Genetically modified plants are an alternative to oily fish for providing n‐3 polyunsaturated fatty acids in the human diet: A summary of the findings of a Biotechnology and Biological Sciences Research Council funded project
Genetically modified plants are an alternative to oily fish for providing n‐3 polyunsaturated fatty acids in the human diet: A summary of the findings of a Biotechnology and Biological Sciences Research Council funded project
The n-3 polyunsaturated fatty acids (PUFA) present primarily in oily fish, namely eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA), are important components of cell membranes and are needed for normal development and cell function. Humans have very limited capacity for EPA and DHA synthesis from α-linolenic acid and so they must be obtained preformed from the diet. However, perceived unpalatability of oily fish and fish oil, concerns about contamination with environmental pollutants, dietary choices that exclude fish and animal products, and price limit the effectiveness of recommendations for EPA and DHA intakes. Moreover, marine sources of EPA and DHA are diminishing in the face of increasing demands. Therefore, an alternative source of EPA and DHA is needed that is broadly acceptable, can be upscaled and is sustainable. This review discusses these challenges and, using findings from recent nutritional trials, explains how they may be overcome by seed oils from transgenic plants engineered to produce EPA and DHA. Trials in healthy men and women assessed the acute uptake and appearance in blood over 8 hours of EPA and DHA from transgenic Camelina sativa compared to fish oil, and the incorporation of these PUFA into blood lipids after dietary supplementation. The findings showed that postprandial EPA and DHA incorporation into blood lipids and accumulation in plasma lipids after dietary supplementation was as good as that achieved with fish oil. The oil derived from this transgenic plant was well tolerated. This review also discusses the implications for human nutrition, marine ecology and agriculture.
Transgenic plant, Omega-3 polyunsaturated fatty acids, human nutrition
60-68
West, Annette
c1923242-802f-4331-b743-31de45d3883c
Miles, Elizabeth
20332899-ecdb-4214-95bc-922dde36d416
Lillycrop, Karen
eeaaa78d-0c4d-4033-a178-60ce7345a2cc
Napier, Johnathan
b3c688c3-f270-4ebb-b9a7-250011c8a960
Calder, Philip
1797e54f-378e-4dcb-80a4-3e30018f07a6
Burdge, Graham
09d60a07-8ca1-4351-9bf1-de6ffcfb2159
1 March 2021
West, Annette
c1923242-802f-4331-b743-31de45d3883c
Miles, Elizabeth
20332899-ecdb-4214-95bc-922dde36d416
Lillycrop, Karen
eeaaa78d-0c4d-4033-a178-60ce7345a2cc
Napier, Johnathan
b3c688c3-f270-4ebb-b9a7-250011c8a960
Calder, Philip
1797e54f-378e-4dcb-80a4-3e30018f07a6
Burdge, Graham
09d60a07-8ca1-4351-9bf1-de6ffcfb2159
West, Annette, Miles, Elizabeth, Lillycrop, Karen, Napier, Johnathan, Calder, Philip and Burdge, Graham
(2021)
Genetically modified plants are an alternative to oily fish for providing n‐3 polyunsaturated fatty acids in the human diet: A summary of the findings of a Biotechnology and Biological Sciences Research Council funded project.
Nutrition Bulletin, 46 (1), .
(doi:10.1111/nbu.12478).
Abstract
The n-3 polyunsaturated fatty acids (PUFA) present primarily in oily fish, namely eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA), are important components of cell membranes and are needed for normal development and cell function. Humans have very limited capacity for EPA and DHA synthesis from α-linolenic acid and so they must be obtained preformed from the diet. However, perceived unpalatability of oily fish and fish oil, concerns about contamination with environmental pollutants, dietary choices that exclude fish and animal products, and price limit the effectiveness of recommendations for EPA and DHA intakes. Moreover, marine sources of EPA and DHA are diminishing in the face of increasing demands. Therefore, an alternative source of EPA and DHA is needed that is broadly acceptable, can be upscaled and is sustainable. This review discusses these challenges and, using findings from recent nutritional trials, explains how they may be overcome by seed oils from transgenic plants engineered to produce EPA and DHA. Trials in healthy men and women assessed the acute uptake and appearance in blood over 8 hours of EPA and DHA from transgenic Camelina sativa compared to fish oil, and the incorporation of these PUFA into blood lipids after dietary supplementation. The findings showed that postprandial EPA and DHA incorporation into blood lipids and accumulation in plasma lipids after dietary supplementation was as good as that achieved with fish oil. The oil derived from this transgenic plant was well tolerated. This review also discusses the implications for human nutrition, marine ecology and agriculture.
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Accepted/In Press date: 26 October 2020
e-pub ahead of print date: 23 December 2020
Published date: 1 March 2021
Keywords:
Transgenic plant, Omega-3 polyunsaturated fatty acids, human nutrition
Identifiers
Local EPrints ID: 444939
URI: http://eprints.soton.ac.uk/id/eprint/444939
ISSN: 0141-9684
PURE UUID: 54d9c8eb-8292-4ef4-889c-a6956f852aa3
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Date deposited: 12 Nov 2020 17:32
Last modified: 17 Mar 2024 03:01
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Author:
Annette West
Author:
Johnathan Napier
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