Lec 4: Lipids

Question 1

are lipids…

polymers?

non-polar/polar?

soluble/insoluble?

Answer 1

lipids are not polymers

they are non-polar

they are largely insoluble in water (but soluble in non-polar solvents)

Question 2

what interactions cause lipids to group together in water?

Answer 2

hydrophobic

Question 3

*NOTE*: Examples of lipids (5)

Answer 3

Fats

Oils

Waxes

Phospholipids

Steroids

Question 4

what does a triglyceride contain?

Answer 4

3x fatty acids chains and 1x glycerol

Question 5

what bonds link the fatty acid chains to the glycerol back bone ?

Answer 5

ester bond

Question 6

in what process are triglycerides formed?

Answer 6

dehydration synthesis

Question 7

in what reactions are triglycerides broken down?

what enzyme does this require?

Answer 7

hydrolysis

requires the enzyme: triglyceride lipase and H2O

Question 8

where is triglyceride lipase found? what does it do?

Answer 8

found in the intestine

breaks down triglycerides

Question 9

what is the difference between a saturated and unsaturated fatty acid?

give examples

Answer 9

Saturated = contain single [C-C] bonds e.g palmitate

Unsaturated = contain 1 or more double [C=C] bond e.g Oleate

*a diagram of a saturated fatty acid looks

Question 10

what are FFAs?

Answer 10

free fatty acids that are not part of a triglyceride

Question 11

how do you name Omega FFAs?

Answer 11

go from the location of the first double bond, cound from the methyl end

Question 12

what FFAS are essential (=cannot be synthesised in the body)

Omega-3 (ω-3) fatty acids (e.g. α-linolenic acid)

Omega-6 (ω-6) fatty acids (e.g linoleic acid)

Question 13

what do saturated and unsaturated fatty acids form?

Answer 13

SFAs form compact, closely packed triglycerides that are solid at toom temp e.g Palmitic acid (16 C) present in plant and animal fats

UFAs form loosely packed triglycerides due to cis double bonds, liquid at room temp e.g Olive oil (80% oleic acid (18 C)

Question 14

what is the basic structure of steroids?

Answer 14

four fused carbon rings with various side groups attached

Question 15

what is lanosterol and how is it formed?

Answer 15

lanosterol is the building block for all steroids

it is formed by the cyclization of sqaulene

Question 16

give examples of steroids

Answer 16

• cholesterol
• sex hormones: Oestrogen, Progesterone, Testosterone
• Corticosteroids: Aldosterone (mineralocorticoid), Cortisol (glucocorticoid)
• Vitamin D (cholecalciferol) = a secosteroid

Question 17

what is the name of this steroid? what type type of steroid does it fall under?

Answer 17

oestrogen *oest to the OHgen*

a sex hormone

Question 18

what is the name of this steroid? what type of steroid does it fall under?

Answer 18

aldosterone *a lot of =O*

corticosteroids

Question 19

what is the name of this steroid? what type of steroid does it fall under?

Answer 19

Vitamin D

a secosteroid

Question 20

what are phospholipids?

Answer 20

Lipids with a phosphate group (PO₄^2-) covalently bonded to the glycerol backbone instead of a fatty acid

Question 21

which groups on a lipid molecule are polar and non polar

Answer 21

Phosphate group:

Polar Soluble in water (hydrophilic)

Head

Fatty acid groups:

Non-polar Insoluble

in water (hydrophobic) Tail

Question 22

what are some examples of phospholipids

Answer 22

H (phosphatidic acid)

Ethanolamine (phosphatidylethanolamine)

Serine (phosphatidylserine)

Choline (phosphatidylcholine)

Inositol (phosphatidylinositol)

Question 23

what is micelle?

Answer 23

a spherical arrangement of lipid molecules

Question 24

what is bilayer?

Answer 24

composed of two layers of lipids organised as a sheet

Question 25

what is a glycolipid?

Answer 25

a lipid covently attached to an oligosaccharide

It forms part of the cell membrane and glycocalyx

It determines ABO blood group

Question 26

what are lipoproteins?

Answer 26

Soluble complexes that transport lipids and synthesized in the liver

they are

Question 27

what is the glycocalyx

Answer 27

The glycocalyx, also known as the pericellular matrix, is a glycoprotein and glycolipid covering that surrounds the cell membranes of some bacteria, epithelia and other cells.

Question 28

what is the central hydrophobic core of lipoprotein made up of?

Answer 28

Triglycerides

Esterified cholesterol (cholesteryl ester)

Small amounts of other lipids and fat soluble vitamins

Question 29

what is the external hydrophllic layer of a lipoprotein?

Answer 29

• Phospholipids
• Cholesterol (OH functional group outermost)
• Apoproteins - stabilise structure and regulate enzymatic activity at the lipoprotein interface

Question 30

Order the following lipoprotein in terms of size and density;

chylomicron, VLDL (Very Low Density Lipoprotein), IDL (Intermediate Density Lipoprotein), LDL (Low Density Lipoprotein), HDL (High density lipoprotein)

Answer 30

Increasing in size order:

HDL, LDL, IDL, VLDL, chylomicron

density:

Chylomicron, VLDL, IDL, LDL, HDL

Question 31

what does chylomicrons do? what apoprotein does it contain?

Answer 31

Chylomicrons carry dietary fat from small intestine to the liver

contains the app: B-48

Question 32

what does a VLDL do? what apoprotein does it contain?

Answer 32

Produced in liver from synthesised triglycerides and chloestrol esters and carry fat to target tissues

appo E

Question 33

what is a IDL and LDL? which apoproteins do they contain?

Answer 33

they are VLDLs which have had their triglycerides removed

so they then become LDLs then IDLs

LDL apo: Apo E

IDL apo: Apo B-100

Question 34

what does a HDL do? which apoprotein does it contain?

Answer 34

HDL carries cholesterol to the liver (“good cholesterol” reducing atherosclerosis)

apo A-1

Question 35

what do apoproteins do?

Answer 35

• stabilise structure and regulate enzymatic activity at the lipoprotein interface

Question 36

what is the name given to a condition where the arteries become clogged with fatty material forming sites of fatty deposition called plaque? what can this condition trigger?

Answer 36

atherosclerosis

heart attack/stroke

Question 37

how is atherosclerosis caused?

Answer 37

• Development of atheroma (sits of plaque in your arteries)
• deposition where hard scar forms ontop of the plaque
• this narrows the vessel in which blood flows
• this increases shear stress (friction from blood flow)
• so if the plaque ruptures, it triggers thrombosis
• closing of the vessel

Could result in ishemic heart attack/ischemic stroke

Question 38

where are triglycerides stored and what are they stored as?

Answer 38

TGs stored as lipid droplets

in the cytoplasm of adipocyte cells

in adipose tissue

Question 39

what is white adipose tissue and what is it’s function?

Answer 39

• made up of white fat cells which have a lipid droplet in the cytoplasm
• cushions internal organs like a shock absorber
• gives insulation, protecting internal organs from temperature changes and reducing skin heat loss

Question 40

what is brown adpisose tissue and what is it’s function?

Answer 40

brown adipose tissue is made up of brown fat cells

which arise because off the mitochondria that generate heat and the numerous fat vacuoles

-therefore they are useful for warmth

Question 41

where are the white adipose tissue locatated?

Answer 41

Question 42

where is the brown adipose tissue located?

Answer 42

*Image shows Brown adipose depots in patients identified by deoxy-2-[18F]fluoro-Dglucose ([18F]FDG)-positron emission tomography (PET)

Question 43

what diseases are excess adipose tissue involved in?

Answer 43

atherosclerosis-narrowing of blood vessel

thrombosis- clotting of circulating blood

stenosis- abnormal narrowing of blood vessel

aneurysms - blood filled bulge in a blood vessel wall

Question 44

excess adipose tissue is now considered to be a major endrocine organ. What does this mean?

Answer 44

produces pro-inflammatory hormones such as leptin (affects appetite) and the cytokine TNFa (affects tissue)

Question 45

what part of a nerve cell does a phospolipid form? how does this cell affect the function of the cell?

Answer 45

-phospholipids form the myelin insulation around nerve fibres

myelin increases the speed of nervous impulses

Question 46

what cells produce myelin and how do they produce it?

Answer 46

Schwann cells produce myelin peripherally (nerves and ganglia outside cns)

Oligodendrocytes produce myelin centrally (brain/spinal cord)

Question 47

what do vitamin A,D,E and K have in common?

Answer 47

they are all fat soluble

Question 48

what are examples of Vitamin A and how does it benefit the body?

Answer 48

retinol/retinoic acid/carotenoids

gives you healthy teeth, skin, sight

Question 49

what are examples of vitamin D and how does it benefit the body?

Answer 49

cholecalciferol and derivatives

Helps body absorb Ca2+ for healthy bones

Question 50

what is vitamin E and how does it benefit the body?

Answer 50

a tocopherol (antioxidant) found in oils Anti-oxidant,

protects cells from damage

Question 51

what are examples of vitamin K? how does it benefit the body?

Answer 51

phylloquinone and menaquinone Important for coagulation of blood

Question 52

what are eicosanoids?

Answer 52

they are 20 carbon fatty acids

dervied from omega-3 and omega-6 fatty acids

Question 53

what are the three types of eicosanoid hormones?

Answer 53

Prostaglandins (inflammation, vascular tone)

Leukotrienes (asthma and allergy)

Thromboxanes (vascular tone, platelet aggregation)

Question 54

how do lipids prevent moisture loss?

Answer 54

• skin moisture loss is prevented by lipid layers
• comeocytes (skin cells) are held together by lipid rich matrix (like a glue) that holds the skin together

Question 55

how do lipids reduce moisture loss from the cornea?

Answer 55

• the eye has several different layers
• the lipid (oil) layer is hyrdophobic which lubricates and prevents evaporation from the eye
• then you have the meibormian gland which create a lipid tear film

Question 56

what benefits do lipids have?

Answer 56

phospholipid bilayer- provides protection from surrounding environment and anchoring to extracellular structures and other cells required for tissue formation

TGs and FFAs- energy rich C-H bonds available for chemical reactions

WAT- insulators and protection from temperature changes

BAT- generating body heat

phospolipid- form myelin which increase speed of nerve impulses

lipids- reduce skin moisture