Introduction to Human Nutrition

(Sean Pound) #1
Nutrition and Metabolism of Lipids 87

In 1929, Mildred and George Burr discovered that
the absence of fat in a diet otherwise believed to
contain all essential nutrients impaired growth and
caused hair loss and scaling of the skin of rats. This
led to the isolation of the two primary “essential”
polyunsaturated fatty acids, linoleate (18:2n-6) and
α-linolenate (18:3n-3). The prostaglandins are a sub-
class of eicosanoids that were discovered in the early
1930s by Von Euler, who mistakenly believed that they
originated from the prostate gland. The link between
the eicosanoids and polyunsaturates, principally
arachidonate, was established in the 1960s.


6.2 Terminology of dietary fats


Lipids


Like other organic compounds, all lipids are com-
posed of a carbon skeleton with hydrogen and oxygen
substitutions. Nitrogen, sulfur, and phosphorus are
also present in some lipids. Water insolubility is a key
but not absolute characteristic distinguishing most
lipids from proteins and carbohydrates. There are
some exceptions to this general rule, since short- to
medium-chain fatty acids, soaps, and some complex
lipids are soluble in water. Hence, solubility in a “lipid
solvent” such as ether, chloroform, benzene, or acetone
is a common but circular defi nition of lipids.
There are four categories of lipids, as classifi ed by
Bloor: simple, compound (complex), derived, and
miscellaneous (Table 6.1). Simple lipids are esters of
fatty acids with various alcohols such as glycerol or
cholesterol. They include triacylglycerols (TAG =
neutral fats and oils), waxes, cholesteryl esters, and
vitamin A and D esters. Compound lipids are esters
of fatty acids in combination with both alcohols and
other groups. They include phospholipids, glycolip-
ids, cerebrosides, sulfolipids, lipoproteins, and lipo-
polysaccharides. Derived lipids are hydrolysis products
of simple or compound lipids, including fatty acids,
monoacylglycerols and diacylglycerols, straight-chain
and ring-containing alcohols, sterols, and steroids.
Miscellaneous lipids include some wax lipids, carot-
enoids, squalene, and vitamins E and K.


Saturated and unsaturated fatty acids


The main components of dietary fat or lipids are fatty
acids varying in length from one to more than 30
carbons. They are carboxylic acids with the structure


RCOOH, where R is hydrogen in formic acid, CH 3 in
acetic acid, or else a chain of one to over 30 CH 2
groups terminated by a CH 3 group. The various
names for individual fatty acids (common, offi cial)
and their abbreviations are complicated, and the use
of one or other form is somewhat arbitrary. The
basic rule for the abbreviations is that there are three
parts: number of carbons, number of double bonds,
and position of the fi rst double bond. Thus,
the common dietary saturated fatty acid palmitate is
16:0 because it has 16 carbons and no double
bonds. The common dietary polyunsaturated fatty
acid linoleate is 18:2n-6 because it has 18 carbons, two
double bonds, and the fi rst double bond is at the sixth
carbon from the methyl-terminal (n-6). Beyond six
carbons in length, most fatty acids have an even
number of carbons (Table 6.2). Older fatty acid ter-
minology referring to saturated or unsaturated
carbons in lipids that still occasionally appears
includes: aliphatic (a saturated carbon), olefi nic (an
unsaturated carbon), allylic (a saturated carbon adja-
cent to an unsaturated carbon), and doubly allylic
carbon (a saturated carbon situated between two
unsaturated carbons).

Table 6.1 Classifi cation of lipids

Simple lipids (fatty acids
esterifi ed with alcohols)

Fats (fatty acids esterifi ed with
glycerol)
Waxes (true waxes, sterol esters,
vitamin A and D esters)
Complex lipids (fatty acids
esterifi ed with alcohols plus
other groups)

Phospholipids (contain
phosphoric acid and, usually,
a nitrogenous base)
Glycolipids (lipids containing a
carbohydrate and nitrogen but
no phosphate and no glycerol)
Sulfolipids (lipids containing a
sulfur group)
Lipoproteins (lipids attached to
plasma or other proteins)
Lipopolysaccharides (lipids
attached to polysaccharides)
Derived lipids (obtained by
hydrolysis of simple or
complex lipids)

Fatty acids (saturated,
monounsaturated, or
polyunsaturated)
Monoacylglycerols and
diacylglycerols
Alcohols (include sterols,
steroids, vitamin D, vitamin A)
Miscellaneous lipids Straight-chain hydrocarbons
Carotenoids
Squalene
Vitamins E and K
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