You smell with your body, not just your nose
-
0:01 - 0:02Here's a question for you:
-
0:03 - 0:07how many different scents
do you think you can smell, -
0:07 - 0:10and maybe even identify with accuracy?
-
0:11 - 0:12100?
-
0:13 - 0:14300?
-
0:15 - 0:161,000?
-
0:18 - 0:24One study estimates that humans can
detect up to one trillion different odors. -
0:24 - 0:26A trillion.
-
0:26 - 0:28It's hard to imagine,
-
0:28 - 0:32but your nose has the molecular
machinery to make it happen. -
0:33 - 0:35Olfactory receptors --
-
0:35 - 0:37tiny scent detectors --
-
0:37 - 0:39are packed into your nose,
-
0:39 - 0:42each one patiently waiting
to be activated by the odor, -
0:42 - 0:43or ligand,
-
0:43 - 0:45that it's been assigned to detect.
-
0:47 - 0:50It turns out we humans,
like all vertebrates, -
0:50 - 0:52have lots of olfactory receptors.
-
0:53 - 1:00In fact, more of our DNA is devoted
to genes for different olfactory receptors -
1:00 - 1:02than for any other type of protein.
-
1:03 - 1:05Why is that?
-
1:06 - 1:09Could olfactory receptors
be doing something else -
1:09 - 1:11in addition to allowing us to smell?
-
1:14 - 1:19In 1991, Linda Buck and Richard Axel
uncovered the molecular identity -
1:19 - 1:20of olfactory receptors --
-
1:20 - 1:24work which ultimately
led to a Nobel Prize. -
1:25 - 1:26At the time,
-
1:26 - 1:30we all assumed that these receptors
were only found in the nose. -
1:30 - 1:33However, about a year or so later,
-
1:33 - 1:37a report emerged of an olfactory
receptor expressed in a tissue -
1:37 - 1:39other than the nose.
-
1:39 - 1:42And then another such report emerged,
-
1:42 - 1:43and another.
-
1:44 - 1:48We now know that these receptors
are found all over the body, -
1:48 - 1:51including in some pretty
unexpected places -- -
1:52 - 1:54in muscle,
-
1:54 - 1:55in kidneys,
-
1:55 - 1:57lungs
-
1:57 - 1:58and blood vessels.
-
1:59 - 2:02But what are they doing there?
-
2:04 - 2:08Well, we know that olfactory receptors
act as sensitive chemical sensors -
2:08 - 2:10in the nose --
-
2:10 - 2:12that's how they mediate
our sense of smell. -
2:12 - 2:17It turns out they also act
as sensitive chemical sensors -
2:17 - 2:18in many other parts of the body.
-
2:19 - 2:24Now, I'm not saying that your liver can
detect the aroma of your morning coffee -
2:24 - 2:26as you walk into the kitchen.
-
2:26 - 2:30Rather, after you drink
your morning coffee, -
2:30 - 2:33your liver might use an olfactory receptor
-
2:33 - 2:36to chemically detect
the change in concentration -
2:36 - 2:38of a chemical floating
through your bloodstream. -
2:39 - 2:42Many cell types and tissues in the body
use chemical sensors, -
2:43 - 2:44or chemosensors,
-
2:44 - 2:48to keep track of the concentration
of hormones, metabolites -
2:48 - 2:49and other molecules,
-
2:50 - 2:54and some of these chemosensors
are olfactory receptors. -
2:55 - 2:57If you are a pancreas or a kidney
-
2:57 - 3:00and you need a specialized chemical sensor
-
3:00 - 3:04that will allow you to keep track
of a specific molecule, -
3:04 - 3:05why reinvent the wheel?
-
3:08 - 3:09One of the first examples
-
3:09 - 3:12of an olfactory receptor
found outside the nose -
3:12 - 3:17showed that human sperm
express an olfactory receptor, -
3:17 - 3:22and that sperm with this receptor
will seek out the chemical -
3:22 - 3:24that the receptor responds to --
-
3:24 - 3:25the receptor's ligand.
-
3:25 - 3:30That is, the sperm
will swim toward the ligand. -
3:30 - 3:33This has intriguing implications.
-
3:33 - 3:36Are sperm aided in finding the egg
-
3:36 - 3:40by sniffing out the area
with the highest ligand concentration? -
3:42 - 3:45I like this example
because it clearly demonstrates -
3:45 - 3:50that an olfactory receptor's primary job
is to be a chemical sensor, -
3:50 - 3:53but depending on the context,
-
3:53 - 3:57it can influence how you perceive a smell,
-
3:57 - 4:01or in which direction sperm will swim,
-
4:02 - 4:03and as it turns out,
-
4:03 - 4:05a huge variety of other processes.
-
4:06 - 4:11Olfactory receptors have been
implicated in muscle cell migration, -
4:11 - 4:15in helping the lung to sense
and respond to inhaled chemicals, -
4:15 - 4:17hand and wound healing.
-
4:17 - 4:22Similarly, taste receptors once thought
to be found only in the tongue, -
4:22 - 4:26are now known to be expressed
in cells and tissues throughout the body. -
4:27 - 4:29Even more surprisingly,
-
4:29 - 4:31a recent study found
-
4:31 - 4:36that the light receptors in our eyes
also play a role in our blood vessels. -
4:39 - 4:40In my lab,
-
4:40 - 4:46we work on trying to understand the roles
of olfactory receptors and taste receptors -
4:46 - 4:48in the context of the kidney.
-
4:49 - 4:53The kidney is a central
control center for homeostasis. -
4:53 - 4:54And to us,
-
4:54 - 4:58it makes sense that a homeostatic
control center would be a logical place -
4:58 - 5:00to employ chemical sensors.
-
5:02 - 5:05We've identified a number
of different olfactory and taste receptors -
5:05 - 5:07in the kidney,
-
5:07 - 5:10one of which, olfactory receptor 78,
-
5:10 - 5:14is known to be expressed
in cells and tissues -
5:14 - 5:17that are important
in the regulation of blood pressure. -
5:18 - 5:22When this receptor is deleted in mice,
-
5:22 - 5:24their blood pressure is low.
-
5:25 - 5:29Surprisingly, this receptor
was found to respond -
5:29 - 5:32to chemicals called
short-chain fatty acids -
5:32 - 5:36that are produced by the bacteria
that reside in your gut -- -
5:36 - 5:38your gut microbiota.
-
5:39 - 5:42After being produced
by your gut microbiota, -
5:42 - 5:44these chemicals are absorbed
into your bloodstream -
5:44 - 5:46where they can then
interact with receptors -
5:47 - 5:50like olfactory receptor 78,
-
5:50 - 5:54meaning that the changes
in metabolism of your gut microbiota -
5:54 - 5:57may influence your blood pressure.
-
6:00 - 6:04Although we've identified a number
of different olfactory and taste receptors -
6:04 - 6:05in the kidney,
-
6:05 - 6:09we've only just begun
to tease out their different functions -
6:09 - 6:12and to figure out which chemicals
each of them responds to. -
6:13 - 6:17Similar investigations lie ahead
for many other organs and tissues -- -
6:17 - 6:21only a small minority of receptors
has been studied to date. -
6:23 - 6:25This is exciting stuff.
-
6:26 - 6:30It's revolutionizing our understanding
of the scope of influence -
6:30 - 6:32for one of the five senses.
-
6:33 - 6:35And it has the potential
to change our understanding -
6:35 - 6:38of some aspects of human physiology.
-
6:40 - 6:41It's still early,
-
6:41 - 6:45but I think we've picked up on the scent
of something we're following. -
6:45 - 6:46(Laughter)
-
6:46 - 6:47Thank you.
-
6:47 - 6:52(Applause)
- Title:
- You smell with your body, not just your nose
- Speaker:
- Jennifer Pluznick
- Description:
-
more » « less
Do your kidneys have a sense of smell? Turns out, the same tiny scent detectors found in your nose are also found in some pretty unexpected places -- like your muscles, kidneys and even your lungs. In this quick talk (filled with weird facts), physiologist Jennifer Pluznick explains why they're there and what they do.
- Video Language:
- English
- Team:
closed TED
- Project:
- TEDTalks
- Duration:
- 07:04
|
Brian Greene commented on English subtitles for You smell with your body, not just your nose | |
|
|
Brian Greene edited English subtitles for You smell with your body, not just your nose | |
|
|
Brian Greene edited English subtitles for You smell with your body, not just your nose | |
|
Joanna Pietrulewicz accepted English subtitles for You smell with your body, not just your nose | |
|
|
Joanna Pietrulewicz edited English subtitles for You smell with your body, not just your nose | |
|
|
Joanna Pietrulewicz edited English subtitles for You smell with your body, not just your nose | |
|
Leslie Gauthier edited English subtitles for You smell with your body, not just your nose | |
|
|
Leslie Gauthier edited English subtitles for You smell with your body, not just your nose |
Brian Greene
The English transcript was updated on 7/31/16.
At 4:15, "hand and wound healing" was changed to: "and in wound healing."