There is no author summary for this article yet. Authors can add summaries to their articles on ScienceOpen to make them more accessible to a non-specialist audience.
Abstract
Phytosterols (plant sterols) are triterpenes that are important structural components
of plant membranes, and free phytosterols serve to stabilize phospholipid bilayers
in plant cell membranes just as cholesterol does in animal cell membranes. Most phytosterols
contain 28 or 29 carbons and one or two carbon-carbon double bonds, typically one
in the sterol nucleus and sometimes a second in the alkyl side chain. Phytostanols
are a fully-saturated subgroup of phytosterols (contain no double bonds). Phytostanols
occur in trace levels in many plant species and they occur in high levels in tissues
of only in a few cereal species. Phytosterols can be converted to phytostanols by
chemical hydrogenation. More than 200 different types of phytosterols have been reported
in plant species. In addition to the free form, phytosterols occur as four types of
"conjugates," in which the 3beta-OH group is esterified to a fatty acid or a hydroxycinnamic
acid, or glycosylated with a hexose (usually glucose) or a 6-fatty-acyl hexose. The
most popular methods for phytosterol analysis involve hydrolysis of the esters (and
sometimes the glycosides) and capillary GLC of the total phytosterols, either in the
free form or as TMS or acetylated derivatives. Several alternative methods have been
reported for analysis of free phytosterols and intact phytosteryl conjugates. Phytosterols
and phytostanols have received much attention in the last five years because of their
cholesterol-lowering properties. Early phytosterol-enriched products contained free
phytosterols and relatively large dosages were required to significantly lower serum
cholesterol. In the last several years two spreads, one containing phytostanyl fatty-acid
esters and the other phytosteryl fatty-acid esters, have been commercialized and were
shown to significantly lower serum cholesterol at dosages of 1-3 g per day. The popularity
of these products has caused the medical and biochemical community to focus much attention
on phytosterols and consequently research activity on phytosterols has increased dramatically.