Public Release:  The placebome: Where genetics and the placebo effect meet

How will genomics impact the role of the placebo in patient care and clinical research?

Beth Israel Deaconess Medical Center

BOSTON -Placebos have helped to ease symptoms of illness for centuries and have been a fundamental component of clinical research to test new drug therapies for more than 70 years. But why some people respond to placebos and others do not remains under debate.

With the advent of genomics, researchers are learning that placebo responses are modified by a person's genetics, a discovery that raises important new questions regarding the role of the placebo in patient care and in drug development: How many genetic biomarkers exist? Can the medical field harness the placebo response to enhance personalized medical treatment? What might be the impact of placebo-drug interactions? And what will this new information mean for randomized clinical trials, which depend on placebo controls to test the efficacy of new drug candidates? Should a "no-treatment" control be added to future trials?

Researchers from the Program in Placebo Studies (PiPS) at Beth Israel Deaconess Medical Center (BIDMC) and from the Department of Medicine at Brigham and Women's Hospital (BWH) explore these provocative issues in a review of evidence from placebo studies and randomized clinical trials. Published online today in Trends in Molecular Medicine, the article introduces the concept of "the placebome,"and identifies a network of genes that could significantly influence medicine and clinical trial design - suggesting that placebos play a larger role in health care than previously recognized.

"Genetic sequencing is revealing that the placebo response is, in fact, a complex phenotype with an unfolding physiology," says corresponding author Kathryn T. Hall, PhD, MPH, a PiPS Research Fellow in the Division of General Medicine and Primary Care at BIDMC and Harvard Medical School. "The study of genomic effects on the placebo response - what we call 'the placebome' -- is in its infancy, but there is already ample evidence that genetic variations in the brain's neurotransmitter pathways modify placebo effects. As a result, placebo responses are emerging as a legitimate series of biological reactions that must be rigorously characterized for efficient pharmaceutical development and optimal patient care."

The article focuses on several key concepts for future research and discussion regarding the role of the placebome in health care.

The Role of the Neurotransmitter in the Placebo Effect

The placebo effect occurs when patients show improvement from treatments that contain no active ingredients. Scientists initially used behavioral instruments, such as personality measures, to predict which patients would respond to placebos, but over the past decade, the development of sophisticated neuroimaging technologies illuminated the activation of the brain's neurotransmitter pathways in response to placebos.

"Because they are the chemical messengers that either excite or inhibit nerve function in the brain, many neurotransmitters play key roles in reward and pain," explains Hall. "We hypothesized that genetic variation in the genes that encode the proteins in these neurotransmitter pathways might also modify placebo responses."

In 2012, Hall identified the first placebo biomarker, the catechol-O-methyltransferase (COMT) gene, reporting that genetic variations in COMT - which influence the brain's levels of the neurotransmitter dopamine -- also determined the extent of an individual's placebo response.

A review of the scientific literature over the last 10 years provided the authors with further confirmation that, beyond the COMT gene, there is evidence for genetic variation in other neurotransmitter pathways that modify placebo response. These include the opioid, endocannabinoid and serotonin pathways -- suggesting the potential existence of a placebome or "network" of genes.

Possibility of Placebo-Drug Interactions

Knowing that neurotransmitter pathways are involved in placebo responses now raises a new consideration for both patient care and clinical research, say the authors: What if placebo responses and drug responses share the same brain pathways?

"We're discovering that the placebo is not the only component in the placebo effect," explains the paper's coauthor Ted Kaptchuk, Director of the PiPS at BIDMC and Professor of Medicine at Harvard Medical School. "These neurotransmitter pathways, which are modified by genetics, are pathways that both drugs and the placebo act on. This now suggests that a drug could change a placebo response and a placebo response could modify a drug response."

The authors add that the potential overlap between placebo, drug treatment and disease adds to the complexity of the placebome and underscores the importance of understanding how it fits into larger more complex networks.

No-Treatment Arms in Clinical Trials

"The possibility that there could be a placebo-drug interaction as a result of genetic variation in placebo pathway genes suggests that we need to refine and recalibrate the assumptions of placebo controls in randomized clinical trials," the authors write. "An important next step in describing the placebome would be to include a no-treatment control in placebo-controlled randomized clinical trials. This approach might be cost effective and allow for a broad view of placebo response genes and other molecules across varying conditions and treatments."

As the "gold standard" for pharmaceutical research, randomized clinical trials include a "placebo arm," which is designed to control for the non-specific, non-pharmacological effects that are part of the administration and receipt of clinical treatment (i.e. the way a doctor is dressed, the way he or she describes what to expect from a drug, even the physical appearance of the doctor's office). But in order to properly study the placebo response, the authors propose that a "no -treatment" control needs to be incorporated into the trials.

"The best control for a drug is a placebo, but if you want to study placebos you need a no-treatment control," says Hall. "This is one of the major limitations in the scientific literature, but we believe that this could be addressed prospectively by including such an arm in future clinical trials.

"Knowledge of the placebome has the potential to guide development of novel strategies for both identifying placebo responders and clinical trial design," she adds.

"The field of pharmacogenomics and our health care system's focus on precision medicine both call for the right treatment in the right place at the right time, and incorporating the placebome into this overall strategy could help lead to cost effective treatments and improved patient care. The placebome now let's us consider the placebo in a serious biological manner."

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In addition to Hall and Kaptchuk, Joseph Loscalzo, of the Department of Medicine, Brigham and Women's Hospital is a coauthor of the paper. The authors are supported by the following grants from the National Center for Complementary and Alternative Medicine and the National Institutes of Health: T32AT000051; 2K24 AT004095; R01 AT005280; R01 AT004662; P01 AT006663.

Beth Israel Deaconess Medical Center is a patient care, teaching and research affiliate of Harvard Medical School and consistently ranks as a national leader among independent hospitals in National Institutes of Health funding.

BIDMC is in the community with Beth Israel Deaconess Hospital-Milton, Beth Israel Deaconess Hospital-Needham, Beth Israel Deaconess Hospital-Plymouth, Anna Jaques Hospital, Cambridge Health Alliance, Lawrence General Hospital, Signature Healthcare, Beth Israel Deaconess HealthCare, Community Care Alliance and Atrius Health. BIDMC is also clinically affiliated with the Joslin Diabetes Center and Hebrew Senior Life and is a research partner of Dana-Farber/Harvard Cancer Center and The Jackson Laboratory. BIDMC is the official hospital of the Boston Red Sox. For more information, visit http://www.bidmc.org.

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