In what can be termed a life-saving finding, researchers at the Indian Institute of Technology (IIT) in Mandi have identified a drug molecule that triggers insulin release by the pancreas and can potentially be used as an orally administered medicine for diabetes.
According to the research team, the molecule is called PK2, and the research findings have been published in the Journal of Biological Chemistry.?
¡°Current drugs such as exenatide and liraglutide used for diabetes are administered as injections, and they are costly and unstable after administration. We seek to find simpler drugs that are stable, cheap, and effective against Type 1 and Type 2 diabetes,¡± said Prosenjit Mondal, Associate Professor, School of Basic Sciences at the IIT.
One such process involves protein structures called GLP1R present in the cells.?
A hormonal molecule called GLP1, released after the ingestion of a meal, binds to the GLP1R and triggers insulin release.Drugs such as exenatide and liraglutide mimic GLP1 and bind to GLP1R to trigger insulin release.?
¡°To find alternatives to these drugs, the multi-institutional team first used computer simulation methods to screen various small molecules that can bind with GLP1R. While PK2, PK3, and PK4 had good binding abilities with GLP1R, they subsequently chose PK2 because of its better solubility in solvents. The researchers then synthesized PK2 in the lab for further testing,¡± said Khyati Girdhar, a research scholar.?
¡°We first tested the binding of PK2 on GLP1R proteins in human cells and found that it can bind well to GLP1R proteins. This showed that PK2 could potentially trigger insulin release by the beta cells,¡± she added.?
The researchers found that PK2 was rapidly absorbed by the gastrointestinal tract, which means that it can be used as an oral medication rather than an injection.
There was a small amount present in the brain, which shows that the molecule may be able to cross the blood-brain barrier.?It was cleared from circulation in about 10 hours.?
¡°Beyond increasing insulin release, PK2 could also prevent and even reverse beta cell loss, a cell essential for insulin production, making it effective for both Type 1 and Type 2 diabetes.¡±
¡°To test the biological effects of PK2, the researchers administered it orally to experimental mice developing diabetes and measured glucose levels and insulin secretion. There was a six-fold increase in serum insulin levels in PK2-treated mice over the control group. These findings provide hope for inexpensive oral drugs for diabetic patients,¡± he said.
According to new research, reducing sedentary time mitigates the risk of type 2 diabetes and cardiovascular diseases.?
(With inputs from PTI)