Fatty Acids

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Transcript Fatty Acids 

Chem 1152: Ch. 18
Lipids
Lipids
• Biomolecules defined in terms of solubility:
– Insoluble in water but soluble in nonpolar solvents.
– Waxy, greasy or oily compounds.
• Biological Functions:
– Energy Storage
– Structural component of cell membranes
– Signaling molecules
Two major
classes 
Seager SL, Slabaugh MR, Chemistry for Today: General, Organic and Biochemistry, 7 th Edition, 2011
Saponifiable Lipids
Saponification: base hydrolysis of esters to produce carboxylic acid salt
and alcohol
• Simple Lipids:
– Contain fatty acids and alcohols
• Complex Lipids:
– Contain multiple fatty acids,
alcohol, something else
Seager SL, Slabaugh MR, Chemistry for Today: General, Organic and Biochemistry, 7 th Edition, 2011
Fatty Acids
• Building blocks of many lipids
• Long chain carboxylic acids
• Carboxyl group hydrophilic at physiological pH (7.4)
Seager SL, Slabaugh MR, Chemistry for Today: General, Organic and Biochemistry, 7 th Edition, 2011
Micelles
• In aqueous solutions, ionized fatty acids form spherical clusters
– Polar head is facing out towards water (hydrophilic)
– Long alkane chains associate in interior (hydrophobic) through weak dispersion forces
Seager SL, Slabaugh MR, Chemistry for Today: General, Organic and Biochemistry, 7 th Edition, 2011
Characteristics of Fatty Acids
1.
2.
3.
4.
5.
Straight chain (unbranched) carboxylic acids
Comprised of 10-20 carbons
Usually have even number of carbons
Can be saturated or unsaturated
Usually no other functional groups
O
O
-
unsaturated
H3C
saturated
O
H3C
• Unsaturated fatty acids usually contain double bonds in the cis
configuration
• This creates kink or bend in chain that prevents unsaturated fatty acids
from packing together closely unlike saturated fatty acids
– Results in weaker intermolecular forces, lower MP’s
– Usually liquid at room temp
Seager SL, Slabaugh MR, Chemistry for Today: General, Organic and Biochemistry, 7 th Edition, 2011
-
O
Properties of Unsaturated Fatty Acids
• The kink or bend in chain of unsaturated fatty acids prevents from
packing together closely unlike saturated fatty acids
– Results in weaker intermolecular forces, lower MP’s
– Increases fluidity of biological membranes
Seager SL, Slabaugh MR, Chemistry for Today: General, Organic and Biochemistry, 7 th Edition, 2011
Properties of Unsaturated Fatty Acids
• Phospholipids form bilayer in cell membrane
Seager SL, Slabaugh MR, Chemistry for Today: General, Organic and Biochemistry, 7 th Edition, 2011
Essential Fatty Acids
• The human body can synthesize all but two of the necessary
fatty acids
• Linoleic acid (omega-6 fatty acid)
• Linolenic acid (omega-3 fatty acid)
• Must be obtained from diet (plant and fish oils)
• Polyunsaturated (multiple double bonds)
• 18 Carbons in chain
Diets rich in omega-3 fatty acids may:
 decrease serum cholesterol, triglycerides
 reduce risk of heart disease
Sources of omega-3 fatty acids:
 Fish
 Nuts
 Kidney Beans
 Spinach
 Broccoli and cauliflower
 Oils
Seager SL, Slabaugh MR, Chemistry for Today: General, Organic and Biochemistry, 7 th Edition, 2011
Structures of Fats and Oils
• Fats: Triglycerides from animal (saturated)
• Oils: Triglycerides from vegetables (unsaturated)
• These are esters (alcohol + acid)
• Alcohol derived from glycerol
• Acid from fatty acids
Most
common
lipids
triglyceride
Seager SL, Slabaugh MR, Chemistry for Today: General, Organic and Biochemistry, 7 th Edition, 2011
Reactions of Triglycerides
Ester of 3
alcohols, 3
acids
triglyceride
hydrolysis
saponification
Seager SL, Slabaugh MR, Chemistry for Today: General, Organic and Biochemistry, 7 th Edition, 2011
hydrogenation
Chemical Properties of Fats and Oils
• Triglycerides exhibit chemical properties of esters and alkenes
Rxn: Hydrolysis
Breakdown of cellular fats to supply energy begins with lipase
catalyzed hydrolysis reaction
Seager SL, Slabaugh MR, Chemistry for Today: General, Organic and Biochemistry, 7 th Edition, 2011
Chemical Properties of Fats and Oils
Rxn: Saponification
Soapmaking (up to AD 500), by adding base (lye or aqueous
extract of wood ash) to animal fat
Seager SL, Slabaugh MR, Chemistry for Today: General, Organic and Biochemistry, 7 th Edition, 2011
Chemical Properties of Fats and Oils
Rxn: Hydrogenation
Results in partial hydrogenation (partially-hydrogenated vegetable
oils)
Semi-solids that don’t separate
 Crisco
Seager SL, Slabaugh MR, Chemistry for Today: General, Organic and Biochemistry, 7 th Edition, 2011
Waxes
•
•
•
•
Simple, saponifiable lipids (long chain fatty acid + alcohol = ester)
Alcohol derived from long chain alcohols (12-32 carbons) not glycerols
Water insoluble
Occur in nature as protective coatings on:
• Feathers
• Fur
• Skin
• Leaves
• Fruits
Beeswax
Seager SL, Slabaugh MR, Chemistry for Today: General, Organic and Biochemistry, 7 th Edition, 2011
Phosphoglycerides
•
•
•
•
Complex lipids
Serve as major components of cell membranes
Also known as phospholipids
Structure similar to triglycerides
triglyceride
phosphoglyceride
Seager SL, Slabaugh MR, Chemistry for Today: General, Organic and Biochemistry, 7 th Edition, 2011
Phosphoglycerides
• The most common phosphoglycerides have choline, ehanolamine, or serine
attached to the phosphate group.
Seager SL, Slabaugh MR, Chemistry for Today: General, Organic and Biochemistry, 7 th Edition, 2011
Phosphoglycerides
Lecithins
• Phospholglycerides that contain
choline
• Soy lecithin used to provide smooth
texture to margarine, chocolate
Cephalins
• Phospholglycerides that contain
ethanolamine or serine
Functions:
• structural components of cell
membranes
• micelle forming agents
Functions:
• Cell membranes
• Blood-clotting
Phosphatidylcholine (lecithin)
Seager SL, Slabaugh MR, Chemistry for Today: General, Organic and Biochemistry, 7 th Edition, 2011
Cephalin
Sphingolipids
• Complex lipid found in cell membrane
• Contain sphingosine instead of glycerol
• These are found in brain and nerve tissue, and in myelin sheath that
surrounds nerves
Seager SL, Slabaugh MR, Chemistry for Today: General, Organic and Biochemistry, 7 th Edition, 2011
Glycolipids
•
•
•
•
Another type sphingolipid
Contain carbohydrates
AKA cerebrosides due to abundance in brain tissue
No phosphate linkage
Seager SL, Slabaugh MR, Chemistry for Today: General, Organic and Biochemistry, 7 th Edition, 2011
Related Diseases
• Some human diseases are related to abnormal accumulation of
sphingomyelins and glycolipids
Seager SL, Slabaugh MR, Chemistry for Today: General, Organic and Biochemistry, 7 th Edition, 2011
Fluid-mosaic Model of Biological Membranes
• Cell membranes for both prokaryotic and eukaryotic cells comprised of lipids
organized in a bilayer
Seager SL, Slabaugh MR, Chemistry for Today: General, Organic and Biochemistry, 7 th Edition, 2011
Steroids
 Exhibit feature of other lipids (e.g., soluble in non-polar solvents)
 Cholesterol is most abundant steroid in human body
 Essential component of cell membranes
 Precursor for other steroids:
 Bile salts
 Sex hormones
 Vitamin D
 Adrenocorticoid hormones
 Synthesized in liver or obtained from food
 May contribute to atherosclerosis
CH3
CH3
CH3
CH3
HO
Steroid
Seager SL, Slabaugh MR, Chemistry for Today: General, Organic and Biochemistry, 7 th Edition, 2011
CH3
Cholesterol
Bile Salts
 Yellow-brown or green liver secretion stored in
gallbladder
 Bile salts are released into intestine to separate
large globules of lipids into smaller droplets
 Bile salts also emulsify (mix immiscibles)
cholesterol found in the bile for excretion
 Gallstones may occur if cholesterol too high
and/or bile salts too low
Seager SL, Slabaugh MR, Chemistry for Today: General, Organic and Biochemistry, 7 th Edition, 2011; http://www.medicinenet.com/gallstones/article.htm
Steroid Hormones
 Hormone: Chemical produced in the cell or gland that delivers a message affecting
cells in another part of the organism
CH3
 Steroid hormones derived from cholesterol
 Two Major Steroid Hormones:
CH3
 Adrenocorticoid Hormones
CH3
CH3
 Male and Female Sex Hormones
HO
Steroid hormones diffuse through the
cell membrane and combine with receptor
proteins in the cytoplasm
Hormone-receptor complex cause cell to
respond to hormone by interacting with
cell DNA and stimulating protein synthesis
http://schoolworkhelper.net/2010/07/the-endocrine-system-function-and-structure/
CH3
Adrenocorticoid Hormones
 Produced in adrenal glands located at top of kidneys
 Classified into 2 functional groups:
 Mineralocorticoids: Regulate concentration of ions (Na+) in body fluids
 Aldosterone: most important mineralocorticoid
 Promotes absorption of Na+ and Cl- in kidney tubules
 Glucorticoids: Enhance carbohydrate metabolism
 Cortisol is major glucocorticoid in human body
 Increases glucose and glycogen concentration in body
 Cortisol, cortisone and prednisolone exert anti-inflammatory effects
 Used to treat rheumatoid arthritis, bronchial asthma
Seager SL, Slabaugh MR, Chemistry for Today: General, Organic and Biochemistry, 7 th Edition, 2011
Male Sex Hormones
 Male sex hormones (androgens) produced in testes
 Testosterone: Most important
 Promotes normal growth of male genitalia
and aids in development of secondary sex
characteristics
 Anabolic steroids banned for use by
athletes include testosterone and
derivatives
 Use of these can lead to:
 Liver tumors
 Testicular atrophy
 Decreased sperm count
Seager SL, Slabaugh MR, Chemistry for Today: General, Organic and Biochemistry, 7 th Edition, 2011; http://artofamandanelson.blogspot.com/2011/09/generating-topicssteroids.html
Female Sex Hormones
 Female sex hormones promote development of secondary sex characteristics
 Increase in voice pitch
 Increased breast size
 Inhibition of facial hair
 Estrogens:
 Primary female sex hormones, play important roles in reproduction:
 Estradiol
 Estrone
 Progesterone
Seager SL, Slabaugh MR, Chemistry for Today: General, Organic and Biochemistry, 7 th Edition, 2011
Prostaglandins




First identified in secretions from male prostate gland
Currently about 20 known prostaglandins in both men and women
Cyclic compounds derived from arachidonic acid
Hormone-like
Functions:
 Regulate menstruation
 Prevent conception
 Induce uterine contractions during childbirth
Therapeutic applications:
 Induce labor
 Treat asthma
 Treat peptic ulcers
Seager SL, Slabaugh MR, Chemistry for Today: General, Organic and Biochemistry, 7 th Edition, 2011