Skip to main content

Food for Thought

Last week I learned something wild about our brains and bodies that has to do with the way we taste food. It turns out our body knows when we are eating something nutritive or when we are just eating junk. Okay, I know you’re freaking out right now because somehow your brain is keeping track of when you eat a kale salad vs. a fried chicken thigh – like Santa making his naughty vs nice list – but that’s not quite what I mean.
What I mean is that your brain knows when the food you’re eating contains calories or not. The crazy thing is that when your fed and happy, your brain doesn’t care whether you eat energy-rich foods or not and your preferences are dominated by flavor. However, if you find yourself stranded on a desert island going on a week without food, your brain is going to know whether you climbed that tree for the juicy, sweet coconut or whether you slammed that last Sweet-N-Low packet you’ve been saving in your pocket since your plane crashed.
This is research I heard about from Dr. Greg Suh at the Skirball institute in New York. He’s been giving fasted fruit flies the choice between real sugar, D-glucose, and “fake” sugar, L-glucose, which their bodies can’t metabolize. These two molecules taste equally good to the flies on a normal day, but after a few hours without fly food they begin to strongly prefer the D-glucose, the molecule that provides them with actual energy. This seems like a reasonable survival mechanism I suppose, given that when you’re starving it is imperative that you eat things that will keep your vitals functioning.
But what do I mean your brain “knows”? It’s not going to send you an email to tell you to cool it with the Diet Coke. But the neurons that respond to energy-rich foods are connected to other parts of your body that promote feeding. In the fruit fly this means that a calorie rich food will actually stimulate the proboscis to extend and the gut muscles to activate, promoting excretion. These actions are the response to the energetic food signal, and they don’t occur if you offer the fly the useless sugar (L-glucose).  

Dr. Suh believes he’s identified the same pathway in mice, which is a step closer to suggesting that something similar underlies human interaction with food. For me the question is now, how does our brain respond to “fake” food under other conditions? When we are hungry our brains know what’s good for us so surely they can tell the difference when we’re fed too. I’ll just have to follow Dr. Suh’s work to see where it leads. Here’s a link to his lab webpage in case you want to too: https://med.nyu.edu/skirball-lab/suhlab/
Labels:

Comments

  1. troy beckerFebruary 11, 2018 at 9:08 PM

    I read recently in I Contain Multitudes that part of our neural response has coevolved with our microbes and their needs. Which really fascinates me.

    ReplyDelete
    Replies
    1. EmilyFebruary 12, 2018 at 10:35 AM

      Oh that is interesting...communication between gut and brain is a super hot topic right now, but I don't know much about it.
      One thing that's interesting about this work I wrote about is the time scale on which the signaling happens. It takes ~40s after presenting the caloric stimulus to see the neural response in the fruit fly. This could give hints to the signaling pathway, although I don't know enough to speculate on the mechanism myself.

      Delete
  2. EmilyFebruary 12, 2018 at 10:34 AM

    This comment has been removed by the author.

    ReplyDelete

Post a Comment

Popular posts from this blog

Winter is here

Frigid temperatures in Arkansas this weekend have inspired an icy topic.   If you’ve ever wondered why your lettuce wilts when it accidentally freezes in the refrigerator, or your basil dies after the first frost then this post is for you.  Contrary to what I believed and maybe what some of you do to, plant cells themselves rarely freeze. The water in between cells freezes much more readily than the cells themselves; this is the start of the plant’s problems.  Dehydration is the most common culprit for cell death at cold temperatures. It seems counter intuitive that dehydration would occur as a result of freezing water , but it makes sense when you begin to think like a plant cell. All living cells exist in a state of equilibrium with their surroundings. Ions, gases, small molecules and water are constantly moving around the plant, going in and out of cells as needed. The concentrations of these species inside and outside of the cell are carefully regulated b...
4 comments
Read more

Chemically combating chemical combat

As we have witnessed all too recently, chemical warfare is a very tangible concern for many people of the world. The latest large scale attack occurred in Syria only a few months ago with the use of Sarin gas. The news from Syria makes it all the more urgent that scientists find ways to combat the use of chemical weapons. A group of engineers at UC San Diego have done just that using a new kind of structure called “micromachines”. Many chemical weapon agents used in warfare belong to a class of chemicals broadly labeled “organophosphates”. This label is given to molecules that have a generically organic part and a phosphate part. Here is the molecule sarin, with its organic and phosphate parts highlighted: Nerve gasses like sarin are dangerous because of the way the molecules interact with our nervous system. This interaction is highly dependent on the shape, or conformation of the molecule. That is, if we could somehow break up the atoms in the sarin molecule, they w...
Post a Comment
Read more

Thrills and Chills -- and Dopaminergic Spills?

Scenario: You’re listening to one of your favorite pieces.   Suddenly some cue in the music makes your heart feel like it might beat out of your chest and your skin start to tingle. Within seconds your arm hairs are standing straight up, a wave of chills runs down your spine and you are covered in goose bumps. The first time this happened to me I think I was about 12 singing along to a hymn from the pew of my church. I thought for sure what I was feeling was the Holy Spirit coursing through my veins! Not to write off any divine experience my 12-year old self was having, but it turns out that there were some other things going on – mostly in my brain. It’s been known for a while now that lots of human behavior is reinforced by activity in our brains that makes us feel good. For the most part these feelings of pleasure are meant to encourage us to keep doing things that tend to help our species survive, i.e. having sex or eating delicious food (although highly addictiv...
4 comments
Read more