Too much of this ingredient leads to autoimmune diseases, new research shows. Here's how to cut back.
For more than a century, doctors have warned that too much salt in your diet can lead to high blood pressure, heart disease and stroke - and many of the reasons for these effects are well known. But recently scientists have been looking deeper, into the cellular level, and they are finding additional reasons to minimize sodium intake; it is bad for immune cells, creating patterns of gene expression and activity seen in a variety of autoimmune diseases such as multiple sclerosis, lupus, rheumatoid arthritis, and type-1 diabetes.
Salt is a major part of the ocean from which life evolved on this planet. We carry that legacy in our blood, which tastes salty. It is an important element for conducting electrical signals along nerves and balancing water and metabolites transported throughout our bodies. We need to consume about 500 milligrams of salt each day to maintain these functions, more with exercise and heavy sweating as that is a major way the body loses salt. The problem is that most Americans eating a modern western diet consume about 3400 milligrams, 1.5 teaspoons per day.
Evidence has been accumulating over the last few years that elevated levels of sodium can be harmful to at least some types of immune cells. The first signal came in monocytes, which are immune cells that travel to various tissues in the body, where some of them turn into macrophages, a subset of white blood cells that can directly kill microorganisms and make chemical signals that bring other types of immune cells into play.
Two years ago, Dominik N. Müller from the Max-Delbrueck-Center in Berlin, Germany and Markus Kleinewietfeld, an immunologist at Hasselt University in Belgium, ran a study where they fed people pizza and then measured their immune cell function. “We saw that in any monocytes, metabolic function was down, even after a single salty meal,” Kleinewietfeld says. It seemed to be the cellular equivalent of the sluggish feeling we get after eating too much. The cells were able to recover but more research is needed to answer questions about what dose of sodium causes impairment, how long the damage lasts, and whether there is a cumulative effect of salt toxicity.
Kleinewietfeld and his colleagues have hypothesized that too much salt could be a significant factor in the increased number of autoimmune diseases and allergies over the last few generations.
The latest series of experiments focused on a type of T cell called T regulatory cells, or Tregs. Most T cells release inflammatory mediators to fight pathogens and, once that job is done, Tregs come along to calm down their hyperactive brethren. Failure to do so can result in continued inflammation and possibly autoimmune diseases.
In the lab, Kleinewietfeld and his large team of international collaborators saw that high levels of sodium had a huge effect on Tregs, upregulating 1250 genes and downregulating an additional 1380 genes so that they looked similar to patterns of gene expression seen in autoimmune diseases.
Digging deeper, they found that sodium affected mitochondria, the tiny organelles inside of cells that produce much of its energy. The sodium was interfering with how the mitochondria use oxygen, which resulted in increased levels of an unstable form of oxygen that can damage cell function. The researchers injected those damaged Tregs into mice and found that they impaired the animals' immune function, allowing the inflammation to continue rather than shutting it down.
That finding dovetailed nicely with a 2019 paper in Nature from Navdeep Chandel's lab at Northwestern University, which showed in mice that inhibiting the mitochondrial use of oxygen reduced the ability of Tregs to regulate other T cells. “Mitochondria were controlling directly the immunosuppressive program, they were this master regulator tuning the right amount of genes to give you proper immunosuppression,” Chandel said. “And if you lose that function, then you get autoimmunity.”
Kleinewietfeld's team studied the Treg cells of humans and found that sodium can similarly decrease mitochondrial use of oxygen and immunosuppressive activity. “I would have never predicted that myself,” Chandel says, but now researchers can look at the mitochondria of patients with autoimmune disease and see if their gene expression also changes under high salt conditions. He sees the link between the patterns of gene expression in Tregs generated by high salt exposure and those patterns seen in autoimmune diseases, but he is cautious about claiming a causal effect.
Kleinewietfeld and his colleagues have hypothesized that too much salt could be a significant factor in the increased number of autoimmune diseases and allergies over the last few generations. He says a high salt diet could also have an indirect effect on immune function through the way it affects the gut microbiome and the molecules made by microbes when they break down food. But the research results are too preliminary to say that for sure, much less parse out the role of salt compared with other possible factors. “It is still an exciting journey to try to understand this field,” he says.
Additionally, it is difficult to say precisely how this research in animals and human cell cultures will translate into a whole human body. Individual differences in genetics can affect how the body absorbs, transports, and gets rid of sodium, such that some people are more sensitive to salt than are others.
So how should people apply these research findings to daily life?
Salt is obvious when we sprinkle it on at the table or eat tasty things like potato chips, but we may be unaware of sodium hidden in packaged foods. That's because salt is an easy and cheap way to boost the flavor of foods. And if we do read the labeled salt content on a package, we focus on the number for a single serving, but then eat more than that.
Last September, the U.S. Food and Drug Administration (FDA) began a process to update labels on the content of food, including what is meant by the word “healthy” and how food manufacturers can use the term. Many in the food industry are resisting those proposed changes.
Chandel cautions against trying to counter the effects of salt by reaching for foods or supplements full of antioxidants, which, in theory, could reduce the harmful effects on mitochondria caused by a heavy hand with the salt shaker.
Until labels are updated, it would be prudent to try to reduce sodium intake by cutting down on packaged foods while making your own food at home, where you know just how much salt has been added. The Mayo Clinic offers guidance on how to become more aware of the sodium in your diet and eat less of it.
Chandel thinks many people will struggle with minimizing salt in their diets. It’s similar to the challenge of eating less sugar, in that the body craves both, and it is difficult to fight that. He cautions against trying to counter the effects of salt by reaching for foods or supplements full of antioxidants, which, in theory, could reduce the harmful effects on mitochondria caused by a heavy hand with the salt shaker. “Dietary antioxidants have failed in just about every clinical trial, yet the public continues to take them,” Chandel says. But he is optimistic that research will lead us to a better understanding of how Tregs function, and uncover new targets for treating autoimmune diseases.
Twice a day, morning and night, I use a neti pot to send a warm saltwater solution coursing through one nostril and out the other to flush out debris and pathogens. I started many years ago because of sinus congestion and infections and it has greatly reduced those problems. Along with vaccination when it became available, it seems to have helped with protecting me from developing Covid-19 symptoms despite being of an age and weight that puts me squarely at risk.
Now that supposition of protection has been backed up with evidence from a solidly designed randomized clinical trial. It found that irrigating your sinuses twice a day with a simple saltwater solution can lead to an 8.5-fold reduction in hospitalization from Covid-19. The study is another example of recent research that points to easy and inexpensive ways to help protect yourself and help control the epidemic.
Amy Baxter, the physician researcher behind the study at Augusta University, Medical College of Georgia, began the study in 2020, before a vaccine or monoclonal antibodies became available to counter the virus. She wanted to be able to offer another line of defense for people with limited access to healthcare.
The nasal cavity is the front door that the SARS-CoV-2 virus typically uses to enter the body, latching on to the ACE2 receptors on cells lining those tissue compartments to establish infection. Once the virus replicates here, infection spreads into the lungs and often other parts of the body, including the brain and gut. Some studies have shown that a mouthwash could reduce the viral load, but any effect on disease progression was less clear. Baxter reasoned that reducing the amount of virus in the nose might give the immune system a better chance to react and control that growth before it got out of hand.
She decided to test this approach in patients who had just tested positive for Covid-19, were over 55 years of age, and often had other risk factors for developing serious symptoms. It was the quickest and easiest way to get results. A traditional prevention study would have required many more volunteers, taken a longer period of follow up, and cost money she did not have.
The trial enrolled 79 participants within 24 hours of testing positive for Covid-19, and they agreed to follow the regimen of twice daily nasal irrigation. They were followed for 28 days. One patient was hospitalized; a 1.27% rate compared with 11% in a national sample control group of similar age people who tested positive for Covid-19. Patients who strictly adhered to nasal irrigation had fewer, shorter and less severe symptoms than people in the study who missed some of their saline rinses.
Baxter initially made the results of her clinical trial available as a preprint in the summer of 2021 and was dismayed when many of the comments were from anti-vaxxers who argued this was a reason why you did not need to get vaccinated. That was not her intent.
There are several mechanisms that explain why warm saltwater is so effective. First and most obvious is the physical force of the water that sweeps away debris just as a rainstorm sends trash into a street gutter and down a storm drain. It also lubricates the cilia, small hair-like structures whose job it is to move detritus away from cells for expulsion. Cilia are rich in ACE2 receptors and keeping them moving makes it harder for the virus to latch on to the receptors.
It turns out the saline has a direct effect on the virus itself. SARS-CoV-2 becomes activated when an enzyme called furin snips off part of its molecular structure, which allows the virus to grab on to the ACE2 receptor, but saline inhibits this process. Once inside a cell the virus replicates best in a low salt environment, but nasal cells absorb salt from the irrigation, which further slows viral replication, says Baxter.
Finally, “salt improves the jellification of liquid, it makes better and stickier mucus so that you can get those virus out,” she explains, lamenting, “Nobody cares about snot. I do now.”
She initially made the results of her clinical trial available as a preprint in the summer of 2021 and was dismayed when many of the comments were from anti-vaxxers who argued this was a reason why you did not need to get vaccinated. That was not her intent. Two journals rejected the paper, and Baxter believes getting caught up in the polarizing politics of Covid-19 was an important part of the reason why. She says that editors “didn't want to be associated with something that was being used by anti-vaxxers.” She strongly supports vaccination but realizes that additional and alternative approaches also are needed.
Premeasured packets of saline are inexpensive and can be purchased at any drug store. They are safe to use several times a day. Say you’re vaccinated but were in a situation where you fear you might have been exposed to SARS-CoV-2; an extra irrigation will clear out your sinuses and may reduce the risk of that possible exposure.
Baxter plans no further study in this area. She is returning to her primary research focus, which is pain control and reducing opioid use, but she hopes that others will expand on what she had done.
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The Friday Five covers five stories in research that you may have missed this week. There are plenty of controversies and troubling ethical issues in science – and we get into many of them in our online magazine – but this news roundup focuses on scientific creativity and progress to give you a therapeutic dose of inspiration headed into the weekend.
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Here are the promising studies covered in this week's Friday Five:
- A pill to prevent lung cancer?
- Ancient wisdom about Neti pots could pay off for Covid
- Breakthrough for precision medicine and obesity
- How to refreeze the north and south poles
- The connection between taking multivitamin pills and brain health