Statins could be effective treatment6 min read
- Researchers recently examined several Food and Drug Administration (FDA)-approved drugs to see whether any might effectively treat ulcerative colitis (UC).
- Their results suggest that cholesterol-lowering statins may reduce the need for anti-inflammatory drugs and surgical procedures to treat the condition.
- The researchers say that clinical trials to confirm their results must take place before doctors can prescribe statins for UC.
Almost 1 million people in the United States have UC. Inflammation drives the condition, and scientists believe that it occurs when the immune system attacks the cells of the rectum or colon.
Symptoms include blood in the stool, ongoing diarrhea that does not respond to over-the-counter (OTC) medications, and abdominal pain.
Current treatments for the disease include anti-inflammatory drugs; however, a significant number of people do not respond to these drugs. A colectomy, the surgical removal of part or all of the colon, is the only curative option for the disease.
A colectomy is usually a last resort treatment due to the adverse risks, such as internal bleeding, blood clots, and infection. Researchers are therefore interested in alternative ways to treat the condition. Developing drugs from scratch, however, is a lengthy and expensive process.
Repurposing drugs that the FDA has already approved saves time and money when investigating new treatments. This is because they already have well-established safety profiles widely available clinical data.
Scientists have already investigated repurposed drugs to treat diseases, including Parkinson’s disease,
In a recent study, researchers from Stanford University, CA, analyzed publicly available datasets of patient health information to identify FDA-approved drugs that may treat UC.
They found that atorvastatin, available under the brand name Lipitor, had links to a significant reduction in colectomy rates, the need for anti-inflammatory medication, and hospitalization among those with UC.
“These results are interesting, given the suggestion that a commonly used cardiovascular therapy could potentially be repurposed in the treatment of UC, “ Dr. Edward L. Barnes, MPH, assistant professor of medicine at the University of North Carolina at Chapel Hill, who was not involved in the study, told Medical News Today.
“The association of atorvastatin therapy with long-term outcomes, including the decreased rate of colectomy — when compared to patients prescribed a comparator drug — is interesting,” he said.
He also explained that “prior studies of statin therapy have also suggested a benefit in the natural history of inflammatory bowel disease (IBD), including potentially decreased incidence rates, decreased steroid use, and lower rates of colorectal cancer.”
The new research appears in the Journal of the American Medical Informatics Association.
The researchers first searched the
Altogether, they identified 11 gene expression datasets, including biopsy samples from 171 people with UC and 101 without the condition.
From a genetic analysis of the biopsies, the researchers found a UC disease signature of 1,248 genes.
The UC disease signature involved genes linked to immune and inflammation-related pathways, including cytokine and interleukin signaling and immunoregulatory interactions with the adaptive immune system.
The researchers also looked at the correlation between the gene signature and the gene expression profiles of 781 FDA-approved molecules profiled by the NIH Common Fund’s Library of Integrated Network-based Cellular Signatures (LINCS). They wanted to find drugs that might alter the gene activity associated with UC.
They found that the gene expression of the cancer drugs vemurafenib and gefitinib correlated most with the UC gene signature.
However, due to the adverse side effects of these drugs, the researchers chose to investigate the third most highly correlating option, atorvastatin, further. Atorvastatin reversed the effect of 731 genes, or 58% of the 1,248 genes in the UC gene signature.
To further investigate the effects of atorvastatin, they analyzed electronic health records from the Stanford Research Repository (STARR) and the Optum Clinformatics DataMart to see how the drug influenced colectomy rates among people with UC and cardiovascular issues.
The researchers found that the people taking statins were 50% less likely to require a colectomy regardless of age. These participants also took fewer steroids and took longer to be hospitalized after initiating medication than those using other cardiovascular and lipid-modulation therapies.
The researchers further identified that those taking atorvastatin for more than 6 months had lower colectomy rates than those taking the drug for less than 6 months. They also concluded that other statins might have similar effects due to similar gene expression to atorvastatin.
According to the authors, previous studies have shown that atorvastatin and other statins have anti-inflammatory effects and promote programmed cell death. The effects include “downregulation of molecular mediators involved in IBD-specific inflammation and reduction of colitis in animal models of IBD.”
While scientists do not yet understand the mechanisms involved in atorvastatin’s anti-inflammatory properties, genetic analysis showed that the drugs might interact with CXCL1,
“The authors indicate that [they do not know] the exact pathways by which atorvastatin may be decreasing inflammation and thus leading to a decreased rate of colectomy over time,” Dr. Barnes told MNT.
“Although several potential etiologies are suggested, I think that further studies will be required to identify the exact mechanism by which atorvastatin may be acting in patients with UC. Although some of the secondary analyses were limited by a relatively smaller sample size in some groups, there is a suggestion that longer duration of atorvastatin therapy is important for decreasing colectomy rates,“ added Barnes.
The researchers conclude that atorvastatin may work as a treatment option for UC.
“We have known for a long time that statins are anti-inflammatory, but we don’t quite know the mechanism yet,” Purvesh Khatri, lead author of the paper and associate professor of medicine and Biomedical Data Science at Stanford University, told MNT.
“One of the next steps is to understand what is the underlying mechanism. It could lead to identifying novel drug targets for patients with UC, and further improve therapeutic options for these patients.”
“Another future step is to confirm whether this beneficial association is also observed with similar strength for other statins. Although our analysis showed the same direction of association, we did not have enough patients with UC treated with other statins to have conclusive evidence,” Khatri explained to MNT.
The researchers note that because they only used retrospective data, the next step should be prospective trials that follow people over time.
“Although the sample size is robust, there are inherent limitations with the use of retrospective data,” said Barnes.
“For example, we do not know why a patient was prescribed one of the comparator therapies instead of atorvastatin, which could impact the results. We also don’t have important information regarding disease activity or phenotype, which can also impact outcomes, such as colectomy.”
“Finally, although the findings almost reached statistical significance, it is also important to note that only atorvastatin was associated with a decreased rate of colectomy and that other statin therapies did not show a significant association,” added Barnes.
“Each of these limitations does not suggest that the study does not have merit, rather that future prospective studies or other designs may be important in confirming this association or explaining the impact of atorvastatin on outcomes in patients with UC,” concluded Barnes.
The researchers say that the methods they used to arrive at their findings could help identify other drugs with the potential for repurposing in the future.
“My (heavily biased) view on this work is that it underscores how we can integrate the science of medicine (molecular data) with the practice of medicine (electronic health records and claims data) to accelerate clinical translation,” said Khatri, he continued:
“Here, we used gene expression from publicly available datasets of UC to predict FDA-approved drugs that could be repurposed to treat patients with UC. Then, we used electronic health records and claims data from two different sources to validate the prediction from our analysis of molecular data in real-world patient data.”
“This is a third paper from my lab to integrate molecular data with electronic health records for drug repurposing or developing novel biomarkers. So it is safe to say this approach could be turned into a framework for translational medicine,” concluded Khatri.