Lipids

Question 1

Lipids?

Answer 1

• biological molecules that are insoluble in aqueous solution and soluble in organic solvents
• fats, essential to the body

Question 2

Major functions of lipids?

Answer 2

1. serve as structural components of biological membranes
2. provide energy reserves, predominantly in the form of triacylglycerols
3. both lipids and lipid derivatives serve as vitamins and hormones
4. lipophilic bile acids aid in lipid solubilization
5. protects nerves and internal organs as thermal covering
6. essential for growth

Question 3

Fluid mosaic model of cell membrane? (4)

Answer 3

• phospholipid bilayer with many proteins, some integral to the membrane, others attached more loosely
• many other components such as cholesterol and attachment sites for extracellular environment (glycoproteins) and intracellular cytoskeleton

Question 4

What are fatty acids?

Answer 4

• long chain hydrocarbons with carboxyl on one end
• carboxyl end is acidic
• the rest is defined by the number of carbons in the hydrocarbon region and the degree of unsaturation

Question 5

Degree of unsaturation?

Answer 5

-the presence or absence of C=C double bonds in the hydrocarbon region

Question 6

Unsaturated fatty acid? (5)

Answer 6

• has double bonds
• oleic acid

Question 7

Saturated fatty acids? (5)

Answer 7

• has only single bonds
• stearic acid
• palmitic acid
• mostly derived from diet

Question 8

Monounsaturated fatty acids? (5)

Answer 8

have only one double bond

Question 9

polyunsaturated fatty acids? (5)

Answer 9

have more than one double bond

Question 10

Terminology? (6)

Answer 10

pic

Question 11

Effects of double bonds? (7)

Answer 11

• presence of double bonds gives hydrocarbon region a distinct bend
• saturated are linear
• carbons can be counted from carboxyl end (C2 = alpha, C3= beta)
• can be counted from methyl end (methyl C is omega 1)

Question 12

Where are saturated fatty acids found? (8)

Answer 12

• found in dairy and meat and some plant oils (coconut, palm, palm kernel)
• stack together to make solid form at room temp

Question 13

Where are unsaturated fats found? (8)

Answer 13

• liquid oils at room temp
• because of bends, they do not stack well and are in liquid form

Question 14

What determines the properties and functions of lipids?

Answer 14

• depend on fatty acid chain length (number of carbons) and degree of unsaturation (the more the double bonds the more unsaturated)
• vary among fatty acids

Question 15

What are the most common properties of fatty acids?

Answer 15

1. an even number of carbons
2. between 14-24 carbons
3. most common are 16 and 18 carbon fatty acids

Question 16

What conformation do unsaturated fatty acids normally have?

Answer 16

• cis
• naturally occurring plants oils remain liquid at ambient temps because of the cis double bonds cause a curved configuration and prevents packing into crystal form

Question 17

What controls membrane fluidity?

Answer 17

-controlled by fatty acid composition and cholesterol content

Question 18

What are the classifications of fatty acids? (12)

Answer 18

1. short chain
2. medium chain
3. long chain
4. very long chain
   - because of various lengths, they are digested and metabolized differently

Question 19

Short chain fatty acids sources? properties?

Answer 19

• sources: bovine milk, swiss cheese, plants silage
• water soluble nature
• more readily absorbed in the stomach than other fatty acids
• 2 to 3 carbons

Question 20

Medium chain fatty acids sources? properties?

Answer 20

• sources: butter fat, coconut and palm kernel oils
• preferentially transported via portal vein to the liver because of their smaller size and greater solubility compared to longer chains
• for entry into mitochondria, medium chains are not carnitine dependent
• 4 to 11 carbons
• fairly soluble in water

Question 21

Long chain fatty acids sources? properties?

Answer 21

• sources: animal fats, vegetable and marine oils
• due to size and increased hydrophobic character, long chains are absorbed and metabolized more slowly than short and medium chains
• they need carnitine shuttle for their transport to mitochondrial matrix
• 12 to 20 carbons
• water insoluble

Question 22

Very long fatty acids sources? properties?

Answer 22

• sources: plant oil, peanut oil
• exclusively oxidized in peroxisomes
• more than 20 carbons
• water insoluble

Question 23

Why is cows milk not recommended to infants under 12 months old?

Answer 23

• because it contains mostly short and medium chains fatty acids and not long chain (palmitic, oleic, linoleic)
• long chain fatty acids play a vital role in brain development in the first year
• long chain polyunsaturated fatty acids play a vital role in overall development of immunity in infants

Question 24

What is the effect of chain length on melting point in saturated fatty acids? (15)

Answer 24

• the longer the chain length, the higher the melting point
• fatty acids with melting points above room temp will be solid at room temp (22 degrees C)

Question 25

What is the effect of degree of unsaturation on melting point in unsaturated fatty acids? (17)

Answer 25

• the larger the degree of unsaturation (more double bonds) the lower the melting point
• monounsaturated and polyunsaturated fatty acids contribute to membrane fluidity
• most membranes (except brain) adapt to diet induced changes

Question 26

What do diets enriched with monounsaturated fatty acids do for health?

Answer 26

1. reduce total cholesterol and LDL levels
   - LDL is bad cholesterol, HDL is good
2. cardioprotective effects
3. blood pressure lowering effects
4. improve insulin sensitivity
5. provide anti thrombotic effects

Question 27

What foods are high in monounsaturated fatty acids?

Answer 27

• plant oils (canola oil, flaxseed oil, olive oil, peanut oil, pesto sauce, safflower oil, sesame oil, soybean oil, sunflower oil, walnut oil)
• meat fat (pork, beef)
• nuts and seeds (almonds, brazil nuts, natural peanut butter, dry roasted cashews, dry roasted peanuts, dry roasted sunflower seeds, hazelnuts, macadamia nuts, pecans, pine nuts, pistachios, roasted pumpkin seeds, sunflower seeds, walnuts)
• avocado
• olives
• dark chocolate

Question 28

What are DHA and Arachidonic Acid and why are they important?

Answer 28

• DHA (docosahexanoic acid synthesized in liver and brain) and Arachidonic Acid
• both are crucial to optimal development of brain and eyes
• important in infant nutrition, routinely added to infant formula
• AA is a major constituent of membrane phospholipids and an important precursor to biological compounds that regulate

Question 29

What are essential fatty acids? (19)

Answer 29

• they are polyunsaturated that are essential to humans because the body cannot introduce double bonds past carbon 9 (counting from carboxyl end)
• mammals do not have enzymes (desaturases) that introduce double bonds at C12 and C15, but plants synthesize them both from oleic acid
• Linoleic acid (LA)
• alpha Linolenic acid (ALA)

Question 30

Linoleic acid (LA)? (19)

Answer 30

• essential fatty acid
• omega 6, 18:2 (9, 12)
• safflower, soybean, corn, peanut, sunflower oils
• found in egg, meats, grains, nuts, most plant seeds, and some plant oils
• can be desaturated and elongated to arachidonic acid
• LA -> AA, GLA

Question 31

alpha linolenic acid (ALA)? (19)

Answer 31

• essential fatty acid
• omega 3, 18:3 (9, 12, 15)
• fish, walnuts, pine nuts, flaxseed, wheat germ, green leafy veggies, soy and canola oil
• found in some plant oils (soybean, linseed, flax)

Question 32

What are two important omega 3 fatty acids? why?

Answer 32

• EPA, 20:5 (5, 8, 11, 14, 17)
• DHA, 22:6 (4, 7, 10, 13, 16, 19)
• they are metabolic derivatives of ALA and necessary for synthesis of a number of regulatory compounds in body
• may reduce risk of heart attack
• fish oils contain EPA and DHA
• ALA -> EPA, DHA

Question 33

What do the essential fatty acids (LA, ALA) combine with and form? (22)

Answer 33

• combine with cholesterol
• form eicosanoids and steroid hormones

Question 34

Once ingested, LA (omega 6), what can it be converted into? function? (23)

Answer 34

• may be converted into certain polyunsaturated acids:
• gamma linolenic acid (GLA)
• eicosatrienoic acid
• eicosatetraenoic acid (AA)
• these compounds affect key cell and physiological processes in the body ranging from cell signaling to inflammation

Question 35

What do omega 3 fatty acids function in? (23)

Answer 35

• essential in growth and development throughout human life cycle
• should be included in diet
• inhibit tissue eicosanoid biosynthesis and reduce inflammation

Question 36

Arachidonic acid function?

Answer 36

-major constituent of membrane phospholipids and an essential precursor to a number of biological compounds known as eicosanoids that regulate body function, such as immunity, blood clotting, blood pressure

Question 37

eicosanoids function?

Answer 37

• derived from 20 carbon AA
• modifications of AA from prostaglandins, the inflammatory hormones that aspirin interferes with
• leukotrienes are produced in the body from AA by the enzyme 5-lipoxygenase

Question 38

Essential fatty acids deficiency side effects?

Answer 38

• hemorrhagic and scaly dermatitis
• skin dryness and atrophy
• weakness
• impaired vision
• tingling sensations
• mood swings
• edema
• high blood pressure
• high triglycerides
• hemorrhagic folliculitis
• hemotologic disturbances (sticky platelets)
• immune and mental deficiencies
• impaired growth

Question 39

High omega 6/omega 3 ratio in modern diets? what does it lead to?

Answer 39

• modern ratio is 15:1
• excessive omega 6 has been linked with pathogenesis of many diseases, including cardiovascular disease, cancer, inflammatory and autoimmune disease
• a 2:1 ratio has been associated with reduced mortality from cardiovascular disease, suppressed inflammation in patients with rheumatoid arthritis, decreased risk of breast cancer

Question 40

Structure of cis vs trans unsaturated fatty acids? (25)

Answer 40

• trans are produced when naturally occurring cis are altered chemically by partial hydrogenation
• after this process, cis is changed to trans
• cis has 2 carbons on the same side of the double bond
• trans has 2 carbons on opposite sides of double bond
• so the trans resembles the linear packing of saturated fatty acids

Question 41

What increases membrane fluidity?

Answer 41

• warmth because lipid molecules have more kinetic energy
• more unsaturated fatty acids which prevent lipids from packing close together

Question 42

Nerve transmission relation to membrane fluidity?

Answer 42

• nerve transmission relies on ion pumping
• when membranes are not fluid, this interferes with ion channels (transmembrane proteins) and prevents passage of ions
• this is how local anesthetics such as lidocaine work

Question 43

How does cholesterol affect membrane fluidity?

Answer 43

• the steroid ring helps to stiffen the membrane, making it less fluid and preventing other lipids from packing tight
• trans fatty acids that are incorporated into the cell membranes create denser membranes that alter the normal functions of the cell

Question 44

Why is fat an essential part of a nutritious diet?

Answer 44

• we need a minimum amount in order to provide adequate levels of essential fatty acids and fat soluble vitamins
• during rest and prolonged exercise, fat is our primary source of stored energy for maintaining cell function

Question 45

What effect does reducing saturated and trans fat in our diet have?

Answer 45

• consuming saturated and trans fat, they are deposited in cell membranes and replace cis unsaturated fatty acids
• this makes membrane less fluid
• reducing these fats has a cholesterol lowering effect and a decreased risk for cardiovascular disease and obesity

Question 46

What are most of the lipids consumed by humans in the form of?

Answer 46

• in the form of triglycerides (triacylglycerols, TG)
• the rest consist of cholesterol, cholesterol esters, free fatty acids, phospholipids

Question 47

Triacylglycerol function?

Answer 47

-TG is the major form of fat stored in adipose cells -they are highly concentrated metabolic energy storage (main constituents of vegetable oils and animal fats) because they are anhydrous and exclude water

Question 48

Structure of triglyceride? (28)

Answer 48

• TG consists of 3 Carbon glycerol backbone and 3 fatty acids
• glycerol is an alcohol composed of 3 carbon atoms
• each other 3 fatty acids within each TG can be different sizes and can be either saturated or unsaturated

Question 49

order of packing in TG? (29)

Answer 49

• each fatty acid in TG can be different sizes and can be either saturated or unsaturated
• saturated fatty acids have a straight configuration and usually pack into a solid crystal at ambient temps
• highly ordered packing of fatty acid chains is disrupted by the presence of cis double bonds
• TG with only saturated fatty acids stack well together to make solid fat at room temp
• TG with monounsaturated fatty acids sandwiched between 2 saturated fatty acids don’t stack well because of the bend, these stay liquid at room temp

Question 50

composition of various fats in butter, vegetable oil, and margarine? (30)

Answer 50

-vegetable oil can be partially hydrogenated to more trans fat, doesnt make it any healthier than saturated fats

Question 51

What does a diet high in saturated fat and cholesterol result in?

Answer 51

• increased LDL, decreased HDL which promotes cardiovascular disease and cancer growth
• trans fats also raise levels of trigclyeride in blood
• promotes insulin resistance, linked to diabetes, hypertension, and cardiovascular disease
• animal fats and tropical oils high in myristic acid (C14:0) and low in linoleic acid increase cholesterol levels

Question 52

What can oils high in linoleic acid such as grape seed oil, sunflower oil, and safflower oil do for health?

Answer 52

-play a significant role in reducing blood cholesterol levels when consumed regularly in diet

Question 53

What is the most important use of lipids in the cells?

Answer 53

• formation of membranes
• membranes contain amphipathic with a hydrophobic end and a hydrophilic end

Question 54

What are the two general classes of lipids?

Answer 54

1. Neutral uncharge lipids (non polar)
2. Amphipathic lipids (polar)

Question 55

Neutral uncharged lipids (non polar) examples? (35)

Answer 55

• Triacylglycerol (TG)
• cholesterol esters (CE)

Question 56

Amphipathic lipids (polar) examples?

Answer 56

• phospholipids (PL)
• cholesterol (C)
• monoacylglycerols (MG)
• diacylglycerols (DG)
• sphingolipids
• glycolipids

Question 57

Further classification of lipids? (33)

Answer 57

• further classified based on chemical backbone
• TG and glycerophospholipids (phospholipids) have a backbone of 3 carbon glycerol
• Glcyosphingolipids (glycolipid) and sphingophospholipids (phospholipids) have a backbone of sphingosine

Question 58

Glycerol vs sphingosine backbones? (34)

Answer 58

• glycerolipids have glycerol backbone
• sphingolipids have a sphingosine backbone (18C alcohol)

Question 59

Example of Glycerolipids? properties? (37)

Answer 59

• Monoacylglycerol (MG- monoglyceride)
• amphipathic (one polar charged end, one uncharged non polar end)
• polar
• membrane lipid
• only one OH group is esterified to a fatty acid
• the other two OH groups are free, giving the structure some polarity

Question 60

Glycerophospholipids? properties? (38)

Answer 60

• phospholipids
• amphipathic (polar and non polar ends)
• important part of membrane lipid bilayer of cell
• assist in transporting fat in bloodstream

Question 61

Glycerophospholipid structure? (38)

Answer 61

• consist of a glycerol backbone and 2 fatty acids with a phosphate and head group (alcohol: ethanol amine, choline, serine, inositol)
• phosphate group is soluble in water (hydrophilic) giving it its amphipathic property

Question 62

Phosphatidylcholine?

Answer 62

• common phospholipid
• also called glycerol phospholipid or phosphoacylglycerol
• lecithin (means egg yolk in Greek) is full of vitamin B and an example of phosphatidylcholine
• surfactant

Question 63

Surfactant function of phosphatidylcholine?

Answer 63

• acute respiratory distress syndrome (ARDS) is a disease related to maturity of the fetal lung and accounts for 15-20% neonatal mortality in western countries
• proteins, phospholipids and phosphatidylcholine (80%) make up lung surfactant
• level of PC rises at 35 weeks of gestation in amniotic fluid
• PC coats alveoli of lungs and reduces surface tension, preventing lung collapse
• lack of surfactant in babies born prematurely leads to ARDS

Question 64

What foods contain phospholipids?

Answer 64

peanuts, egg yolk, some processed foods containing dispersed fat

Question 65

What are plasmalogens? functions?

Answer 65

• class of glycerophospholipids with polar head group and ester long chain alcohol group in place of one FA
• form a significant fraction of the membranes in nervous tissue
• biosynthesis localized in peroxisomes
• Functions:
• Protect cells against reactive oxygen species (ROS), signaling molecules and modulators of membrane dynamics
• Platelet activating factor (PAF):
• serves as an extracellular mediator in the process of inflammation, has antihypertensive activity, increases vascular permeability

Question 66

Sphingolipids?

Answer 66

• have sphingosine backbone rather than glycerol
• major components of nervous tissue and membranes
• ceramide (sphingomyelin and glycolipids)

Question 67

Ceramide structure? (42)

Answer 67

• contains sphingosine with a fatty acid joined to it amino group
• sphingomyelin
• glycolipids

Question 68

Sphingomyelin structure? (42)

Answer 68

-contains a ceramide and phosphocholine/phosphoethanolamine

Question 69

Glycolipids structure? (42)

Answer 69

• or glycosphingolipids
• contain a ceramide and a carbohydrate group (either galactose or glucose)

Question 70

4 major classes of glycolipids?

Answer 70

1. cerebroside
   - contains a single moiety, principally galactose
2. sulfatides
   - sulfuric acid esters of galactocerebrosides
3. globosides
   - contains 2 or more sugars
4. gangliosides
   - similar to globosides except also contain sialic acid

Question 71

Sphingophospholipids and the myelin sheath?

Answer 71

• sphingolipids are important components of myelin sheath, a multilayered structure that protects and insulates the nerve fibers
• sphingomyelin is the primary sphingolipid in humans

Question 72

Glycosphingolipids function?

Answer 72

• cerebrosides
• important components in muscle and nerve cell membrane
• myelin is well known cerebroside
• two major types are glucocerebrosides (other tissues) and galactocerebrosides (neural tissue)

Question 73

What are sterols?

Answer 73

• type of lipid found in both plant and animal foods and are produced by the body
• plant sterols are not well absorbed by the body and they reduce absorption of the major dietary sterol, cholesterol

Question 74

Cholesterol structure? (44)

Answer 74

• most common sterol in our diets
• polar lipid with steroid ring system (4 rings)
• hydrophobic but a single OH group allows it to interact with water at a membrane surface, considered amphipathic (polar=unesterified) this OH group can be esterified to a fatty acid to form a cholesterol ester (hydrophobic non polar lipid=esterified)

Question 75

Cholesterol function? (44)

Answer 75

• part of every cell membrane, especially neural cells that make up brain, spinal cord, and nerves
• vital to metabolism, situated in the crossroads of several metabolic pathways
• several important sterol compound are synthesized using it including sex and adrenal hormones, bile acids, and vitamin D

Question 76

What foods contain cholesterol?

Answer 76

• fatty part of animal products such as butter and egg yolk, whole milk, meats, poultry
• egg whites, skim milk, and lean meat contain little to no cholesterol
• we do not need to consume cholesterol because our bodies continually synthesize it, in liver and intestine

Question 77

Cholesterol and related lipids? (45)

Answer 77

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Question 78

Bile acids structure? where made? (46)

Answer 78

• made in the liver peroxisome by cytochrome P450 mediated oxidation of cholesterol
• bile acids have a spacial configuration that gives them a polar side and a non polar side

Question 79

Fat soluble vitamins? (47)

Answer 79

• A- retinol
• D- calciferol
• E- alpha tocopherol
• K- phylloquinone, menaquinone
• are absorbed into the intestinal mucosal cells along with the products of lipid digestion
• impaired fat absorption or conditions which alter the proper digestion and absorption of the fat can lead to vitamin deficiency
• excess fat soluble vitamins can lead to toxicity

Question 80

fat soluble vitamin summary? (48,49)

Answer 80

both pics

Question 81

Why are fats digested differently from proteins and carbs?

Answer 81

• proteins and carbs are water soluble
• fats are water insoluble
• dietary fats are mixed with other foods when we chew

Question 82

Role of mouth and stomach in digestion of fat?

Answer 82

• mouth has a limited role in breakdown of fats
• in the stomach, it breaks fat into smaller droplets
• these droplets float on top of digestive juices in the stomach until passed into small intestine

Question 83

Role of liver in digestion of fats?

Answer 83

• liver produces bile acids and delivers them through the gall bladder
• bile acids surround and emulsify dietary lipids in the duodenum

Question 84

Role of pancreas in digestion of fats?

Answer 84

-produces bicarbonate to neutralize stomach acids, enzymes and coenzymes (TG lipase, colipase, cholesteryl esterase, phospholipases)

Question 85

What is the problem of lipids and membranes in the body?

Answer 85

• lipid and water don’t mix
• our bodies are mostly aqueous and lipids are insoluble in water
• the lipid bilayer separates one aqueous cell region from another
• movement of big lipids across membranes requires them to broken down into smaller chemicals
• lipid absorption- break lipids down, move them across the membrane, reassemble them in the cell

Question 86

What two complimentary mechanisms accomplish emulsification?

Answer 86

1. use of bile salts
2. mechanical mixing due to peristalsis

Question 87

Function of TG lipase?

Answer 87

1. in complex with colipase, it breaks down TG which are present in the emulsified fat droplet
   - this occurs at the surface of the fat droplet
   - other lipid digesting enzymes work at the surface of the emulsified fat droplet to break down other lipids

Question 88

What happens to the products of TG digestion by TG lipase? (52)

Answer 88

1. products of TG digestion (MG and fatty acids) are solubilized into small bile acid micelles
   - these micelles deliver MG and fatty acids to intestinal epithelial cells where they are absorbed
2. within epithelial cells, the fatty acid and MG are reesterified into TG
3. TG is packaged into chylomicrons
4. chylomicrons are transported out to the lymphatics where they enter the bloodstream

Question 89

Overall process of digestion of fats? (51)

Answer 89

1. liver produces bile acids
2. dietary lipids are emulsified by bile acids in duodenum
3. pancreas produces TG lipase, colipase, bicarbonate, cholesteryl esterase, phospholipases
4. TG lipase (complex with colipase) breaks down TG in emulsified fat droplet at the surface of the droplet, other enzymes also work
5. products of TG digestion (MG and fatty acid) are solubilized in small bile salt micelles
6. MG and fatty acids are absorbed in to the intestinal epithelial cells from bile acid micelles
7. chylomicrons are formed inside the cell
8. chylomicrons are transported out of the cell to the lymphatics and then enter the blood
9. products of digestion in small micelles are shuttled over to the brush border

Question 90

What are bile salts? functions? where synthesized and secreted?

Answer 90

• bile salts are amphipathic lipids
• responsible for emulsifying dietary fat droplets for better water solubility and help form smaller micelles for greater absorption of lipids into intestinal epithelial cells
• synthesized in liver and secreted via gallbladder into the intestinal lumen

Question 91

Process of bile salts forming micelles? (54)

Answer 91

1. non polar lipids are emulsified in surrounding aqueous milieu
2. bile salts form aggregates of emulsion droplets of lipids
3. in the lumen of intestine, pancreatic lipase digest dietary long chain fatty acids to products that amphipathic lipids
4. polar lipids are emulsified in surrounding aqueous milieu by amphipathic lipids to form micelles
5. amphipathic lipids spontaneously form aggregates to become soluble in water (miscible hydrophilic heads surrounding insoluble hydrophobic tails)

Question 92

What are micelles?

Answer 92

• small aggregates of mixed lipids and bile acids suspended in ingesta
• as ingesta is mixed, micelles bump into the brush border of small intestine enterocytes and the lipids, including MG and fatty acids are taken up into epithelial cells

Question 93

Process of biosynthesis of bile acids? where does it occur? (55)

Answer 93

1. occurs in liver peroxisomes
2. first step is hydroxylation of cholesterol to 7alpha-cholesterol by 7alpha-hydroxylase
3. eventually, chenocholic acid and cholic acid are the products (2 primary bile acids)
4. these products inhibit the first step (product inhibition)

Question 94

Conjugation of bile acids in liver? (57)

Answer 94

1. prior to secretion, bile acids are conjugated with either glycine or taurine
   - this increases water solubility and prevents passive reabsorption once secreted into small intestine
2. acid groups on bile acids are often converted to salts
3. bile salts are a major component of bile
4. sodium, calcium, potassium are often used to produce bile salts
   - sodium glcyocholate and sodium taurocholate (bile salts)

Question 95

Cholic acid and its relationship to other bile acids? (58)

Answer 95

pic

Question 96

chemical structure of the major bile acids found in human bile and feces? (59)

Answer 96

pic

Question 97

Bile acid synthesis defect? symptoms? treatments?

Answer 97

• a defect prevents the body from making bile acid which can result in progressive liver disease
• usually is a defect in the hydroxylase enzyme used to make bile acid
• symptoms: progressive liver disease, cholestasis, jaundice, liver fibrosis, abnormal bile acid precursors in urine
• treatments: oral bile acid therapy is used which causes suppression of the 7alpha-hydroxylase preventing further synthesis of cholestatic intermediates

Question 98

What happens to the sterol rings that have been used for bile acids?

Answer 98

1. humans cannot break down and metabolize cholesterols complex ring structure for energy
2. rings must either be recycled or eliminated
3. enterohepatic circulation of bile salts occurs from the liver to the ileum of small intestine where digestion of fat takes place, back to the liver

Question 99

What happens to most bile acids in enterohepatic circulation?

Answer 99

1. 95% are recycled
2. 5% are excreted

Question 100

Recycling of bile acids? (61)

Answer 100

1. there is a large pool of bile acids in the body (3-5g)
   - most are reabsorbed either actively or passively
2. the majority is recycled as primary or secondary conjugated bile acids by active transport from proximal or distal ileum
   - secondary conjugated bile salts happen after flora bacteria dehydroxylate bile salts
   - these are taken back to the liver via the portal system and carried on albumin through blood stream
3. additional bile acids are recycled via passive diffusion after they are deconjugated from amino acids glycine and taurine

Question 101

Excretion of bile acids? (61)

Answer 101

-in healthy people, the amount of bile acid synthesized from cholesterol equals the amount of bile salts excreted (.8g/day, 5%)

Question 102

Ways that the sterol ring is eliminated? (64)

Answer 102

1. they are converted to bile acids, but not reabsorbed and the excreted int feces
2. they are secreted as intact cholesterol into bile and then eliminated to feces

Question 103

Bile acid chelators? (64)

Answer 103

• some types of dietary fibers, ion exchange resins like cholestyramine, block reabsorption of bile acids
• since more cholesterol is converted to bile acids response, this helps to eliminate significant quantities of cholesterol from the body

Question 104

Cholesterol absorption inhibitors? (64)

Answer 104

• class of compounds that prevent the uptake of cholesterol from small intestine into circulatory system
• example: ezetimibe

Question 105

Role of various organs in digestion of lipids?

Answer 105

1. mouth and stomach
   - lingual lipases in the mouth and gastric lipases in the stomach preferentially hydrolyze TG which contains short and medium chain fatty acids
   - churning and emulsifying occurs here
2. Liver
   - bile salts produced in liver, and bile is recycled back to liver
3. Pancreas
   - releases enzymes lipases and colipases to assist lipase for digestion of long chain fatty acids, and bicarbonate for pH neutralization
4. Intestine (duodenum)
   - bile salts break up large fat droplets into smaller micelles, increasing surface area for digestive enzymes

Question 106

Lingual lipase function?

Answer 106

• acid stable lipase
• short and medium chain fatty acids from TG are targets of this enzyme
• digestion by this enzyme is very limited due to short time food stays in mouth

Question 107

Gastric lipase function? (66)

Answer 107

• acid stable lipase degrading short and medium chain fatty acids
• accounts for 30% of total TG hydrolysis
• this initial hydrolysis is slow
• important because some of the water immiscible TGs are converted to products that possess both polar and and non polar groups

Question 108

Do short and medium chain fatty acids require bile salts for digestion? why is this important?

Answer 108

• no
• this is important when considering in dietary therapy for individuals with mal absorption of other lipids

Question 109

Why are acid lipases (lingual and gastric) important?

Answer 109

• these enzymes are particularly important in neonates, for whom milk fat is the primary source of calories
• lipids in cows milk are mostly short and medium chain fatty acids
• they are also important digestive enzymes in individuals with pancreatic insufficiency such as those with cystic fibrosis
• lingual and gastric lipases degrade TGs despite near or complete absence of pancreatic lipase

Question 110

4 pancreatic enzymes?

Answer 110

1. TG lipase or pancreatic lipase
2. colipase
3. cholesteryl esterase
4. phospholipase

Question 111

TG lipase (pancreatic) function? (67)

Answer 111

• cuts ester bonds at primary alcohol of TG (1 and 3 position)
• major products are 2-MG and fatty acids

Question 112

Orlistat?

Answer 112

-an anti obesity drug which inhibits pancreatic and gastric lipase thereby decreasing fat absorption and resulting in weight loss

Question 113

Colipase function? (68)

Answer 113

• bile salts inhibit lipase
• colipase binds lipase anchoring it at the lipid aqueous phase, bringing it into contact with the oil droplet
• and orienting the enzymes active site toward its substrate
• lipase activity is increased by binding to the colipase
• colipase is secreted as a zymogen, procolipase, which is activated by trypsin in the intestine

Question 114

Cholesteryl esterase function? (69)

Answer 114

• degrades cholesteryl esters to cholesterol and one fatty acid
• esterase activity is increased in the presence of bile salts

Question 115

phospholipase function? (70)

Answer 115

1. degrades phosphatidylcholine in two steps to one free fatty acid and lysophosphatidylcholine
2. then to glycerophosphoylcholine and 2 free fatty acids
   - phospholipase A2 is secreted as a zymogen and is activated by trypsin in the intestine
   - its activity is greatly increased in the presence of bile salts

Question 116

Summary of lipid digestion? (71)

Answer 116

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Question 117

Differences in absorption and use of different lengths fatty acids chains?

Answer 117

• short chain- formed in the intestines by friendly bacteria and are rapidly metabolized by intestinal cells
• medium chain- absorbed and transported directly to the liver where they are burned for energy
• long chain- turned into TGs and then are taken up by cells and used for energy or are stored
• bile form gallbladder is needed to digest long chain fatty acids

Question 118

Lipid digestion in the duodenum? (73)

Answer 118

1. in the duodenum, relatively large emulsified droplets become coated with bile salts
2. lipid droplets contain mostly TGs, cholesterol, CE, PLs, and fat soluble vitamins
3. digestive enzymes work at the oil water interface to release free fatty acids and 2-MG at the surface
4. crowding occurs at the surfaces due to non polar molecules becoming more polar
5. this allows molecules at the surface to pinch off into small micro droplets, called micelles
6. micelles carry products of digestion to the microvilli where they are absorbed into intestinal epithelial cells (mixed micelles are smaller and contain products of digestion: free fatty acids, lysophospholipids, 2-MG, cholesterol, fat soluble vitamins)
7. the micelles bud off from the large lipid droplets after digestion and move toward the brush border membrane of intestinal mucosal cells where lipids are absorbed

Question 119

2 Hormones that control lipid digestion?

Answer 119

• cholecystokinin (CCK)
• secretin

Question 120

Cholecystokinin (CCK) function? (74)

Answer 120

1. cells in the mucosa of the jejunum and lower duodenum produce a small peptide called CCK
2. when partially digested lipids and proteins enter the upper small intestine, CCK acts on the gall bladder and exocrine cells of pancreas, causing them to release bile salts and digestive enzymes respectively
3. CCK also decreases gastric motility, resulting in a slower release of gastric contents into small intestine

Question 121

Secretin function? (74)

Answer 121

1. in response to low pH in the chyme entering the intestine, secretin is released
2. causes the pancreas to secrete bicarbonate to neutralize the pH of intestinal contents

Question 122

Where do micelles that are in the intestinal lumen go? (75)

Answer 122

1. they come into contact with the epithelial cell membranes
2. the products of lipid digestion pass out of the micelle through the membrane and into the cell
3. in the cell, lipids are resynthesized and packaged with specific proteins into chylomicrons
4. chylomicrons enter the lymphatic system and then pass from intestinal lymph ducts to the thoracic duct to vessels supplying lungs
5. essential fatty acids are needed for surfactant production in lungs
6. dietary fats are also transported to muscles, adipose tissue, and liver

Question 123

what do short and medium chain fatty acids require for absorption? (77)

Answer 123

• they do not require bile salts for absorption
• they do not need to be packaged into chylomicrons
• they directly enter the portal blood and are transported to the liver bound to serum albumin

Question 124

What are chylomicrons?

Answer 124

• contains lipid droplets surrounded by the more polar lipids and finally a layer of proteins
• from intestines they are released into the blood via lymph system for delivery to various tissues for storage and production of energy through oxidation

Question 125

How are TGs synthesized in the liver packaged?

Answer 125

-packaged into VLDLs and released into the blood directly

Question 126

How are blood lipids classified?

Answer 126

• distinguished based upon the density of the different lipoproteins
• lipid is less dense than protein
• the lower the density, the less protein it contains

Question 127

Structure and composition of chylomicrons? (79)

Answer 127

• chylomicrons are spherical particles consisting of a core of TGs (85%) and cholesterol esters (CE) with a shell of alipoproteins, phospholipids, unesterified cholesterol
• alipoproteins are embedded with their hydrophobic edges oriented toward the core and their hydrophilic edges toward the outside
• the major protein of chylomicron is apoB48

Question 128

Chylomicron production deficiency?

Answer 128

• genetic defect leads to lack of chylomicron
• patients suffering from this disorder suffer from severe neural degeneration
• lack of chylomicron interrupts transfer of Vit E fro intestine to neurons and other tissues
• treatment: Vit E injections can overcome this block (oral doses greater than 1000X of normal)

Question 129

Formation of chylomicrons? (81)

Answer 129

1. TG is produced in the smooth ER of intestinal cells from digestive products, fatty acids and 2-MG
2. the protein is synthesized in the rough ER, major protein is apoB48
3. assembly of lipoprotein occurs in the Golgi complex
   - ApoB organizes the assembly
   - picks up Apo A, C, E in plasma
   - TG composition resembles dietary intake
   - requires phospholipids

Question 130

What are the 2 forms of ApoB?

Answer 130

• 48- small, in intestine
• 100- large, in liver

Question 131

Further acquisition of protein found in chylomicrons? (82)

Answer 131

1. newly synthesized chylomicrons (nascent) mature as they receive apoproteins C and E from high density lipoproteins (HDL)
2. HDL functions in the transfer of these apoproteins and also in transfer of cholesterol from peripheral tissues to liver
   - ApoC also found in VLDL

Question 132

What is the fate of TG in chylomicrons? (83)

Answer 132

1. TG components of chylomicrons (and VLDLs) are hydrolyzed to free fatty acids and glycerol in the capillaries of adipose tissue and skeletal muscle by the action of lipoprotein lipase
2. free fatty acids are then absorbed by cells and the glycerol is returned via blood to the liver (and kidneys)
3. glycerol is converted to glycolytic intermediate DHAP
4. chylomicrons circulate through blood where they are delivered to a tissue that needs lipids
   - within lumen of capillaries in the blood stream, TGs are broken down by lipoprotein lipase to fatty acid and glycerol
   - this enzyme is used mostly by adipocytes and muscle cells
   - it is secreted and associated with the luminal surface of endothelial cells of capillary walls of most tissues
   - high insulin induces increased LPL
   - ApoC2 activates LPL

Question 133

What tissues oxidize fatty acids?

Answer 133

• skeletal and heart muscles
• liver
• kidney

Question 134

What tissues do not oxidize fatty acids?

Answer 134

• brain
• RBC
• adipose

Question 135

chylomicron summary? (83)

Answer 135

1. chylomicrons are synthesized and packaged in intestinal epithelial cells, secreted into lymph, pass into the blood, and become mature chylomicrons
2. on capillary walls, lipoprotein lipase (LPL), activated by ApoC, digests the TG of chylomicrons to fatty acids and glycerol
3. fatty acids are oxidized by cells which need them or stored in adipose tissue as TGs
4. remnants of chylomicrons are taken up by liver by receptor mediated endocytosis
5. lysosomal enzymes digest the remnants, releasing products to be used by liver

Question 136

Regulation of lipoprotein lipase in fed state?

Answer 136

• fed state promotes TG storage
• increased LPL synthesis and activity in adipocytes
• decreased LPL synthesis and activity in skeletal muscle and heart

Question 137

Regulation of lipoprotein lipase in exercised state/starved?

Answer 137

• decreased LPL in adipocytes
• increased LPL in muscle (skeletal and heart)

Question 138

Km of LPL?

Answer 138

• Km of LPL is lower in muscle than adipose
• substrates have a higher affinity for muscle LPL