Your search keyword '"Iwona Rudkowska"' showing total 8 results

1. High dairy products intake modifies the correlation between α-tocopherol levels and serum proteins related to lipid metabolism in subjects at risk of type 2 diabetes

Author

Atena Mahdavi, Mickael Leclercq, Antoine Bodein, Clarisse Gotti, Karine Greffard, Jean-François Bilodeau, Arnaud Droit, Michel Lebel, and Iwona Rudkowska

Subjects

Dairy products, Alpha-tocopherol, Serum proteins, Proteomics, Lipid metabolism, Type 2 diabetes, Nutrition. Foods and food supply, TX341-641

Abstract

Increasing dairy fat intake is expected to improve α-tocopherol bioavailability and could be beneficial for improving T2D risk factors. The aim of this study is to investigate the relationship between α-tocopherol levels and serum protein profiles before and after intake of adequate dairy (AD) or high dairy (HD) products in hyperinsulinemia patients. In this crossover study, dietary intake of 25 subjects with hyperinsulinemia (54 ± 14 yrs and BMI 31 ± 3) included: 1- pre-AD intake; 2- pre-HD intake; 3- post- AD intake (≤2 servings/day); and 4- post-HD intake (≥4 servings/day) assessed by food frequency questionnaire. In pre-AD, post-AD and pre-HD, α-tocopherol positively correlated with proteins mainly involved in lipid metabolism (rho > 0.40; P

Published

2023

2. Genome-wide association study of the plasma triglyceride response to an n-3 polyunsaturated fatty acid supplementation[S]

Author

Iwona Rudkowska, Frédéric Guénard, Pierre Julien, Patrick Couture, Simone Lemieux, Olivier Barbier, Philip C. Calder, Anne Marie Minihane, and Marie-Claude Vohl

Subjects

nutrigenetics, single nucleotide polymorphism, responders, fish oil, genetic risk score, Biochemistry, QD415-436

Abstract

Studies have shown a large interindividual variability in plasma TG response to long-chain n-3 PUFA supplementation, which may likely be attributable to genetic variability within the populations studied. The objective is to compare the frequency of SNPs in a genome-wide association study between responders (reduction in plasma TG levels ≥0.01 mM) and nonresponders (increase in plasma TG of ≥0 mM) to supplementation. Genomic DNA from 141 subjects who completed a 2-week run-in period followed by 6-week supplementation with 5 g of fish oil daily (1.9–2.2 g EPA and 1.1 g DHA daily) were genotyped on Illumina HumanOmni-5-QuadBeadChip. Thirteen loci had frequency differences between responders and nonresponders (P < 1 × 10−5), including SNPs in or near IQCJ-SCHIP1, MYB, NELL1, NXPH1, PHF17, and SLIT2 genes. A genetic risk score (GRS) was constructed by summing the number of risk alleles. This GRS explained 21.53% of the variation in TG response to n-3 PUFA supplementation when adjusted for age, sex, and BMI (P = 0.0002). Using Fish Oil Intervention and Genotype as a replication cohort, the GRS was able to explain 2% of variation in TG response when adjusted. In conclusion, subjects who decrease their plasma TG levels following n-3 PUFA supplementation may have a different genetic profile than individuals who do not respond.

Published

2014

3. Polymorphisms, de novo lipogenesis, and plasma triglyceride response following fish oil supplementation

Author

Annie Bouchard-Mercier, Iwona Rudkowska, Simone Lemieux, Patrick Couture, and Marie-Claude Vohl

Subjects

omega-3 polyunsaturated fatty acids, fatty acid biosynthesis, SREBF1, ACACA, ACLY, interindividual variability, Biochemistry, QD415-436

Abstract

Interindividual variability in the response of plasma triglyceride concentrations (TG) following fish oil consumption has been observed. Our objective was to examine the associations between single-nucleotide polymorphisms (SNPs) within genes encoding proteins involved in de novo lipogenesis and the relative change in plasma TG levels following a fish oil supplementation. Two hundred and eight participants were recruited in the greater Quebec City area. The participants completed a six-week fish oil supplementation (5 g fish oil/day: 1.9–2.2 g eicosapentaenoic acid and 1.1 g docosahexaenoic acid. SNPs within SREBF1, ACLY, and ACACA genes were genotyped using TAQMAN methodology. After correction for multiple comparison, only two SNPs, rs8071753 (ACLY) and rs1714987 (ACACA), were associated with the relative change in plasma TG concentrations (P= 0.004 and P= 0.005, respectively). These two SNPs explained 7.73% of the variance in plasma TG relative change following fish oil consumption. Genotype frequencies of rs8071753 according to the TG response groups (responders versus nonresponders) were different (P= 0.02). We conclude that the presence of certain SNPs within genes, such as ACLY and ACACA, encoding proteins involved in de novo lipogenesis seem to influence the plasma TG response following fish oil consumption.

Published

2013

4. Dietary Fatty Acids and the Metabolic Syndrome: A Personalized Nutrition Approach

Author

Sarah O'Connor and Iwona Rudkowska

Subjects

Genetics, 0303 health sciences, Mediterranean diet, 030309 nutrition & dietetics, Biology, medicine.disease, Nutrigenetics, Transcriptome, 03 medical and health sciences, Nutrigenomics, Insulin resistance, medicine, Metabolic syndrome, medicine.symptom, Abdominal obesity, Dyslipidemia

Abstract

Dietary fatty acids are present in a wide variety of foods and appear in different forms and lengths. The different fatty acids are known to have various effects on metabolic health. The metabolic syndrome (MetS) is a constellation of risk factors of chronic diseases. The etiology of the MetS is represented by a complex interplay of genetic and environmental factors. Dietary fatty acids can be important contributors of the evolution or in prevention of the MetS; however, great interindividual variability exists in the response to fatty acids. The identification of genetic variants interacting with fatty acids might explain this heterogeneity in metabolic responses. This chapter reviews the mechanisms underlying the interactions between the different components of the MetS, dietary fatty acids and genes. Challenges surrounding the implementation of personalized nutrition are also covered.

Published

2019

5. List of Contributors

Author

Irene Ai-Ling García Yu, Farhad Alavi, Laila AL-Ayadhi, Marzia Albenzio, Maria J.M. Alférez, Arturo Anadón, Irma Ares, Giovana V. Barancelli, Dale E. Bauman, Kathryn L. Beck, John Birch, Phil Bremer, Keegan Burrow, Kathleen L. Caldwell, Felipe C. Cardoso, Domenico Carminati, Alan Carne, Mariangela Caroprese, Jade Chia, Philip D. Chilibeck, Jane Coad, Robert J. Collier, Giuseppe Conte, Carlos H. Corassin, Marine S. Da Silva, Li Day, Gilberto V. de Melo Pereira, Alejandra de Moreno de LeBlanc, Carlos Augusto F. de Oliveira, Javier Diaz-Castro, Whitney Duff, Alaa El-Din A. Bekhit, Zahra Emam-Djomeh, Maurício J. Fernandes, Carolina M. Galdeano, Rohin Galhotra, Reza Ghiasvand, Bruna L. Gonçalves, Dost M. Halepoto, Kasper Hettinga, Furhan Iqbal, Robert L. Jones, Caroline C. Kalebich, Shrikant D. Kalyankar, Halit Kanca, Rajeev Kapila, Suman Kapila, Humera Khatoon, Chaitali C. Khedkar, Chandraprakash D. Khedkar, Saija Kontulainen, Naresh Kumar, Jean Guy LeBlanc, Sarah H.I. Lee, Romina Levit, Inmaculada López-Aliaga, Amir Makhmudov, María R. Martínez-Larrañaga, María A. Martínez, Sue Mason, Michelle McConnell, Marcello Mele, Maryam Miraghajani, Eliran Mizelman, Mehdi Mohammadian, Jorge Moreno-Fernandez, James D. Morton, Rahela Najam, Ivanna N. Nuñez, Indrawati Oey, Sebnem Ozturkoglu-Budak, Maria G.B. Pagnoncelli, Alyssa M. Parker, Ami R. Patel, Gabriela Perdigón, Paula C. Pereira, Anna N. Polito, Makan Pourmasoumi, Midathala Raghavendra, Ali Rashidinejad, José I. Recio-Rodríguez, Iwona Rudkowska, Maryam Salami, Linda Samuelsson, Natalia Sánchez-Aguadero, Antonella Santillo, Graciela Savoy de Giori, Andrea Serra, Yasser Shahbazi, Hari R. Singal, Carlos R. Soccol, Valcineide O.A. Tanobe, Flavio Tidona, Jayanti Tokas, Nazli Turkmen, Hein van Valenberg, Kathryn A. Vance, Filipa Vicente, Rishika Vij, Ye Wang, Ronald Ross Watson, Yao Xiao, and Wayne Young

Published

2018

6. Macro Components in Dairy and Their Effects on Inflammation Parameters

Author

Marine S. Da Silva and Iwona Rudkowska

Subjects

Whey protein, Conjugated linoleic acid, Adipose tissue, Inflammation, Biology, Systemic inflammation, Glutamine, chemistry.chemical_compound, Biochemistry, chemistry, Valine, medicine, medicine.symptom, Leucine

Abstract

Dairy intake may reduce the risk of cardiometabolic diseases; yet, the underlying mechanisms remain unclear. Dairy benefits could be attributed to an improvement of low-grade systemic inflammation, a key etiologic factor in the development of cardiometabolic diseases. Macronutrients contained in bovine milk include carbohydrates (lactose), fats and proteins. This chapter focuses on animal and cell studies that reported the effect of dairy macronutrients on inflammation in pertinent tissues, such as adipose tissue, endothelium, liver, intestine, as well as immune cells. Conjugated linoleic acids, casein-derived peptides, leucine, cysteine and glutamine may exert antiinflammatory properties. Yet, studies investigating the effect of specific dairy compounds, such as short-chain, medium-chain, and odd-chain saturated fatty acids, ruminant trans-fatty acids, whey protein hydrolysates, isoleucine, valine or combinations of fatty acids and proteins are scarce. Further investigation is required to characterize the contribution of dairy products on inflammatory response.

Published

2017

7. Individualized Weight Management: What Can Be Learned from Nutrigenomics and Nutrigenetics?

Author

Iwona Rudkowska and Louis Pérusse

Subjects

Candidate gene, business.industry, Context (language use), Overweight, Biology, medicine.disease, Obesity, Nutrigenetics, Biotechnology, Nutrigenomics, Environmental health, Weight management, medicine, medicine.symptom, business, Body mass index

Abstract

The rise in the prevalence of obesity observed over the past decades is taken by many as an indication of the predominance of environmental factors (the so-called obesogenic environment) over genetic factors in explaining why obesity has reached epidemic proportions. While a changing environment favoring increased food intake and decreased physical activity levels has clearly contributed to shifting the distribution of body mass index (BMI) at the population level, not everyone is becoming overweight or obese. This suggests that there are genetic factors interacting with environmental factors to predispose some individuals to obesity. This gene-environment interaction is not only important in determining an individual's susceptibility to obesity but can also influence the outcome of weight-loss programs and weight-management strategies in overweight and obese subjects. This chapter reviews the role of gene-nutrient interactions in the context of weight management. The first section reviews the application of transcriptomics in human nutrition intervention studies on the molecular impact of caloric restriction and macronutrient composition. The second section reviews the effects of various obesity candidate gene polymorphisms on the response of body weight or weight-related phenotypes to weight-loss programs which include nutritional interventions.

Published

2012

8. Contributor contact details

Author

C.J.K. Henry, Monika Leonhardt, Wolfgang Langhans, Henk F.J. Hendriks, Gertruud C.M. Bakker, Wilrike J. Pasman, Annette Stafleu, Wendy A.M. Blom, Isabelle Aeberli, Michael B. Zimmermann, Andreu Palou, M. Luisa Bonet, G. Harvey Anderson, Tina Akhavan, Rena Mendelson, Julie-Anne Nazarex, Martine Laville, Costas G. Biliaderis, Athina Lazaridou, Gunilla Önning, Marjatta Salmenkallio-Marttila, Angeliki Triantafyllou, Nathalie M. Delzenne, Patrice D. Cani, Evelyne Delmée, Audrey M. Neyrinck, Anne M. Birkett, Ian L. Brown, Bruce R. Hamaker, Genyi Zhang, Mahesh Venkatachalam, Julian D. Stowell, Gerhard Gerstner, Michael de Vrese, J.L. Sebedio, Maria Sörhede Winzell, Bo Ahrén, Iwona Rudkowska, Peter J.H. Jones, Eckhard Flöter, and Gerrit van Duijn

Published

2007