You could soon say goodbye to insulin injections, thanks to a new diabetic drug

Scientists are developing a new safe, effective diabetes drug that could spell the end for painful insulin jabs.

Researchers led by the University of Adelaide in Australia have for the first time shown how potential anti- diabetic drugs interact with their target in the body at the molecular level.

The new potential drugs have a completely different action than the most commonly prescribed anti-diabetic, Metformin, which acts on the liver to reduce glucose production

They target a protein receptor known as PPAR-gamma found in fat tissue throughout the body, either fully or partially activating it in order to lower blood sugar by increasing sensitivity to insulin and changing the metabolism of fat and sugar.

"Type II diabetes is characterised by resistance to insulin with subsequent high blood sugar which leads to serious disease. It is usually associated with poor lifestyle factors such as diet and lack of exercise," said John Bruning, from University of Adelaide.

"People with severe diabetes need to take insulin but having to inject this can be problematic, and it's difficult to get insulin levels just right," said Bruning.

"It's highly desirable for people to come off insulin injections and instead use oral therapeutics," he said.

In a study published in the Journal of Medicinal Chemistry, researchers describe 14 different versions of a drug which partially activates PPAR-gamma were produced.

Partial activation can have the benefit of fewer side- effects than full activation.

The original drug, INT131, is currently being tested in clinical trials in the US but some of the versions produced at the University of Adelaide have increased potency compared to the original, with the potential to further improve the treatment of type 2 diabetes.

In another study published in the journal BBA-General Subjects, researchers used X-ray crystallography to demonstrate for the first time exactly how a potential new drug, rivoglitazone, binds with the PPAR-gamma receptor.

Rivoglitazone fully activates PPAR-gamma but has less side effects than others with this mode of action.

"Showing how this compound interacts with its target is a key step towards being able to design new therapeutics with higher efficiencies and less side-effects," said Harinda Rajapaksha, from Flinders University in the Australia.