The Chemistry of Lipids PDF

Summary

This document provides a comprehensive overview of the chemistry of lipids, touching on complex and derived lipids like glycerophospholipids, sphingolipids, glycolipids, and steroids, along with their roles in biological membranes. It also covers important topics such as cholesterol, lipoproteins, and steroid hormones.

Full Transcript

THE CHEMISTRY OF LIPIDS
Complex and Derived Lipids
 COMPLEX LIPIDS
Schematic diagram of simple and complex lipids.

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 BIOLOGICAL MEMBRANES
Complex lipids form the membranes around cells and around small
structures within cells.
In aqueous solution, complex lipids spontaneously form into a lipid
bilayer, with a back-to-back arrangement of lipid monolayers.
Polar (hydrophilic) head groups are in contact with the aqueous
environment.
Nonpolar (hydrophobic) tails are buried within the bilayer and
shielded from the aqueous environment.
The major force driving force for the formation of lipid bilayers is
hydrophobic interaction.
The arrangement of hydrocarbon tails in the interior can be rigid (if
rich in saturated fatty acids) or fluid (if rich in unsaturated fatty
acids).
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FLUID MOSAIC MODEL

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 PHOSPHOLIPIDS
▪ Phospholipids are similar in structure to triacylglycerol but replace one fatty
acid group with a phosphate group and an amino alcohol.
▪ It contain an alcohol, two fatty acids, and a phosphate ester.
▪ can be degraded to their component parts by a family of enzymes called
phospholipases
 GLYCEROPHOSPHOLIPIDS
Glycerophospholipids, also called phosphoglycerides are the second most
abundant group of naturally occurring lipids, and are membrane components of
cells throughout the bodyThe structure of glycerophospholipids is very similar to that
of fats.
The alcohol is glycerol.
Two of the three hydroxyl groups are esterified with fatty acids. The third hydroxyl
group is esterified with phosphoric acid, which is also esterified with another alcohol.
The most abundant glycerophospholipids are derived from phosphatidic acid, a
molecule in which glycerol is esterified with two molecules of fatty acid and one
of phosphoric acid. The fatty acid on carbon 2 of glycerol is always unsaturated.
Further esterification with a low-molecular-weight alcohol (screen 16) gives a
glycerophospholipid.

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 GLYCEROPHOSPHOLIPIDS
LECITHIN is a glycerophospholipid in which the addition phosphate ester
is attached with Choline. It a major component of egg yolk. It has
both polar and nonpolar portions within one molecule, and an
excellent Emulsifier.

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 GLYCEROPHOSPHOLIPIDS
CEPHALINS: Another group of glycerophospholipids in which the
additional phosphate ester is provided by either ethanolamine or
serine.

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 GLYCEROPHOSPHOLIPIDS
PHOSPHATIDYLINOSITOLS (PI) - the alcohol inositol is bonded to the rest of the
molecule by a phosphate ester bond. The higher phosphorylated
Form of PI , phosphatidylinositol 4,5-bisphosphates (PIP2), serve as
signaling molecules in chemical communication
 SPHINGOLIPIDS
Contain the long-chain amino alcohol, sphingosine, from which this
class of compounds in named.

The sphingolipid myelin is found in the coatings of nerve axons.

The ceramide part of complex
lipids may contain different fatty
acids. E.g. Stearic acid occurs
mainly in sphingomyelin
They can be found in cerebrosides

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 GLYCOLIPIDS
Glycolipid: a complex lipid that contains carbohydrates and ceramides.
The carbohydrate is either glucose or galactose.
The cerebrosides consists of ceramide mono- or oligosaccharides,
and occur primarily in the brain and at the nerve synapse.
Gangliosides contain more complex carbohydrates

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 DERIVED LIPIDS
STEROIDS
▪ A compound that contains the steroid nucleus - a tetracyclic ring structure
consisting of three cyclohexane rings and one cyclopentane ring fused
together (no fatty acids). The different functionality of steroids comes from
the substituent groups attached to the core structure.
▪ The four rings in the steroid nucleus are designated A, B, C, and D. The
carbon atoms are numbered beginning with the carbons in ring A and, in
types of steroids like cholesterol, ending with two methyl groups (attached
groups make a wide variety of steroid compounds).
 CHOLESTEROL
The most abundant steroid in the human body, and also the most important.
It is a component in plasma membranes in all animal cells
It is the precursor of all steroid hormones and bile acids.

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 LIPOPROTEINS
LIPOPROTEINS: Carriers of cholesterol.
Most lipoproteins contain a core of hydrophobic lipid molecules surrounded
by a shell of hydrophilic molecules such as proteins and phospholipids. There
are four kinds of lipoproteins.
High-density lipoprotein (HDL) (“good cholesterol”), which consists of about
33% protein and 30% cholesterol.
Low-density lipoprotein (LDL) (“bad cholesterol”). which contains about 25%
protein and 50% cholesterol.
Very-low density lipoprotein (VLDL), which carries triglycerides (fats)
synthesized by the liver.
Chylomicrons, which carry dietary lipids synthesized in the intestines.

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LOW-DENSITY LIPOPROTEIN

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 CHOLESTEROL TRANSPORT
Transport of cholesterol from the liver starts out as a large VLDL
particle.
VLDL is carried in the serum.
As fat is removed, its density increases and it becomes LDL; LDL
stays in the plasma for about 2.5 days.
LDL carries cholesterol to cells, where specific LDL receptors bind it.
After binding, LDL is taken into cells where enzymes liberate free
cholesterol and cholesteryl esters.

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 CHOLESTEROL TRANSPORT
High-density lipoproteins (HDL) transport cholesterol from
peripheral tissues to the liver and also transfer cholesterol to LDL.
While in the serum, free cholesterol in HDL is converted to
cholesteryl esters.
In the liver, HDL binds to the liver cell surface and transfers its
cholesteryl esters to the cell.
These esters are used for the synthesis of steroid hormones and bile
acids.
After HDL has delivered its cholesteryl esters to liver cells, it reenters
circulation.

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 LEVELS OF LDL AND HDL
Most of the cholesterol is carried by LDL.
Normal plasma levels are 175 mg/100 mL.
If there are sufficient LDL receptors on the surface of cells, LDL is
removed from circulation and its concentration in blood plasma
drops.
The number of LDL receptors is controlled by a feedback
mechanism.
When the concentration of cholesterol inside cells is high, the
synthesis of LDL receptors is suppressed.
In the disease called famelial hypercholesterolemia, there are not
enough LDL receptors and plasma levels of cholesterol may rise as
high as 680 mg/100 mL.
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 LEVELS OF LDL AND HDL
These high levels of cholesterol can cause premature
atherosclerosis and heart attacks.
In general, high LDL means high cholesterol content in the plasma
because LDL cannot get into cells.
Therefore, high LDL together with low HDL is a symptom of faulty
cholesterol transport and a warning of possible atherosclerosis.
The serum cholesterol level controls cholesterol synthesis in the liver.
When serum cholesterol is high, its synthesis in the liver is low, and
vice versa.
The commonly used statin drugs inhibit the synthesis of cholesterol
by blocking HMG-CoA reductase.

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 STEROID HORMONES
Cholesterol is the starting material for the synthesis of steroid hormones. It is first
converted to progesterone and then to both sex hormones and
adrenocorticoid hormones.

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 STEROID HORMONES
Male sex hormones
Synthesized in the testes from cholesterol.
Responsible for the development of male secondary sex
characteristics.

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 STEROID HORMONES
Among the synthetic anabolic steroids are:

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 STEROID HORMONES
Female sex hormones
Synthesized in the ovaries from progesterone.
Responsible for the development of female secondary sex characteristics and
control of the menstrual cycle.

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 STEROID HORMONES
Progesterone-like analogs are used in oral contraceptives:

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 GLUCOCORTICOID HORMONES
Glucocorticoid hormones
Synthesized in the adrenal cortex.
Regulate metabolism of carbohydrates.
Decrease inflammation.
Involved in the reaction to stress.

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 BILE SALTS
Bile salts are oxidation products of cholesterol.
Synthesized in the liver, stored in the gallbladder, and secreted into
the intestine where they emulsify dietary fats and aid in their
absorption and digestion.

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 PROSTAGLANDINS
Prostaglandins: a family of compounds that have the 20-carbon
skeleton of prostanoic acid.

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 PROSTAGLANDINS
Prostaglandins are not stored in tissues as such, but are synthesized
from membrane-bound 20-carbon polyunsaturated fatty acids in
response to specific physiological triggers.
one such polyunsaturated fatty acid is arachidonic acid.

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 PROSTAGLANDINS
The COX (cyclooxygenase) enzyme
occurs in two forms:
COX-1 catalyzes the normal
physiological production of
prostaglandins.
COX-2 is responsible for the production
of prostaglandins in inflammation.
When a tissue is injured or damaged,
special inflammatory cells invade the
injured tissue and interact with
resident cells, for example, smooth
muscle cells.
This interaction activates COX-2 and
prostaglandins are synthesized.
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 THROMBOXANES
Thromboxanes are also derived from arachidonic acid.
Thromboxane A2 induces platelet aggregation and
vasoconstriction.
Aspirin and other NSAIDs inhibit the synthesis of thromboxanes by
inhibiting the COX enzyme.

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 LEUKOTRIENES
Leukotrienes are also synthesized from arachidonic acid.
They occur mainly in leukocytes.
They produce muscle contractions, especially in the lungs and
thereby can cause asthma-like attacks. They are 100x more potent
than histamine.
Several recently-developed anti-asthma drugs inhibit the synthesis
of leukotrienes.

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