Lipid Chemistry PDF

Summary

These lecture notes cover various types of lipids, including simple, complex, and derived lipids. They discuss structures, functions, and locations of different lipid types within the body.

Full Transcript

Lipid Chemistry
Heba Marey
Lecturer of Medical Biochemistry
Faculty of Medicine, Minia University
 Simple Lipids
They are called simple because they are formed only from alcohols and
Fatty acids.

There are two classes of simple lipids (according to the type of
alcohol):

Acylglycerols are esters of one, two or three fatty acids with glycerol.

Waxes are esters of fatty acids with monohydric alcohol higher than
glycerol.
 Triacylglycerols Waxes
These are esters of fatty acids
They are called neutral fat because with long chain alcohol other
than glycerol.
they carry no charge.
These alcohols contain one
They are stored mainly in (OH) group, i.e., monohydric
alcohols e.g. bee wax.
cytoplasm of adipose tissue cells
They are excreted
(which is located subcutaneously extracellularly in some plants
and around kidney and other and animals and has a protective
function as in Bee wax and
organs). Sebaceous secretions.
 Complex (Compound) Lipids
These are esters of fatty acids with alcohol and an extra group
I. Phospholipids: They contain phosphoric acid residues. They are
classified into glycerophospholipids (contain glycerol) and
sphingophospholipids (contain sphingosine).
a) Phosphatidic acid
(diacylglycerolphosphate):
Structure: Glycerol + Saturated fatty acid
attached to position 1, Unsaturated fatty acid
attached to position 2 + phosphoric acid residue
at position 3.
b) Cardiolipin (diphosphatidylglycerol):
✓ It is formed of two phosphatidic acids linked together by
glycerol.
✓ It is the major lipid in mitochondrial membrane.
✓ It stimulates antibody formation i.e. antigenic
c) Lecithin (phosphatidyl choline):
It is formed of Glycerol + Saturated
fatty acid attached to 1 position +
Unsaturated fatty acid attached to 2
position + Phosphoric acid attached to
3 position + Choline base (attached to
phosphoric acid).
1) Lecithin enters in the structure of cell membrane. It is the
most abundant phospholipid in cell membrane.

2) Lecithin acts as lipotropic factor i.e. prevent accumulation
of fat in liver (fatty liver) and gall cholesterol stones.

3) Dipalmityl lecithin (I.e. lecithin which contains 2 palmitic
acid residues) acts as a surfactant in the lung.
Respiratory distress syndrome (hyaline membrane disease):
In premature babies, lungs do not secrete enough surfactant.
This leads to lung collapse and death from respiratory
failure.
Treatment of this case needs putting the premature babies in
Incubator and administration of surfactant locally in the
lung.
d) Sphingomyelins:
It is formed of Sphingosine + Fatty acid
(attached to at position 2) + Phosphoric
acid residue (attached to 3 position) +
Choline base (attached to phosphoric
acid).
Function: It is present in high
concentrations in brain and nerve tissue.
Niemann Pick's disease:
It is accumulation of large amounts of sphingomyelin in liver due to
deficiency of sphingomyelinase enzyme. It leads to mental retardation
and death in early life.
II. Glycolipids: These are complex lipids containing carbohydrate.
They also contain sphingosine (therefore, glycolipids together with
sphingomyelin may be classified as sphingolipids).

Glycolipids include:

Cerebrosides (simple glycolipids): contain sugar usually galactose.
They act as insulator for nerve impulse.
Ganglioside (complex glycolipids): because they contain in addition
to hexose, one or more sialic acid molecules.
III. Lipoproteins: These are complex lipids formed of lipids
conjugated with protein.

They are present in cell membrane, mitochondria and plasma
(plasma lipoproteins).

Plasma lipoproteins convert water insoluble lipids into water
soluble complexes.

This facilitates transport of lipids between blood and different
tissues.
 Derived Lipids
Substances which are insoluble in water but soluble in
nonpolar solvents. They include:

1. Steroids and sterols. 2. Carotenoids

3. Ketone bodies. 4. Fatty acids.
 Steroids
Types of steroids and sterols are:

1. Cholesterol (animal origin). 6. Steroid hormones:

2. Ergosterol (plant origin). a) Male sex hormones.

3. Vitamin D group (D2 and D3). b) Female sex hormones.

4. Bile salts. c) Adrenocortical hormones.

5. Digitalis glycosides. 7. Some carcinogenic substances.
Cholesterol:
It is formed from activated acetate. It acts as a precursor of all steroids
in animal body.

It is present in every body cell (cell membrane) especially in:
1)Adrenal cortex. 2) Gonads.
3) Liver and kidney. 4) Brain and nerve tissue.
5) Skin and adipose tissue.

It is mainly excreted from the body in bile in the form of bile salts,
less amounts as cholesterol, cholesteryl esters and dehydrocholesterol.
In large intestine, it is reduced by bacteria to give corpostanol.
 It occurs in the blood in 2 forms: free form (30%) and esterified form
(70%) (combined to fatty acids to form ester).

The level of blood cholesterol is normally less than 220 mg/dl. Any
increase above this level is called: hypercholesterolemia predisposes
to atherosclerosis which leads to hypertension.

Function: It is important for:
a)It enters in the structure of every body cell particularly cell
membranes & in nervous tissue.
b)Synthesis of steroid hormones.
c)Synthesis of bile salts.
d)Synthesis of vitamin D3.