. . . Has a history
Medicinal chemistry is the application of chemical research techniques
to the synthesis of pharmaceuticals. During the early stages of medicinal
chemistry development, scientists were primarily concerned with the isolation
of medicinal agents found in plants. Today, scientists in this field are
also equally concerned with the creation of new synthetic drug compounds.
Medicinal chemistry is almost always geared toward drug discovery and
development.
. . . Is carrying out basic research
Medicinal chemistry research is an important area of research that is
performed in many university labs. As an assistant professor at the University
of Maryland School of Pharmacy, Alex Mackerell, Jr. has done research
on cocaine and cocaine analogs to develop drugs for the treatment of cocaine
addiction. His research, however, was not solely focused on just getting
a product, but also on understanding basic chemical reactions and their
properties. "We were interested in the physical properties and in
the underlying mechanisms of cocaine," he says. The purpose of the
research was to develop a cocaine antagonist that would cause ill effects
when cocaine is ingested. This type of research characterizes the research
being conducted in academic environments.
. . . Can lead to treatment of diseases
Grace Lee is using her bachelor's degree in pharmaceutical chemistry for
a different kind of drug development. She is a part of a team of analytical
chemists at the National Institute of Health (NIH) who formulate drugs
that could be used to treat patients with very rare diseases. These formulations
are called orphan drugs because they are used to treat diseases found
in only small portions of the population. "We try to develop a treatment
either from scratch or from research that has already been done in other
countries," she says. "My job is challenging because it requires
working with several different compounds at one time." Everyday she
relies on her knowledge from her undergraduate courses in analytical and
organic chemistry. She uses this basic chemistry training when testing
and retesting compounds for safety and efficacy, which is the measure
of how well a drug product works in the human body.
. . . Is developing guidelines
Chemists as the U.S. Food and Drug Administration (FDA) review new drug
applications from pharmaceutical companies and are also responsible for
reviewing the processes by which the substances are made. These chemists
do not work in a laboratory, but their role in medicinal chemistry is
important. Charles Kumkumian is the assistant director of the Office of
Drug Evaluation for the FDA which, he says, is the largest regulatory
group in the world, employing more than 9,000 people. He says that there
are about 900 chemists employed in various functions throughout FDA. Ten
percent of these are chemists who review new drug applications for entirely
new therapeutic entities. An equal number of chemists review additional
new drug applications that are generic formulas or over-the-counter dosages.
. . . Links many scientific disciplines
The focus on development of new synthetic drug compounds has resulted
in the incorporation of many other disciplines, such as biochemistry and
molecular biology, into medicinal chemistry. "Medicinal chemistry
involves working in teams with scientists from a variety of other disciplines,"
says James Kaminski, a senior principal scientist at Schering Plough.
"There is a lot of collaboration between chemists and biologists
while searching for a lead on a new drug or doing research on a preclinical
drug candidate. Then, when you look into the drug safety profile, you
work with toxicologists and pharmacologists."
Joel Barrish, group/project leader in pharmaceutical and drug discovery
research at Bristol-Myers Squibb, says that most of his time is spent
coordinating the synthetic chemistry efforts of chemists in his group
with other members of the project working group outside of chemistry,
including areas such as biology, computer-aided design, x-ray crystallography,
metabolism and pharmacokinetics, legal and regulatory affairs, clinical,
franchise management, pharmaceutics, and process research chemistry. Barrish
says, "Working in teams is essential to discovering drugs because
many different aspects of a molecule must be defined to identify a candidate
for clinical studies." He adds, "Medicinal chemistry is the
drug discovery engine that provides the tools for the rest of the organization
so they can determine the importance of particular biological targets.
Kaminski also believes that understanding and interacting with other scientists
is key to being successful in this area. Most medicinal chemists find
that the opportunity to do research with other scientists while helping
to new drugs is an exciting part of their work. Barrish says, "Drug
discovery research is a highly creative and stimulating work environment
where people are driven to succeed by personal and scientific objectives,
and the desire to contribute to society's well-being.
Copyright 1994, 1997 American Chemical Society
WORK DESCRIPTION
Medicinal chemists apply their chemistry training to the process of synthesizing
new pharmaceuticals. They also work on improving the process by which
other pharmaceuticals are made. Most chemists work with a team of scientists
from different disciplines, including biologists, toxicologists, pharmacologists,
theoretical chemists, microbiologists, and biopharmacists. Together this
team uses sophisticated analytical techniques to synthesize and test new
drug products and to develop the most cost-effective and environmentally
friendly means of production.
WORKING CONDITIONS
Medicinal chemistry offers a variety of lab opportunities. Most chemists
use their research skills to formulate, produce, and analyze new compounds.
However, each lab environment is unique-daily activities and career opportunities
differ with each one. In academia, chemists explore a compound's different
mechanisms in basic research as well as teach at least one full course.
In government, laboratory work is not always required, especially at the
FDA where they review drug applications. Industry, on other hand, offers
chemists a choice of moving into management or staying in the lab.
PLACES OF EMPLOYMENT
Though a wide array of positions exist for chemists in medicinal chemistry,
the availability of these jobs is dependent upon the economy, shifting
government regulations, and research grants. Employment prospects include
the academic environment, pharmaceutical companies, and government. Biotechnology
organizations also employ chemists in this area. Industry provides the
opportunity to choose between a traditional laboratory career or a non
laboratory chemistry career in management. Government also offers a choice
between a laboratory position and a non laboratory chemistry position,
such as drug application review.
PERSONAL CHARACTERISTICS
Medicinal chemists must enjoy varied activities and must be receptive
to exploring the unknown. A good imagination and persistence are also
two important qualities to have when considering a career in medicinal
chemistry. Being a team player with good writing and verbal communication
skills are invaluable assets when interacting with scientists from other
disciplines.
EDUCATION AND TRAINING
Generally, pharmaceutical companies hire only people with research experience,
advanced degrees especially in organic chemistry, and at least two years
of post-doctoral experience. Most chemists in traditional research careers
are Ph.D. chemists while chemists with B.S. degrees generally serve as
research technicians. You can place yourself in a competitive position
by getting as much experience as possible with a strong background in
organic chemistry and biochemistry. A number of universities have formed
medicinal chemistry programs in the past 20 years.
JOB OUTLOOK
Because of the ever-changing economy and government health care reform
regulations, the job outlook for medicinal chemists in today's market
is mixed. Many changes are taking place within the pharmaceutical industry.
Companies have been decreasing the size of their research labs or merging
with other companies. Therefore, the job outlook is somewhat uncertain
for medicinal chemists. While industry is downsizing, some government
agencies are looking for chemists to fill non laboratory chemistry positions.
An excess of jobs is not available in academia either. Some chemists are
optimistic that this downturn is only cyclical as much research remains
to be done.
SALARY
The starting salary for a B.S. chemist ranges from the high $20,000 to
the low $30,000-per-year range. Master's degree holders earn salaries
in the mid to high $30,000s. Salary range for Ph.D. chemists fall in the
mid $40,000 to mid $50,000-per-year range.
FOR MORE INFORMATION
American Association of Pharmaceutical Scientists
1650 King Street, 2nd Floor
Alexandria, VA 22314-3105
703-548-3000
WHAT YOU CAN DO NOW
Undergraduate students should maintain a high degree of scholarship and
get as much experience as possible. Internships provide valuable experience
and are the best way to see if a career in medicinal chemistry in a pharmaceutical
lab appeals to you. Undergraduate research in university laboratories
is another way to gain experience and as well as become familiar with
the day-to-day activities in academia. Chemists advise undergraduate students
to get a strong background in the basic chemistry courses and, if a research
position in this areas is desired, continue on to get an advanced degree.
American Chemical Society, Education Division, 1155 Sixteenth Street,
NW, Washington, DC 20036; (202) 452-2113.
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