[Effect of phospholipids containing omega-3 fatty acids on structural changes of microsomal lipids in cell membranes of functionally different cells]. / Vplyv fosfolipidiv, shcho mistiat' omeha-3 zhyrni kysloty, na strukturni zminy lipidiv mikrosom membran klityn, riznykh za funktsiieiu.

As a result of the experimental researches conducted it has been shown that administration of some normal animal marine phospholipids (PL) including in their structure omega-3 polyunsaturated fatty acids (PUFA) provides for quantitative changes of individual PL, fatty acids (FA) content and quantity in general and individual PL of liver, heart, brain and gonads microsomes. While estimating general microsomal PL fraction FA content under the action of PL omega-3 PUFA FA concentration change, unsaturation index (omega 6/omega 3) and relation of arachidonic acid to docosahexenic (AA/DHA) decrease have been identified. The decrease of AA/DHA relationship occurs due to AA and DHA quantitative changes. In the case of AA increase in some tissues there is observed the decrease of docosapentaenic acid and increase of DHA and eucosapentaenic (EPA) acidds. As a result of studying FA content in the individual PL composition it has been identified that certain PL classes characteristic for some tissues respond by changes of some certain FA. The relationship omega 6/omega 3 has been shown as decreasing in phosphatidilcholine (PC) all tissues microsomes (liver, gonads, heart, brain), in phosphatidilethanolamine (PEA) of liver and cardiac microsomes, in phosphatidilserine (PS) this relationship relationship decreases in the liver, brain and heart, for phosphatidilinositole (PI) the changes take place in liver, gonads, brain. Simultaneously, the decrease of AA/DHA relationship in the individual PL decrease of AA and increase of EPA and DHA depend on the tested tissues. The marine phospholipids might be supposed to render their effect on AA metabolism resulting in AA/DHA relationship in PEA and PS relationship displays itself as specific and depends on the tissues functions. The preference of PEA and PS use by certain tissues microsomes could be explained by their membrane protective capability.

[Effect of alpha-tocopherol and phospholipids with omega-3 fatty acids on membrane properties]. / Vplyv alpha-tokoferolu ta fosfolipidiv, shcho mistiat' omega-3-zhyrni kysloty, na vlastyvosti membran.

As a result of the investigations conducted it was displayed, that alpha-tocopherol and phospholipids including into their composition omega-3-acids, differed in their influencing the composition of heart microsomes membranes lipids. The insufficient quantity of vitamin E in the animals ration was defined as leading to the cardiac microsomes lisophospholipids (lisophosphatidylcholin, lisophospatidylethanolamin), diphosphatidylglycerol increase as well as to the tendency to sphingomyeline and phosphatidylethanolamin decrease. While administrating both alpha-tocopherol and the complex of phospholipids with omega-3-fatty acids, the correction of the phospholipids composition microsomes membranes is observed as tending towards their stabilization, however the marine phospholipids complex is more active than alpha-tocopherol. Administration of phospholipids with omega-3-fatty acids during the period of 30 days provided for the increase of relationship: polyunsaturated fatty acids to saturated fatty acids in the cardiac microsomal membranes, evidencing about increasing the unsaturated cellular membranes. While administrating the phospholipids, into the cardiac microsomes the eicozepentaenic acid was identified, failing to be in the norm, docozahexaenic acid content increased. The results obtained testify, that at the pathology there are changes in the quantitative relationship of membrane phospholipids and fatty acids, being a result of changing the biomembranes permeability as well as their functions disturbances. The adverse effect of E-deficiency to the membrane structure was revealed as capable to be regulated by the marine phospholipid complex, including omega-3-fatty acids.