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Lipids• Water insoluble Substances• Soluble in organic solvents (acetone, benzene)• Important in human nutrition• Very concentrated form of energy, important
biomolecules• Types of Lipids
Simple Lipids: †Fatty Acids, †TriglyceridesCompound Lipids: †Phospholipids †Cholesterol †Eicosanoids†Lipoproteins (VLDL, LDL, HDL, Chylomicrons)†Fat Soluble Vitamins (A,D,E,K)
Fat Cells
www.blueprintsolution.com/.../fat_cells.jpg
cellwww.umm.edu/.../graphics/images/en/19267.jpg
http://www.cartoonstock.com/lowres/mba0054l.jpg
Mortality http://hcna.radcliffe-oxford.com/images/obese%201-2.jpg
Fatty Acids Structure
Fatty Acids
Fatty Acids - straight hydrocarbon chain with a terminal Carboxyl (COOH) †Saturated- no double bond†Unsaturated- contains > one double bonds¶ Monounsaturated- one double bond¶ Polyunsaturated- 2 or more double bonds
†Essential FA- body cannot produce, must come from diet
Formula .... CH3(CH2)nCOOH†Carbon # varies (in nature normally even #) i.e.: 16C, 18C†Normally 4-24 † Most abundant 16-18-20
18 : 29 12
# of Double Bonds
Position of Double Bonds
# of Carbons
Position of Double bond
•Always a 3 Carbons difference between double bonds
• Linoleic and Linolenic are essential Fatty Acids
Fatty acids: different health effect
• different kinds: food fatsCanola oil, olive oil, safflower oil, fish oilbutter, beef tallow, lard, palm oil, coconut oil
• saturated • Unsaturated
– monounsaturated, – polyunsaturated fatty acids
• Omega 3 - , Omega 6 - fatty acids• essential fatty acids, • trans- fatty acids
Good SourcesMonounsaturated fat: (plant: good source)
– canola oil, olive oil
Polyunsaturated fat: (plant: good source)
– vegetable oil, sunflower oil, safflower oil
Omega 3 fat - plant, fish
Tropical oil: palm oil, coconut oil: (Plant): highly saturated: limit the intake
Limit saturated fat: animal sourcebutter, beef fat, lard
Omega 6-, Omega 3- Fatty Acids
• Normally, numbering of Carbon starts at carboxyl carbon
• In Omega system, numbering starts from the opposite end (CH3-, omega)
• Linoleic acid : Omega 6 Fatty Acid
• CH3-C-C-C-C-C=C-C-C=C-C-C-C-C-C-C-C-COOH– (First double bond is located on the 6th Carbon, this is an Omega
6 Fatty Acid)
• Linolenic acid : Omega 3 Fatty Acid
• CH3-C-C=C-C-C=C-C-C=C-C-C-C-C-C-C-C-COOH– (First double bond on the 3 Carbon)
• Both are highly unsaturated
Omega-3 and Omega-6 Fatty Acids Compared
• Health Benefits† Decreases incidence of cardiovascular disease† Decreases blood cholesterol levels† Decreases blood clotting by decreasing platelet aggregation
Omega 3 FA
AMA Recommendation: Eat fish meal: 2-3 times /week (10 oz)Good for brain development and function, normal vision, heart, immune system, memoryFish oil supplements: recommended with consultation with a doctor
n-3 fatty Acids Come in the Diet
† Linolenic Acid- from plants† Eicosapentaenoic Acid (EPA)- 20:5D† Docosahexaenoic Acid (DHA)- 22:6D
• Italicized---> highly unsaturated and originate in fish oils
• Important for making 3 Types of Important Biomolecules
† Prostaglandins† Leukotrienes† Thromboxanes
Hydrogenation
• Physical Property of fats
– Saturated- animal foods (solid, room temp)
– Mono, poly unsaturated fat - plant foods (liquid)
• Adding “H” at the double bonds changes Liquid vegetable oil to solid: hydrogenation ( un-saturation saturation):
• Trans fatty acids (Trans fat)
– Hydrogenation generates trans fatty acids,
• Trans fats - fried foods
Hydrogenation
21
http://www.bastnet.com/fatfacts/images/cis-trans_fat.gif
FDA - Trans Fat – Heart Disease
• Food and Drug Administration in the United States as of (January 2006) requires food manufacturers to list trans fat on nutrition facts labels.
• Read the ingredient label and look for shortening, hydrogenated or partially hydrogenated oil.
• The higher up on the list, the more trans fat is present in the food. • A 1994 Harvard University study found more than twice the risk of
heart attacks among those who ate partially hydrogenated oils, which are high in trans fat, compared to those who consumed little trans fat.
• Trans fatty acids are responsible for nearly 30,000 premature deaths per year in the U.S.
“Potential” Dangers
• Consuming trans fats:
• Increase the levels of bad cholesterol and promote heart disease and circulatory disorders.
• Depress the body's immune system.
• Interfere with pregnancy and are related to low birth weight babies, and poor quality breast milk.
• Worsen diabetes, hypertension and obesity by increasing insulin resistance.
• Displace healthy fats, for example, the omega-3 fatty acids in fish oils, preventing them from performing their normal function.
• Disturb liver function.
• Hydrogenation- addition of H+ at the double bond of liquid oil --> solid fat (increases the melting point) example: shortening or margarine
• Emulsification- breakdown (dispersion) of large fat molecules into small fat particles (globules)
physiological emulsifiers- bile, lecithin examples: homogenization of milk
• Rancidity and Oxidation (spoilage) of fat @ the double bond forms a peroxide: bad taste and smell
• Antioxidant (Vit E) added to oil to prevent spoilage
Triglyceride (Triacylglycerol)
• Typically known as FAT• Most abundant (in nature and in body) form of lipid • Neutral Fat Triacylglycerol monoacyglycerol= monoglyceride
diacylglycerol = diglyceride
Triglyceride= glycerol + 3 Fatty Acids
Fig. 6-5b, p. 132
Fig. 6-4, p. 132
Triacylglycerol Structure
Structure of Triacylglycerol
Phospholipids (Glycerophosphatides)
• Structural Lipid• Polar lipid• 1 Glycerol + 2 Fatty Acid chains + 1 Phosphate Group(+ another group to classify the P-lipid)
• Main lipid found in plasma membrane to give structure, and outside of lipoproteins
Phospholipids
Phospholipids
Phospholipids
Cholesterol in Plasma Membrane
Ch 10: Plasma Membrane: Lipid Bilayer
Phospholipids: have both hydrophobic and hydrophilic region
• Forming bilayer: Allow: hydrophobic groups inside and hydrophilic groups outside of the membrane
Major: phosphatidyl choline (Lecithin)LecithinIn every single cellSynthesized in the bodyFrom foods: liver, egg yolk, soybeanEmulsifier
• Phospholipids are Part of Lipoproteins– Transport vehicles for lipid in blood
– Lipids are hidden inside lipoproteins
1. Chylomicron: made in intestine
2. VLDL: made in intestine, liver
3. LDL: made from VLDL in blood
4. HDL: made in intestine, liver
Cells
• Functional unit of life
• None typical: all different
• Fig. 10.1: Human cell: Liver cell
– Plasma membrane
• Outer boundary
• Keeps cell composition constant
• Selective permeability
Animal Cell Membrane
Transport Mechanism
Na K ATPase
Na Glucose CoTransport
Cholesterol Structure
CH 32 Digestion and Transport of Dietary Lipids
• Dietary Fat is made of
† Triglyceride (must abundant , 95% of total dietary fat)
† Phospholipids
† Cholesterol
† Fat Soluble Vitamins• Lingual Lipase in mouth and gastric lipase hydrolyze mostly milk fat (short
and medium chain fatty acids (carbon # fewer than 12) (important during infancy)
• Major digestion• Stomach contents enter Small Intestine--> release of cholecystokinin (CCK):
gut hormone --> release of bile & pancreatic lipase , colipase, bicarbonate (neutralize acidic stomach contents) (hormone secretin stimulate bicarbonate release)
• bile breaks fat into small particles • pancreatic lipase works on small fat particles• TG --> free fa + 2-monoglyceride + some glycerol
Triacylglycerols Digestion
Bile• Emulsifier: Break fat into small pieces• ‘Bile’: made in Liver• stored in Gallbladder• acts in Small Intestine• reabsorbed in Ileum (Entero Hepatic Cycle)
(intestine < --- >liver)• Bile recirculation• Total bile pool: 2.5 – 5.0 g• > 90% is reabsorbed, ~ 0.5 g is lost in feces/day• Pool of bile recycle twice/ meal• Soluble fibers bind to bile excreted• Drugs bind to bile promote excretion of bile in
feces to lower blood cholesterol
Recycling of Bile Salts
Bile Salt
Action of Pancreatic Lipase
Cholesterol ester and phospholipids digestion
Fat Digestion
Fat Absorption
• Depending on the length of the fatty acids chain
† Short and medium chain fatty acids are absorbed --> portal vein --> liver
† Long chain FA, 2- monoacylglycerols, glycerol, bile, Vitamins, cholesterol and lysophospholipids aggregate to form micelle (lump of these particles) micelles move to microville all of these particles are absorbed into intestinal cells, bile is not absorbed.
Resynthesis of triacylglycerol in intestinal epithelial cells
Triacylglycerol (TG) Absorption
• In the enterocyte, a “new” triaclyglycerol is formed from fat digested fragments absorbed from micelles---
• “New” Triglyceride + Phospholipid + Fat Soluble Vitamins + Cholesterol: packaged, and apoprotein is added -
--> formation of lipoprotein
• This lipoprotein is called Chylomicron (CM)
• Chylomicron is too large to pass directly into the blood stream. Instead. It is taken through lymph.
• CM is released into the bloodstream at thoracic Duct.
MICELLE
INTESTINAL ENTEROCYTE
FAT
BILE (TO BE ABSORBED IN THE ILEUM)
MONOGLYCERIDEFREE FATTY ACIDSGLYCEROL
TRIGLYCERIDE
+ PROTEINP-LIPIDSFAT SOL VITSCHOLESTEROL
CHYLOMICRON
LYMPH CIRCULATION
BLOOD CIRCULATION
LIVER
Chylomicron
• Chylomicron-->high in TG, low in cholesterol, protein and phospholipids
• Made from exogenous (dietary) fat• Transported through lymph--> then, blood stream• In blood, some TG in CM is digested by lipoprotein
lipase in the capillary of adipose cells to Fatty acids and glycerol. Fatty Acids are take up by the adipose cells : what is left is called Chylomicron Remnants --> return to Liver
Lipoprotein Structure
Chylomicron
Chylomicron
4 Types of Lipoproteins
• Chylomicron made in intestine
• VLDL liver, intestine
• LDL circulation
• HDL liver, intestine† if it has more fat than protein, then it’s
a lower density lipoprotein like VLDL
† if more protein than fat, then it’s a higher density lipoprotein like HDL
Fate of Chylomicron
Transfer of ApoE and ApoCII from HDL to chylomicron
• Apo E is recognized by membrane receptor on liver cell: Apo E bearing particles enter liver by endocytosis fused with lysosomes digested contents are reused
• ApoCII: activator of LPL: enzyme on capillary endothelial cells on muscle and adipose cells: digest triacylglycerol of chylomicron and VLDL: fatty acids are taken in
Liver and Adipose in Lipid Metabolism
• Exogenous free fatty acids of shorter chain: absorbed into portal vein liver
• Chylomicron remnant : enters the liver from blood circulation in the liver cell, chylomicron remnant (c.r.) is fused with lysosome all components of c. r. such as cholesterol, amino acids, phospholipids come out to cytosol. Absorbed dietary TG from c.r. and newly synthesized TG (from glucose metabolism) are packaged into VLDL
• VLDL comes out to blood some TG is taken up by the body cell (mostly adipose cells) what is left is IDL or LDL
Liver’s Importance in Lipid Metabolism• Site of bile formation: made from cholesterol• Synthesis of lipoprotein VLDL• VLDL is made from endogenously made fat (fat made
in liver)† VLDL is rich in TG and cholesterol† VLDL leaves the liver--> blood --> some TG is
taken up by cell leaving it as IDL, then eventually made to LDLLDL (rich in cholesterol- 60-70% total content)
• HDL is synthesized in peripheral tissue