Nutrition and Metabolism of Lipids 91
occupied by more unsaturated fatty acids. At inter-
faces between non-miscible polar and non-polar sol-
vents, phospholipids also form a fi lm or monolayer.
Sterols
The main sterol of importance in human nutrition is
cholesterol. It has multiple roles including being:
● a vital component of biological membranes
● a precursor to bile salts used in fat digestion
● a precursor to steroid hormones.
Sterols are secondary alcohols belonging to the poly-
isoprenoids or terpinoids (terpenes), which have a
common precursor, isopentenyl diphosphate. Other
members of the terpinoids include squalene, carot-
enoids, and dolichols. Bacteria appear to be the only
life forms not containing cholesterol. Sterols have
a common cyclopentano(a)perhydrophenanthrene
skeleton with different substitutions giving rise to the
multiple sterols and steroids.
6.3 Lipids as components of the diet
Food or dietary sources of lipids are listed in Table
6.3. Cholesterol is found only in animal lipids, while
a variety of other phytosterols occur in plants.
Soyabeans, leafy plants, and lean animal meat are rich
in dietary phospholipids. Animal fat and plant oils
from seeds or nuts are rich in TAG.
The leafy and fruit components of plants contain
phospholipids and sterols, whereas seeds contain tri-
glycerides. With rare exceptions such as fl axseed
(linseed), edible green leaves are proportionally much
richer in α-linolenate than are seeds. Seed oils are
usually rich in either linoleate or oleate. Common
plant sterols include β-sitosterol, β-sitostanol, and
campesterol. Foods enriched with esters of plant
sterols are used widely to lower blood cholesterol via
the inhibition of cholesterol absorption in the gut.
Phospholipids and cholesterol constitute the
majority of lipids in tissues (gut, kidney, brain,
Trans-membrane
protein/receptor
Ion channel
Carbohydrate unit
Saturated
phospholipid
Unsaturated
phospholipid
Cholesterol
Phospholipid head groups
(asymmetrically distributed)
Outer surface
Inner surface
Figure 6.3 Simplifi ed schematic view of a membrane bilayer. The main components are proteins, free cholesterol, phospholipids, and carbohy-
drates. There are many different proteins with a myriad of shapes, membrane distribution, and functions, of which three are illustrated. Membrane
phospholipids principally help to create the bilayer. They have four types of “head groups” (choline, ethanolamine, serine, and inositol) that are
located at or near the membrane’s two surfaces. The two fatty acids in phospholipids are mixtures of 16- to 22-carbon saturates, monounsaturates,
and polyunsaturates in all combinations, with those rich in unsaturated fatty acids occupying more space; hence, their trapezoid shape compared
with the narrower, rectangular shape of the more saturated phospholipids. Free cholesterol represents 30–40% of the lipid in most membranes.
The many different carbohydrates are on the membrane’s surfaces and are bound to lipids and/or proteins in the membrane.