistantship in soil

microbiology. While serving as an instructor in bacteriology

over the next three years, Dubos completed work on his doc-

torate. His thesis, published in 1927, focused on the ways in

which various soil microorganismswork to decompose cellu-

lose in paper.

Upon completing his work at Rutgers, Dubos left for the

University of North Dakota at Fargo to accept a teaching posi-

tion in the department of microbiology. Soon after he arrived,

however, Dubos received a telegram from the Rockefeller

Institute for Medical Research in New York City offering him

a fellowship in the department of pathology and bacteriology.

Dubos immediately packed his bags, in part because the offer

involved work on a project begun by Rockefeller bacteriolo-

gist Oswald T. Avery. Avery and his colleagues had been

searching for a substance that could break down the semi-cel-

lulose envelope which protects pneumococci bacteria, the

microorganisms responsible for lobar pneumoniain human

beings, from attack by the body’s defense mechanisms.

Dubos’s bold assertion that he could identify an enzyme capa-

ble of decomposing this complex polysaccharide capsule with

minimal damage to the host had evidently impressed Avery.

With the exception of a two-year period in the early 1940s

when he served on the faculty at Harvard Medical School,

Dubos remained at the Rockefeller Institute, renamed

Rockefeller University in 1965, for the next 44 years.

Guided by the studies of renowned bacteriologist Louis

Pasteur, who maintained that any organic substance that accu-

mulated could be broken down by natural energy, Dubos spent

his first two years at the Institute searching fields, bogs, and

swamps for a bacterium or fungus that could attack and decom-

pose the tough polysaccharide coat surrounding pneumococci

bacteria. Unlike other scientific investigators, who used

enriched laboratory solutions to cultivate bacteria and force

them to produce enzymes, Dubos concocted a solution rich in

capsular polysaccharide, which he spread over a variety of

soils. In 1929, he succeeded in isolating a swamp-dwelling

bacillus which, because of its need for nourishment in an

energy-starved environment, had been compelled to produce

an enzyme capable of decomposing the polysaccharide capsule

and digesting the pneumococci within. The following year

Dubos was able to demonstrate the value of this particular

enzyme in fighting pneumococcal infections in both animals

and humans. The discovery confirmed Dubos’s belief that soil

bacteria were an important source of anti-infectious agents,

inspiring him to search for other disease-fighting microbes.

In 1939, Dubos announced the discovery of a substance

called tyrothricin, which had proved effective in fighting

staphylococcus, pneumococcus, and streptococcus infections.

Produced by the soil microorganism Bacillus brevis,

tyrothricin was later found to contain two powerful chemicals,

gramicidin and tyrocidine, which, though too toxic for inges-

tion, found widespread application in the treatment of external

conditions, such as infectious lesions in humans and udder

infections in cows. Dubos’s groundbreaking work prompted

scientists from around the world to conduct a wide-ranging

search for antibiotic substances in natural environments. This

ultimately resulted in a reexamination of the therapeutic prop-

erties of penicillin—first discovered in a bread moldten years

earlier by Alexander Fleming—and led to the isolation of a

variety of new antibiotics, including streptomycin and the

tetracyclines.

The death of Dubos’s first wife, Marie Louise Bonnet,

from tuberculosis in 1942 had a profound effect upon the sci-

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