In this video, we'll talk about the use of lipoproteins for transport. Now, recall that lipids are nonpolar and therefore insoluble in the aqueous environments of the blood. And we're going to say lipoproteins, these are just the spherical structures of lipids and proteins that serve as transport vehicles for lipids. And just for definitional sake, we're going to say here cholesterol esters. Remember, that's just cholesterol ester bonded to a fatty acid. Here, we have an example of a chylomicron. Now when it comes to this chylomicron, we're going to say that this top portion represents the protein portion. Then here we have our phospholipid, and then here this would be our cholesterol. If we were to take a closer look at this image, we would say that on the outside we have our polar surface, and we're going to say what's poking out of this polar surface here, we have our cholesterols, we have our protein here, and we have our phospholipid bilayer. And then in the interior, this would have to be our nonpolar interior. In here, we could have our cholesterol esters as well as our triacylglycerol (TAG) molecules. Alright. So just remember, here we're talking about lipoproteins. They're just vehicles for us to transport lipids because lipids themselves being nonpolar, they're not going to be soluble within our aqueous environment of blood.
Lipoproteins for Transport - Online Tutor, Practice Problems & Exam Prep
Lipoproteins for Transport Concept 1
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Lipoproteins for Transport Concept 2
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Now remember when it comes to lipoproteins, we're going to say they're classified by their density. And when it comes to lipoproteins, we have the protein aspect of it, as well as the lipid aspect of it. So here we're going to talk about protein to lipid ratios. Here, we'd say that our lipid ratio is larger so that's why we have it in larger letters than protein. As we move from the left side here towards the right side the amount of protein to lipid will increase. So now we have more protein to lipid ratio over here on the right side. So we're going to say as we're heading towards the right side, the amount of lipids that we have decreases versus the amount of protein which increases. This causes an increase in our density. Just remember, proteins are more dense than our lipids will be. So if our amount of protein is increasing, that means that our density should be increasing.
Now, when we're talking about lipoproteins, we can talk about different types. Here we have our chylomicrons. We have VLDL, which is very low density lipoproteins, LDL, which is our low density lipoproteins, and HDL, which is our high density lipoproteins. If we're talking about their densities here, Chylomicrons would have the lowest density out of all of them. Very Low Density Lipoproteins would be low, LDL would be moderate, and HDL would be the highest density. Now, the lipids here for chylomicrons, we'd say that this is all dietary lipids. And, we're going to say here, VLDL, these are our tags. LDL is cholesterol, and then HDL also is cholesterol. So you may go to the doctor, you hear them talking about high density, cholesterol, low density cholesterol. So LDL and HDL both deal with cholesterol as the type of lipids.
Now, their locations are where? Well, chylomicrons, we'd say that these are the intestines to our liver, adipose tissue, and other tissues. Remember, when we're talking about lipid digestion, we talk about our monoglycerol molecules getting reassembled into triglycerides and then packaged into chylomicrons within the intestinal cells. Then they're transported out of the intestinal cells towards the bloodstream. And from there, they can go towards the liver or skeletal muscle for energy production or they can go to adipose cells for storage. When we talk about VLDL here, we're going to say this is location, it's the liver to adipose tissue for storage or again, other tissues for energy. Example, the liver or skeletal muscle. LDL, we're going to say here, this is liver to various tissues or talking about cell membranes or steroid hormones. We're going to say excess of this though is deposited on the walls of arteries, which is not something we want. That's why we want to keep our LDL cholesterols low when it comes to our dietary habits. Next, we're going to say HDL. We have various tissues back to the liver, and then we're going to say it's converted to bile and excreted. Alright. So here, these are different types of lipoproteins. Remember, we have in a lipoprotein, a protein to lipids mix. The higher the protein aspect, the more dense it becomes.
Lipoproteins for Transport Example 1
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Here it says, match each lipoprotein with their correct statements. So we have chylomicrons, VLDL, LDL, and HDL. Alright. So here it says, takes triglycerides from the liver to muscle cells. Alright. So here, we could say that this represents VLDL, because here, we can say VLDL. We have it going from the liver to adipose cells for storage or other tissues for energy. One of those places, muscle cells. Here this is considered good cholesterol because it removes excess cholesterol from the blood. This would have to be HDL, high-density lipoproteins. Here, various tissues they take and it moves back to the liver where it's going to be converted into bile and then excreted. Here, these are our transport dietary lipids to various tissues. So our transport dietary lipids, this would have to be our chylomicrons. So, actually, I'm just going to write one here, and I'm going to change these to Roman numerals. So this was IV and this was II. So this leaves LDL. Most of the cholesterol is transported to tissues that need it by this lipoprotein, so this would have to be option III, LDL. So this is how we can match each one of the following lipoproteins to the various statements given.
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