Lipids in Lactation

Question 1

Define lipids

Answer 1

A diverse range of compounds that have nonpolar groups that make them relatively insoluble in water

Question 2

What are the functions of lipids in the cell?

Answer 2

Structure (ex. phospholipid membranes, FA)

Signaling

Storage (of energy)

Question 3

How are lipids sub-classified?

Answer 3

By their chemical structure

Question 4

Describe triglycerides

Answer 4

Triglycerides are used to store energy in plants and animals

They are the most energy dense of the lipids

Characteristics:
- glycerol backbone, 3 fatty acids
- major lipid class in concentrate feeds
- main lipid store in animal tissues
- diverse because they may contain different fatty acids
- the fatty acid is the energy dense part

Question 5

Describe glycolipids

Answer 5

Glycolipids are “complex” structural lipids that contain a carbohydrate (therefore they are less energy dense than a TAG)

Characteristics:
- glycerol backbone, 2 fatty acids, and one or two sugars
- major lipid class in forages

Question 6

Describe phospholipids

Answer 6

Phospholipids are “complex” structural lipids that contain a phosphate group (also less energy dense than TAG)

Characterisitics:
- glycerol backbone
- 2 fatty acids
- one phosphate group
- a base

Important biological roles:
1. cell membrane structure, integrity, and transport
2. second messenger in intracellular transduction (signaling) of hormone actions

Question 7

Describe steroids

Answer 7

Steroids are also lipids and include cholesterol, vitamin D, and steroid hormones

They have a cyclopentane ring as a shared common structure

They are important to membrane structure and endocrine functions (steroid hormones)

Question 8

Describe fatty acids

Answer 8

Fatty acids are long carbon chains with a methyl group (CH3) at one end and a carboxyl group (COOH) at the other

Characterized by:
1. Number of carbons (chain length)
2. Number of double bonds (unsaturation)
3. Location and orientation of these bonds (position relative to methyl end is nutritionally important, ex. Omega 3 and Omega 6; cis and trans bonds are different)

The structure of a fatty acid is important to how it is metabolized, how it is used, and if it is bioactive

Question 9

Describe trans fats

Answer 9

Trans fats are only found in industrial processed oils and ruminant fat (meat and milk too).

The industrial sources ones are bad for people, while the ruminant ones are likely more healthy.

Question 10

How can we characterize fatty acids?

Answer 10

By number of double bonds

Question 11

Describe the composition of palm oil

Answer 11

high in palmitic fatty acid (C16:0)

Question 12

Describe the composition of flax oil

Answer 12

high in omega 3 (18:3)

Question 13

Describe the composition of corn and soybean oil

Answer 13

high in omega 6 (18:2)

Question 14

Describe the composition of canola oil

Answer 14

balance of a higher ratio of omega 9 and 3 to a lower ratio of omega 6

Question 15

What type of feeds are generally high in omega-3?

Answer 15

forages

Question 16

What types of feeds are high in omega-6?

Answer 16

Soy and corn

Question 17

What types of feeds are high in saturated fatty acids or 18:1?

Answer 17

animal fats and palm oil

Question 18

Why are fatty acids somewhat different today?

Answer 18

We have selected for different fatty acid profiles.

For instance, canola oil was selected to be low in erucic acid.

Question 19

What are two simple methods to characterize an oil?

Answer 19

Saponification number and iodine numbers

Question 20

Discuss saponification number

Answer 20

This is an indicator of the average chain length of a fatty acid

The longer the average chain length, the lower the number

Saponification number is not used very often because many FA are similar in length

Question 21

Discuss iodine number

Answer 21

This is a measure of the unsaturation of fat

The more unsaturated bonds, the higher the iodine number

Question 22

Discuss fatty acid profile

Answer 22

This determines the actual concentration of each fatty acid in the oil via gas chromatography

It is expensive and time consuming

Question 23

What are the two ways oils can spoil or become rancid?

Answer 23

Hydrolytic rancidity and oxidative rancidity

Question 24

Discuss hydrolytic rancidity

Answer 24

Triglycerides are broken down to free fatty acids, which may lead to odors.

The nutritional value of the fatty acid is not affected, and this is not toxic to the animal.

Question 25

Discuss oxidative rancidity

Answer 25

Double bonds of the unsaturated fatty acids (PUFA) are attacked by oxygen. This causes off flavors and odors.

Peroxides (free radicals) are formed and perpetuate, eventually attacking gut tissue.

This may reduce performance in animals and may damage tissues, so it is potentially dangerous and can be considered an issue for health or safety.

Question 26

How can oxidative rancidity be prevented?

Answer 26

With antioxidants like Vitamin E

They prevent formation of free radicals or dispose of them before they can attack the gut tissue.

Question 27

What can increase the risk of oxidation?

Answer 27

exposure to air, sunlight, and high temperatures

Question 28

Where are lipids absorbed and how must they be broken down?

Answer 28

Lipids are digested and absorbed in the small intestine (80% in jejunum)

They must be broken down into free FA and monoglycerides and emulsified into small droplets

Short-chain FA (VFAs) are absorbed in the rumen, omasum, and hindgut

The 2 main agents of breakdown are bile salts and lipase

Question 29

How do bile salts and lipase help breakdown lipids?

Answer 29

Bile salts increase the solubility

Lipase breaks down triglycerides

Question 30

Describe lipase

Answer 30

Lipase is the enzyme that breaks down triglycerides to monoglycerides and fatty acids

Lipase comes from saliva and gastric secretions (mammals only), pancreas, and intestinal cells

Lipase also breaks down phospholipids and cleaves FA from cholesterol in the pancreas

Question 31

Describe bile salts

Answer 31

Bile salts are important to emulsify lipids into small droplets and micelles.

Na and K are the salts of bile acids
Bile salts are secreted through the bile duct
They are activated by pancreatic lipase
Emulsify fats to micelles (tiny droplets of mixed lipids and bile salts)
- recycled to the liver via the portal vein

Question 32

Why is the breakdown of fat droplets important?

Answer 32

Fat droplets are broken apart into smaller droplets, which makes it easier to lipase to attach and work to breakdown the droplets to micelles

Question 33

Describe the absorption of micelles

Answer 33

Micelles are coated in bile and free FA and monoglycerides that are absorbed by the epithelial cells. This is ultimately a futile cycle because once absorbed, the MG and free FA are reformed as triglycerides.

These triglycerides are then packaged into chylomicrons and absorbed by lymph vessels (run to heart first, then rest of body)

Question 34

What is the function of chylomicron

Answer 34

Chylomicrons are lipoproteins coated in protein and carbs, which allow them to be absorbed in the lymph vessels and move through the body

Chylomicrons are molecules used to transport FA in plasma, and they are transported through lymph vessels

Question 35

Describe micelle formation

Answer 35

Micelles are composed of fatty acids, bile salts, and monoglycerides

They have long-chain saturated FA solubilized in the hydrophobic interior of the micelle (micelles have a hydrophobic core and a hydrophilic exterior)

Ruminants use lysolecithin in place of monoglycerides since they don’t have monoglycerides

Question 36

Describe bile salt synthesis

Answer 36

Bile salts are synthesized from cholesterol in the liver. They aid in digestion and are efficiently absorbed and recycled (95% reabsorbed in the portal vein)

Question 37

How can plasma cholesterol be reduced?

Answer 37

If forced to make bile salts, plasma cholesterol will decrease. This can be forced by preventing the reabsorption of bile salts

Question 38

What are required for transport of FA in the blood?

Answer 38

lipoproteins

Question 39

Describe lipoproteins in general

Answer 39

Lipoproteins come from different tissues and have different compositions because of what they are doing

They differ in their density because of differences in fat to protein composition

Question 40

Discuss VLDLy

Answer 40

VLDLy is a special lipoprotein made by birds in the liver and deposited in the egg yolk; it transports fats to the oocyte

Its synthesis is increased by giving the bird estrogen

Question 41

How do cells intake triglycerides

Answer 41

Cells DO NOT take in triglycerides; lipoprotein lipase breaks down triglycerides into free FA and glycerol, then the FA are absorbed by the cell

Question 42

What is the function of lipoprotein lipase

Answer 42

They break down trigylcerides into glycerol and FA in the blood so that the FA can be taken up by cells

Question 43

What is the purpose of triglycerides in the body?

Answer 43

storage of energy and insulation

Question 44

What is the purpose of phospholipids, glycolipids, and steroids in the body?

Answer 44

make up cell membranes and regulate cell function

Question 45

What is the purpose of essential fatty acids in the cell?

Answer 45

comprise cell membranes and work in synthesis of eicosanoids

Question 46

How do lipids act as transporters?

Answer 46

They can be carriers of fat soluble vitamines

Question 47

What are the two essential fatty acids?

Answer 47

Linoleic (C18:2) and linolenic (C18:3) are essential because they cannot be synthesized by animals

They are important to cell membranes and important in the synthesis of regulatory compounds like eicosanoids

Question 48

What fatty acids are “conditionally essential?”

Answer 48

arachidonic acid can be synthesized from C18:2

EPA and DHA can be synthesized from C18:3

Question 49

What are signs of essential fatty acid deficiencies?

Answer 49

skin lesions, reproductive failure, edema, subcutaneous hemorrhage

Question 50

What type of fat synthesis is limited in most animals?

Answer 50

Synthesis of very long chain n-3 polyunsaturate fats (PUFA) from linolenic acid

Question 51

What are eicosanoids?

Answer 51

These are signaling molecules made from arachidonic acids (Omega 6) or EPA (Omega 3).

They can form prostaglandins, thrombaxones, and leukotrienes.

Question 52

How does the activity of an eicosanoid differ?

Answer 52

They differ based on if they are made from omega 3 or omega 6.

Omega 3 are more anti-inflammatory
Omega 6 are more pro-inflammatory

Question 53

Where is EPA not found?

Answer 53

plant sources

Question 54

What are EPA and DHA and why are they important?

Answer 54

EPA and DHA are very long chain omega-3 fatty acids that are bioactive.

They are essential to brain and nerve development.
They reduce inflammation, benefit heart disease, arthritis, blood cholesterol, retinal degeneration, etc.

They are found only in cold water fish and algae

18:1 and 18:3 n-3 may be key to “Mediterranean diet” that has lower obesity and heart disease

Question 55

How do the fatty acids consumed by a ruminant differ from the fatty acids they absorb?

Answer 55

Rumen microbes saturate fatty acids in a process known as biohydrogenation, so they absorb saturated FA

Question 56

Describe biohydrogenation

Answer 56

First, esterified fatty acids are hydrolyzed by bacterial lipases in the rumen to release free FA

Then, biohydrogenation converts cis bonds to trans bonds before removing the double bond entirely

Biohydrogenation is done because unsaturated fatty acids are toxic to the rumen microbes