tina sui
(Tina Sui)
#1
This has resulted in strong demands for their concentrates by the pharmaceutical
industry, as well as the health food industry, as food supplements. In this chapter, the
involvement and use of lipase in the n-3 field will be discussed. First, their applica-
tion will be put in perspective with recent development and demand for various
concentration forms of EPA and DHA and how they have found use in concentrating
EPA and DHA in fish oil. Also, how they can be utilized to prepare structurally
labeled lipids and finally, their role in the synthesis of various lipid forms containing
EPA and DHA. More details are provided in the divided (though by no means ex-
haustive) review sessions, where our own contributions in the field are discussed in
more detail and put into context with other related work.
10.2 Recent developments and role of lipase
in the n-3 field
Concentrates of EPA and DHA first appeared on the market in the early 1980s. Max
EPAwas the first dietary n-3 supplement product on the market containing 18 % EPA
and 12 % DHA in the natural TG form (Seven Seas, 1994). It has been widely used
for various clinical studies for more than 15 years. TG up to the level of 30 %
EPA+DHA can be prepared directly from fish oils without splitting the fat by a
careful selection of fish oils and various methods such as winterization, molecular
distillation and solvent crystallization (Ackman, 1988; Breivik and Dahl, 1992).
Concentration beyond that level on the TG form is difficult, as it requires a cleavage
of the fatty acids off the acylglycerols, either as free acids or monoesters. Various
physical methods and combination of methods are available for concentrating EPA
and DHA once released. Molecular distillation, supercritical fluid extraction and
urea complexation can be used to concentrate them to the 50–85 % level. Concen-
tration beyond the 90 % level and separation and purification of EPA and DHA
requires more specific methods based on HPLC (Breivik et al., 1997). Awhole range
of monoester concentrates of EPA and DHA are now commercially available, usually
as ethyl esters, some of which have been registered as drugs in various countries.
Resynthesis of TG highly enriched with EPA and DHA from the concentrates is by
no means easy by traditional chemical esterification methods based on Lewis acid or
alkoxide catalysis. The highly labile n-3 PUFA are very sensitive against the rather
drastic conditions offered by these traditional methods. The all-cisn-3 framework
makes them extremely prone to oxidation,cis-transisomerization, double-bond mi-
gration, or polymerization. Despite that, some European companies have recently
launched onto the market a whole variety of TG concentrates comprising 50–
70 % EPA+DHA. These products usually constitute a mixture of roughly 55 %
TG, 35–40 % diacylglycerols (DG) and 5–10 % monoacylglycerols (MG), which
apparently reflects some compromise between efficiency and lability in their pro-
duction.
Recently, lipases have been introduced to the n-3 field to solve these problems
(Haraldsson and Hjaltason, 1992). These enzymes offer a high efficiency and mild-
ness, and their application in organic media is now firmly established (Bornscheuer
10.2 Recent developments and role of lipase in the n-3 field 171
