Mission control: salty diet makes you hungry, not thirsty

We’ve all heard it: eating salty
foods makes you thirstier. But what sounds like good nutritional advice turns
out to be an old-wives’ tale. In a study carried out during a simulated mission
to Mars, an international group of scientists has found exactly the opposite to
be true. “Cosmonauts” who ate more salt retained more water, weren’t
as thirsty, and needed more energy.

Salt shaker, by Dubravko Sorić SoraZG on Flickr [CC BY 2.0 (http://ift.tt/o655VX)%5D, via Wikimedia Commons
For some reason, no one had ever
carried out a long-term study to determine the relationship between the amount
of salt in a person’s diet and his drinking habits. Scientists have known that
increasing a person’s salt intake stimulates the production of more urine – it
has simply been assumed that the extra fluid comes from drinking. Not so fast!
say researchers from the German Aerospace Center (DLR), the Max Delbrück Center
for Molecular Medicine (MDC), Vanderbilt University and colleagues around the
world. Recently they took advantage of a simulated mission to Mars to put the
old adage to the test. Their conclusions appear in two papers in the current
issue of The Journal of Clinical Investigation.

What does salt have to do with
Mars? Nothing, really, except that on a long space voyage conserving every drop
of water might be crucial. A connection between salt intake and drinking could
affect your calculations – you wouldn’t want an interplanetary traveler to die
because he liked an occasional pinch of salt on his food. The real interest in
the simulation, however, was that it provided an environment in which every
aspect of a person’s nutrition, water consumption, and salt intake could be
controlled and measured.

The studies were carried out by
Natalia Rakova (MD, PhD) of the Charité and MDC and her colleagues. The
subjects were two groups of 10 male volunteers sealed into a mock spaceship for
two simulated flights to Mars. The first group was examined for 105 days; the
second over 205 days. They had identical diets except that over periods lasting
several weeks, they were given three different levels of salt in their food.

The results confirmed that eating
more salt led to a higher salt content in urine – no surprise there. Nor was
there any surprise in a correlation between amounts of salt and overall
quantity of urine. But the increase wasn’t due to more drinking – in fact, a
salty diet caused the subjects to drink less. Salt was triggering a mechanism
to conserve water in the kidneys.

Before the study, the prevailing
hypothesis had been that the charged sodium and chloride ions in salt grabbed
onto water molecules and dragged them into the urine. The new results showed
something different: salt stayed in the urine, while water moved back into the
kidney and body. This was completely puzzling to Prof. Jens Titze, MD of the
University of Erlangen and Vanderbilt University Medical Center and his
colleagues. “What alternative driving force could make water move
back?” Titze asked.

Experiments in mice hinted that
urea might be involved. This substance is formed in muscles and the liver as a
way of shedding nitrogen. In mice, urea was accumulating in the kidney, where
it counteracts the water-drawing force of sodium and chloride. But synthesizing
urea takes a lot of energy, which explains why mice on a high-salt diet were
eating more. Higher salt didn’t increase their thirst, but it did make them
hungrier. Also the human “cosmonauts” receiving a salty diet
complained about being hungry.
The project revises scientists’
view of the function of urea in our bodies. “It’s not solely a waste
product, as has been assumed,” Prof. Friedrich C. Luft, MD of the Charité
and MDC says. “Instead, it turns out to be a very important osmolyte – a
compound that binds to water and helps transport it. Its function is to keep
water in when our bodies get rid of salt. Nature has apparently found a way to
conserve water that would otherwise be carried away into the urine by
salt.”

The new findings change the way
scientists have thought about the process by which the body achieves water
homeostasis – maintaining a proper amount and balance. That must happen whether
a body is being sent to Mars or not. “We now have to see this process as a
concerted activity of the liver, muscle and kidney,” says Jens Titze.

“While we didn’t directly
address blood pressure and other aspects of the cardiovascular system, it’s
also clear that their functions are tightly connected to water homeostasis and
energy metabolism.”

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Posted on April 18, 2017, in Useful Information. Bookmark the permalink. Leave a comment.

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