Drug-resistant TB may be treatable with new small molecule drug

Date: Feb-25-2015In a new study, scientists report how a new small molecule drug appears able

to kill drug-resistant tuberculosis without toxic side effects.

Tuberculosis - known as TB - is an infection caused by the bacterium Mycobacterium tuberculosis. TB can spread to any organ in the body, but is most commonly found in the lungs.

TB is most commonly found in the lungs.

According to the World Health Organization (WHO), 9 million people

around the world fell ill with TB in 2013 and 1.5 million died of it.

Although TB is

curable and preventable, the threat from drug-resistant forms of the bacterium is a

growing global health concern.

Improper use of antibiotics has led to new strains of TB that are resistant to

the two most powerful drugs used to treat it: isoniazid and rifampicin.

Now, researchers at the University of Georgia (UGA) in Athens have developed a

new small molecule drug that may serve as a treatment against multidrug-resistant

TB that cannot be cured with conventional drugs.

The team reports the findings in the journal Bioorganic and Medicinal

Chemistry Letters.

Drug 'disrupts fundamental steps in reproduction process' of TB bacteria

Lead author Dr. Vasu Nair, director of the Center for Drug Discovery at UGA,

says:

Fast facts about TB

TB is second only to HIV/AIDS as the greatest killer worldwide due to a single

infectious agent

About one third of the world's population has latent TB - that is, they carry the

bacterium but are not (yet) ill and so cannot pass it on

In 2013, an estimated 480, 000 people developed multidrug-resistant TB.

Learn more about TB

"Multidrug-resistant TB is spreading rapidly in many parts of the world.

There is a tremendous need for new therapies, and we think our laboratory has

developed a strong candidate that disrupts fundamental steps in the bacterium's

reproduction process."

Like many living organisms, the processes that keep bacteria cells like M.

tuberculosis alive and functioning rely on three types of large molecule: DNA,

RNA and proteins.

Put simply, DNA is the long-term storage place for the instructions that make the

organism and all its cells and functions. RNA molecules - which are synthesized from

DNA as needed - translate requisite parts of DNA to make proteins, the workhorses of

cells.

Dr. Nair and colleagues were interested in one particular molecule - an enzyme

that helps to produce TB RNA called RNA polymerase, or RNAP. Without this molecule,

the TB bacterium cannot produce the proteins it needs to survive.

The team developed a compound that interrupts the process through which RNAP

produces TB RNA. The compound - which they refer to as "Compound 2" in their paper -

is a small molecule that binds to specific amino acids and magnesium in the

bacterial cells.

Drug has 'dual-purpose therapy' potential against both TB and HIV

Dr. Nair says the compound stops M. tuberculosis bacteria from growing

and reproducing, thus rendering it incapable of spreading infection. He adds:

"More importantly, the compound shows very low levels of

cytotoxicity, which means that it is not harmful to the body."

He and his colleagues also carried out extensive tests on human cells and cell parts to find out how long it

might take for the compound to clear from the human body. Dr. Nair says the results

were very favorable, and:

"The half-life is a little over 14 hours, and all traces of the drug are expected

to be cleared through normal bodily functions."

The team was also surprised - when carrying out early tests on the new compound -

that it shows strong anti-HIV properties. This could open the door to dual-purpose therapies, where the drug tackles more than one disease at the same

time.

A dual-purpose drug that tackles TB and HIV at the same time is a very

exciting prospect because the risk of developing TB is 26-31 times higher in people

infected with HIV, according to the WHO.

UGA has a technology licensing office that is now looking for commercial partners

to help develop the drug.

A grant from the National Institutes of Health funded the study.

In October 2014, Medical News Today learned that TB is more widespread than previously thought. A

drive to improve data collection on TB exposed nearly half a million more cases than

had been previously estimated, the WHO said in their Global

Tuberculosis Report 2014.

Written by Catharine Paddock PhD

Courtesy: Medical News Today Note: Any medical information available in this news section is not intended as a substitute for informed medical advice and you should not take any action before consulting with a health care professional.