New Diabetes Drug has Unexpected Side Effect
News Jul 23, 2015
The research, led by the London School of Hygiene & Tropical Medicine, found that diabetes patients taking glitazone antidiabetes drugs (either rosiglitazone or pioglitazone) had a 28% lower incidence of Parkinson’s disease than people taking other treatments for diabetes who had never taken glitazones.
Glitazones are a class of drug that activate the peroxisome proliferation-activated gamma (PPARɣ) receptor, which is found inside cells in many different body organs. PPARɣ activation by glitazones leads to reduced insulin resistance, which has been useful for treating people with diabetes, but the receptor has many other functions that have not been studied as thoroughly in humans.
Although the potential effect of glitazones on Parkinson’s disease had previously been demonstrated in rodents and in vitro, the authors believe this is the first study to show the relationship between glitazone use and incidence of Parkinson’s disease in humans.
The study, which was funded by The Michael J Fox Foundation for Parkinson’s Research, looked at more than 160,000 diabetes patients in the UK. Researchers used electronic health records from the UK Clinical Practice Research Datalink to match 44,597 glitazone users with 120,373 people using other antidiabetic drugs. Glitazone users were matched by age, sex, GP practice, and diabetes treatment stage with up to five users of other diabetic treatments.
Patients were followed up from 1999 (when glitazones were introduced to treat diabetes) until 2013, to determine how many were diagnosed with Parkinson’s disease during that period.
The results showed a 28% reduction in incidence of Parkinson’s disease among people taking glitazones compared with those taking other antidiabetic treatments. Adjustments for risk factors associated with Parkinson’s disease (including smoking and head injury) had no impact on the findings.
The results suggest that the reduced risk of Parkinson’s disease was only associated with current treatment with glitazones, and that there is little or no longer lasting benefit if people have taken the drug in the past before stopping or switching to another medication.
Senior author Dr Ian Douglas from the London School of Hygiene & Tropical Medicine said: “We often hear about negative side effects associated with medications, but sometimes there can also be unintended beneficial effects. “Our findings provide unique evidence that we hope will drive further investigation into potential drug treatments for Parkinson’s disease. It’s thought that around one in 500 people are affected by Parkinson’s, and to date no effective treatments have been found to directly tackle the neurodegenerative aspect of the disease.”
Dr Ruth Brauer, who worked on the study while at the School before moving to King’s College London, said: “Our results suggest that treatments which activate the PPARɣ receptor in the same way as glitazones could be promising targets in future drug research. Although our study only looked at people with diabetes, we believe it’s likely that the protective effect of glitazones may also be seen in people without diabetes.”
The authors note that their study only included patients with diabetes who had not been diagnosed with Parkinson’s disease when they started taking glitazones, and therefore they cannot establish whether taking the drug slows or prevents the progression of the disease. They also highlight that glitazones have been associated with some serious side effects including bladder cancer and cardiovascular issues.