Sugar makes antibiotics more effective says Boston University scientists

snip

The scientists, from Boston University, tested the effects of drawing the bacteria out of their hibernation using sugar.

They found stimulating the bugs with sugar renders them vulnerable to antibiotic attack.


Testing the strategy on Eschericia coli (E. coli) bacteria, a common cause of urinary infections, the researchers were able to eliminate 99.9 per cent of persisters in just two hours.

Without sugar, the drugs they used had no effect, according to a report in the journal Nature.



Read more: http://www.dailymail.co.uk/health/article-1386041/A-spoonful-sugar-help-beat-bugs-Antibiotics-effective-glucose.html#ixzz1MOT2Zcez

Mary Poppins knew how to get kids to do what she wanted! :)

This is an extremely significant and exciting development from the field of biomedical engineering.
An inexpensive and powerful treatment, coming from a MacArthur Genius Award recipient in a university lab.
Exactly what Big Pharma has NO interest in. This cheap enhancement works with existing antibiotics, i.e., GENERICS, so no obscene profits for Big Pharma there.
http://www.bu.edu/today/node/12930

Solution to Stubborn Bacterial Infections Might Be Sweet
ENG researchers: sugar could fight recurring infections, TB
By Susan Seligson

v_10-3027-COLLINS-017.jpg James Collins: “A spoonful of sugar makes the medicine work.” Photo by Kalman Zabarsky

A discovery by researchers at the College of Engineering may deliver a new weapon in the daunting battle against recurring, potentially lethal bacterial infections such as staphylococcus and streptococcus. And the weapon—a modified form of sugar—is as widely available and cheap as it is effective, says James Collins, a William Fairfield Warren Distinguished Professor, an ENG professor of biomedical engineering, and a Howard Hughes Medical Institute investigator, coauthor of the study appearing in the May 12 issue of Nature.

“A spoonful of sugar makes the medicine work,” says the MacArthur genius award recipient, paraphrasing Mary Poppins. It does that, he says, by “waking up” stealthy, dormant bacteria that can lie in a state of metabolic hibernation for weeks or months. Collins and his team found that sugar dramatically boosts the effectiveness of so-called first-line antibiotics such as streptomycin and tetracycline. A sugar-antibiotics combination could be used to wipe out recurring, often debilitating infections such as those of the ear, throat, lungs, and urinary tract, all of which can spread to the kidneys and other vital organs if left unchecked.

With the Harry Potter–esque name “persisters,” the class of particularly feisty bacteria seem to respond initially to antibiotic treatment, then go into hiding, only to emerge weeks or months later more aggressive than they were initially. These infections take a huge toll; Collins’ own mother has been hospitalized several times with recurring bouts of a stubborn, persister-like staphylococcus infection. In the lab, by adding sugar to antibiotics, the researchers found they were able, within two hours, to obliterate 99.9 percent of cultures of persister staphylococcus and e coli, the culprit in most urinary tract infections.

“Our goal was to improve the effectiveness of existing antibiotics, rather than invent new ones, which can be a long and costly process,” says study first author Kyle Allison (ENG’11), a PhD student in Collins’ lab.

The team also saw promising results after testing the antibiotic-sugar combination on e coli infections in mice. And they discovered that the combination treatment inhibited the spread of bacterial infection to the kidneys of the mice.

The most significant impact of the BU team’s research could be on tuberculosis (TB), a chronic bacterial infection of the lungs, which annually kills approximately 1.7 million people worldwide, according to the World Health Organization. Collins and Allison plan to study whether sugar additives can improve the efficacy of TB drugs.

Susan Seligson can be reached at sueselig@bu.edu.

:kick:

increases the infectious activity of bugs. So, sugar should only be taken as medicine when one already has an infection?


And sugar is besides inherently toxic?

http://www.nytimes.com/2011/04/17/magazine/mag-17Sugar-t.html?_r=2&pagewanted=all

if so, this makes sense.

dg

by pulling water out of the bacterial cells.

Below 70% sugar is food for many of them.

whether that is factual or hearsay. I read about the Boston study the very day last week I finished a round of several antibiotics for H'Pylori. During the week I was on them I avoided all sugar so now I am teed off because I don't think the h.pylori got erradicated since I am still having some symptoms. I wonder if taking sugar would have helped.