The Association of Nε-Carboxymethyllysine With Polyunsaturated and Saturated Fatty Acids in Healthy Individuals

Abstract Red blood cell (RBC) fatty acid status is used as a biomarker of dietary intake of fats; however, there is still a paucity of evidence regarding individual fatty acids and modulation of endogenous advanced glycation end product (AGE) levels. Due to membrane polyunsaturated fatty acid (PUFA)...

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Published in:The journals of gerontology. Series A, Biological sciences and medical sciences Biological sciences and medical sciences, 2022-03, Vol.77 (3), p.462-470
Main Authors: Deo, Permal, Dhillon, Varinderpal S, Thomas, Philip, Fenech, Michael
Format: Article
Language:English
Subjects:
Arachidonic Acid
Biomarkers
Body mass index
Dietary Fats - metabolism
Dietary intake
Erythrocytes
Fatty Acids
g-linolenic acid
Gender
Glycosylation
Humans
Linolenic acid
Lysine - analogs & derivatives
Multiple regression analysis
Palmitic acid
Peroxidation
Polyunsaturated fatty acids
Regression analysis
Stearic acid
Stearic Acids
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Dhillon, Varinderpal S
Thomas, Philip
Fenech, Michael
description Abstract Red blood cell (RBC) fatty acid status is used as a biomarker of dietary intake of fats; however, there is still a paucity of evidence regarding individual fatty acids and modulation of endogenous advanced glycation end product (AGE) levels. Due to membrane polyunsaturated fatty acid (PUFA) being a well-known target for peroxidation, we hypothesized that cellular PUFAs are positively associated with circulatory Nε-carboxymethyllysine (CML) that is also influenced by glyoxal levels in healthy cohorts. To test this, we investigated the association between RBC fatty acids and circulatory AGE biomarkers in healthy individuals. The results showed a negative association between saturated fatty acids (SFA) and CML, and stepwise multivariate regression analysis indicated that stearic acid was negatively associated with CML levels (β = −0.200, p = .008) after adjusting for age, body mass index (BMI), and gender. In addition, stearic acid:palmitic acid ratio was also negatively correlated with plasma concentrations of CML (rp = −.191, p = .012) and glucose (rp = −.288, p = .0001). PUFAs showed a positive association with CML levels, particularly docosapentaenoic acid, γ-linolenic acid, arachidonic acid, and docosadienoic acid. However, these associations were not evident after the multiple regression analysis adjusted for age, BMI, and gender. A strong negative correlation (rp = −.98, p < .0001) between total PUFA and total SFA was observed. Furthermore, the SFA:PUFA ratio was inversely correlated with CML (rp = −.227, p < .003). Overall, this study indicates that different fats and their combinations may influence the formation of AGEs and that carefully controlled interventions are required to further test this hypothesis.
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Due to membrane polyunsaturated fatty acid (PUFA) being a well-known target for peroxidation, we hypothesized that cellular PUFAs are positively associated with circulatory Nε-carboxymethyllysine (CML) that is also influenced by glyoxal levels in healthy cohorts. To test this, we investigated the association between RBC fatty acids and circulatory AGE biomarkers in healthy individuals. The results showed a negative association between saturated fatty acids (SFA) and CML, and stepwise multivariate regression analysis indicated that stearic acid was negatively associated with CML levels (β = −0.200, p = .008) after adjusting for age, body mass index (BMI), and gender. In addition, stearic acid:palmitic acid ratio was also negatively correlated with plasma concentrations of CML (rp = −.191, p = .012) and glucose (rp = −.288, p = .0001). PUFAs showed a positive association with CML levels, particularly docosapentaenoic acid, γ-linolenic acid, arachidonic acid, and docosadienoic acid. However, these associations were not evident after the multiple regression analysis adjusted for age, BMI, and gender. A strong negative correlation (rp = −.98, p &lt; .0001) between total PUFA and total SFA was observed. Furthermore, the SFA:PUFA ratio was inversely correlated with CML (rp = −.227, p &lt; .003). 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The results showed a negative association between saturated fatty acids (SFA) and CML, and stepwise multivariate regression analysis indicated that stearic acid was negatively associated with CML levels (β = −0.200, p = .008) after adjusting for age, body mass index (BMI), and gender. In addition, stearic acid:palmitic acid ratio was also negatively correlated with plasma concentrations of CML (rp = −.191, p = .012) and glucose (rp = −.288, p = .0001). PUFAs showed a positive association with CML levels, particularly docosapentaenoic acid, γ-linolenic acid, arachidonic acid, and docosadienoic acid. However, these associations were not evident after the multiple regression analysis adjusted for age, BMI, and gender. A strong negative correlation (rp = −.98, p &lt; .0001) between total PUFA and total SFA was observed. Furthermore, the SFA:PUFA ratio was inversely correlated with CML (rp = −.227, p &lt; .003). 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source Oxford Journals Online
subjects Arachidonic Acid
Biomarkers
Body mass index
Dietary Fats - metabolism
Dietary intake
Erythrocytes
Fatty Acids
g-linolenic acid
Gender
Glycosylation
Humans
Linolenic acid
Lysine - analogs & derivatives
Multiple regression analysis
Palmitic acid
Peroxidation
Polyunsaturated fatty acids
Regression analysis
Stearic acid
Stearic Acids
title The Association of Nε-Carboxymethyllysine With Polyunsaturated and Saturated Fatty Acids in Healthy Individuals
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