Significant Distortions Discovered in Leading Genetics Study Method - Open Source Software can Detect and Correct Them

Press Release | Icahn School of Medicine at Mount Sinai | April 24, 2018

Study of Mendelian randomization results detects factor called horizontal pleiotropy in close to 50 percent of significant causal relationships, a finding of great importance for detecting biomarkers for drug development and disease management

Many conclusions drawn from a common approach to the study of human genetics could be distorted because of a previously overlooked phenomenon, according to researchers at the Department of Genetics and Genomics Sciences at the Icahn School of Medicine at Mount Sinai and collaborators from Massachusetts General Hospital and the Broad Institute. Their conclusions and a unique method they developed to help correct for this distortion were recently published in Nature Genetics.

The common approach, called Mendelian randomization (MR), is a method that uses genetic variation to assess how risk factors such as obesity and lipid levels affect the likelihood of disease and mortality. The researchers found that a phenomenon called horizontal pleiotropy - in which genetic variants influence disease through pathways different from the risk factors being tested - was present in 48 percent of the MR studies they analyzed. The results were distorted, on average, by -131 to 201 percent, meaning certain exposures analyzed in these studies may have appeared to have more or less influence on disease than they actually do. They also found that widespread horizontal pleiotropy induced false positive causal relationships in up to 10 percent of results in certain tests.

Icahn School of Medicine at Mount Sinai - Credit MSSMAs technology in genomic analysis has evolved rapidly in the past decade, researchers have developed multiple MR methods to study health and disease. A study of the validity of MR methods and innovation to correct for factors such as horizontal pleiotropy comes at a crucial time.

"Mendelian randomization has significant implications for drug discovery and validation," said Ron Do, PhD, Assistant Professor in the Department of Genetics and Genomic Sciences at the Icahn School of Medicine. "It can be used to determine whether biomarkers are causal for disease, which can determine what types of drug therapeutics may be worth exploring in clinical trials, and can potentially predict accurate dosing for drug effectiveness."

In light of these findings, the study authors stress the importance of assessing all MR studies for the occurrence of horizontal pleiotropy, and have developed open-source software to detect and correct for it, MR-PRESSO, which is available on GitHub at https://github.com/rondolab/MR-PRESSO

About the Icahn School of Medicine at Mount Sinai

The Icahn School of Medicine at Mount Sinai is an international leader in medical and scientific training, biomedical research, and patient care. It is the medical school for the Mount Sinai Health System, which includes seven hospital campuses, and has more than 5,000 faculty and nearly 2,000 students, residents and fellows. The School is made up of 36 multidisciplinary research, educational, and clinical institutes and 33 academic departments. It ranks 13th among U.S. medical schools for NIH funding and 2nd in research dollars per principal investigator among U.S. medical schools by the Association of American Medical Colleges (AAMC). The School was named 4th among "World's Most Innovative Companies in Data Science" by Fast Company magazine in 2016. For more information, visit http://icahn.mssm.edu