Consumer DNA Tests Do Not Accurately Predict Disease

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By Dr. Lynn Webster, PNN Columnist

Three years ago, I gave my family members DNA kits as Christmas gifts. I thought the genetic health aspects of the test would be an entertaining exercise -- a bit like visiting a psychic who would read tarot cards to predict the future. I didn’t think of it as a serious medical test, and I made sure my family understood that.

These kits have become very popular. More than 26 million people have taken an at-home genetics test, hoping to learn more about their ancestral background, along with their risks of developing certain diseases. But the tests may not live up to either of those expectations.

The U.S. Government Accountability Office (GAO) sent a report to Congress in 2010 alleging that some DNA testing companies used deceptive marketing and other questionable practices. 

The GAO stated that results from DNA tests were “misleading and of little or no practical use.” Their investigation also uncovered the fact that different DNA testing companies provided different results from the same sample. 

Not only were the test results dubious, but the companies made some deceptive claims. One company alleged the results from their testing could help cure diseases. Another claimed the data could predict at which sports a child would excel.

Admittedly, the accuracy of the tests has improved since 2010, but the tests still are, at best, imperfect.

Our genome (the whole of our hereditary information, encoded in our DNA) contains about three billion genes. Of those, only about 20,000 are responsible for disease. But we are more than our genes. Whether or not we will get most diseases depends on a combination of our genes and environment. This interaction of environment and genes is what we call a phenotype.

Of course, there are genetic mutations that are responsible for specific diseases. Single-gene mutations are responsible for about 10,000 diseases, the majority of which are considered rare. Some of the more common single-gene disorders include sickle cell anemia, cystic fibrosis, phenylketonuria, and Huntington's disease.

However, there is no guarantee that direct-to-consumer DNA kits are capable of detecting all common single genetic mutations. Moreover, the absence of a reported mutation from these kits does not mean the mutation does not exist.

Testing may uncover some benign and interesting traits, though. For example, some genetic kits (but not all) can tell you if you have a gene associated with how your earlobes are shaped, whether your urine has an offensive odor after you eat asparagus, or if you are inclined to dislike cilantro.

The accuracy of the health-related portion of the tests is improving. It is now possible to test for genes that predict a person's risk for certain types of breast and prostate cancers. However, placing too much weight on the results of those tests can be dangerous. For example, the tests do not screen for all types of breast cancer, which can lead consumers to falsely conclude their risk of all breast cancers is low if their test results do not indicate a gene mutation associated with breast cancer.

At best, the types of DNA tests that provide information on single-mutation diseases should be accompanied by appropriate genetic counseling. Since most diseases are based on multiple genes and environment, a genetics counselor can help put the test results into perspective.

Deciding how to use the information may be more important than knowing the results of the test. In medicine, we never order a test unless it will help us provide better care for our patient. This may be an important principle to apply here as well.

Privacy Is a Big Concern

We should also be very concerned about how our DNA data will be stored and used. The testing companies' DNA databases can be hacked by people with nefarious motives, or shared with insurance companies or law enforcement. Laws protecting consumers are evolving, but clearly, at-home DNA tests expose consumers to unknown and, perhaps, unintended consequences.

DNA tests were first pitched to consumers as a way in which they could learn about their ancestry. However, the reference data sets were largely European and less accurate in showing lineages in other areas of the world. If your roots were Asian or African, the reports were less likely to accurately reflect where your ancestors lived.

Over time, the data sets have improved and expanded, so consumers with non-European ancestry may get more accurate information about their heritages now than they would have previously. That trend will likely continue.

Whether DNA kits are mostly a gimmick, I cannot say. But it is important to recognize their limitations in providing trustworthy information about our health or ancestry. Certainly, we should not base health decisions on their results, and I would think twice about paying for the privilege of delivering my DNA profile to a for-profit company.

Maybe this year I’ll just give everyone tarot decks.

Lynn R. Webster, MD, is a vice president of scientific affairs for PRA Health Sciences and consults with the pharmaceutical industry. He is the author of the award-winning book, “The Painful Truth,” and co-producer of the documentary, It Hurts Until You Die.”

You can find Lynn on Twitter: @LynnRWebsterMD.

Opinions expressed here are those of the author alone and do not reflect the views or policy of PRA Health Sciences or Pain News Network. 

Chronic Pain Changes Our Immune Systems

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By Pat Anson, Editor

Scientists already know that chronic pain can change the way our brains work, but now there is new evidence that pain may also make lasting changes in our immune systems.

In studies on laboratory rats, researchers at McGill University in Montreal found that chronic pain alters the way genes work in the immune system. The discovery may help explain why pain can persist long after the initial injury.

"We found that chronic pain changes the way DNA is marked not only in the brain but also in T cells, a type of white blood cell essential for immunity,” said Moshe Szyf, a professor in the Faculty of Medicine at McGill. "Our findings highlight the devastating impact of chronic pain on other important parts of the body such as the immune system."

McGill researchers examined DNA from the brains and white blood cells of rats nine months after a nerve injury. They found a “stunning” number of changes in DNA methylation – which regulates how genes function. Chronic pain appeared to reprogram how the genes work.

"We were surprised by the sheer number of genes that were marked by the chronic pain -- hundreds to thousands of different genes were changed," adds Szyf. "We can now consider the implications that chronic pain might have on other systems in the body that we don't normally associate with pain."

Many of the genes that were altered are associated with depression, anxiety, and loss of cognition, which are some of the negative side effects of chronic pain.  The findings could open new avenues to diagnosing and treating chronic pain in humans, as some of the genes affected by chronic pain could represent new targets for pain medications.

“These findings reveal potential new avenues for the development of novel therapeutics directed at either the molecular regulation of methylation or at key genes or pathways dysregulated in chronic pain,” the study found.  “This work also provides a possible mechanistic explanation for commonly observed comorbidities observed in chronic pain (i.e anxiety, depression). Finally, the sheer magnitude of the impact of chronic pain, particularly in the prefrontal cortex, illustrates the profound impact that living with chronic pain exerts on an individual.”

The McGill study is published in the journal Scientific Reports.

A recent study at Northwestern University found that chronic pain “rewires” a part of the brain that controls whether we feel happy or sad.  Researchers found that a group of neurons thought to be responsible for negative emotions became hyper-excitable within days of an injury that triggers chronic pain.