People Are Human-Bacteria Hybrid

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People Are Human-Bacteria Hybrid

 

 

By Rowan Hooper | Also by this reporter Page 1 of 1

 

 

 

02:00 AM Oct. 11, 2004 PT http://www.wired.com/news/medtech/0,1286,65252,00.html

 

 

Most of the cells in your body are not your own, nor are they even

human. They are bacterial. From the invisible strands of fungi waiting

to sprout between our toes, to the kilogram of bacterial matter in our

guts, we are best viewed as walking "superorganisms," highly complex

conglomerations of human, fungal, bacterial and viral cells.

 

That's the view of scientists at Imperial

College London who published a paper in Nature

Biotechnology Oct. 6 describing how these microbes

interact with the body. Understanding the workings of the

superorganism, they say, is crucial to the development of personalized

medicine and health care in the future because individuals can have

very different responses to drugs, depending on their microbial fauna.

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The scientists concentrated on bacteria. More than 500 different species

of bacteria exist in our bodies, making up more than 100 trillion

cells. Because our bodies are made of only some several trillion human

cells, we are somewhat outnumbered by the aliens. It follows that most

of the genes in our bodies are from bacteria, too.

 

Luckily for us, the bacteria are on the whole commensal, sharing

our food but doing no real harm. (The word derives from the Latin

meaning to share a table for dinner.) In fact, they are often

beneficial: Our commensal bacteria protect us from potentially

dangerous infections. They do this through close interaction with our

immune systems.

 

"We have known for some time that many diseases are influenced by

a variety of factors, including both genetics and environment, but the

concept of this superorganism could have a huge impact on our

understanding of disease processes," said Jeremy Nicholson, a professor of biological

chemistry at Imperial College and leader of the study. He believes the

approach could apply to research on insulin-resistance, heart disease,

some cancers and perhaps even some neurological diseases.

 

Following the sequencing of the human genome, scientists quickly saw that

the next step would be to show how human genes interact with

environmental factors to influence the risk of developing disease, the

aging process and drug action. But because environmental factors

include the gene products of trillions of bacteria in the gut, they get

very complex indeed. The information in the human genome itself, 3

billion base pairs long, does not help reduce the complexity.

 

"The human genome provides only scant information. The discovery

of how microbes in the gut can influence the body's responses to

disease means that we now need more research into this area," said

Nicholson. "Understanding these interactions will extend human biology

and medicine well beyond the human genome and help elucidate novel

types of gene-environment interactions, with this knowledge ultimately

leading to new approaches to the treatment of disease."

 

Nicholson's colleague, professor Ian Wilson from Astra Zeneca,

believes the "human super-organism" concept "could have a huge impact

on how we develop drugs, as individuals can have very different

responses to drug metabolism and toxicity."

 

"The microbes can influence things such as the pH levels in the

gut and the immune response, all of which can have effects on the

effectiveness of drugs," Wilson said.

 

The Imperial College research demonstrates what many -- from X

Files stalwarts to UFO fanatics -- have long claimed: We are not

alone. Specifically, the human genome does not carry enough information

on its own to determine key elements of our own biology.

 

 

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