Origin and Fate of Acrolein in Foods

Jiang, Kaiyu; Huang, Caihuan; Liu, Fu; Zheng, Jie; Ou, Juanying; Zhao, Danyue; Ou, Shiyi

doi:10.3390/foods11131976

Cited by 22 publications

(21 citation statements)

References 146 publications

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“…The Ser-sourced 5-formyl-3-methylene-3,6-dihydropyridin occurred in high amounts in all foods, and up to 880.3 μg/kg was detected in biscuits. The contents of interaction products were much higher than those of free ACR and FA, such as ACR in potato crisps (16.3–23.3 μg/kg) . Moreover, their content is also higher than that of the amino acid–ACR adduct by 4-fold and 7–16-fold than alanine- and serine-sourced adducts as we previously reported .…”

Section: Resultssupporting

confidence: 63%

“…In addition, microorganisms used for food fermentation produce ACR from glycerol catalyzed by glycerol/diol dehydratase . In processed foods, especially in thermally processed ones, ACR is generated through the degradation of carbohydrate and methionine, lipid oxidation of polysaturated fatty acids in edible oils, and dehydration of glycerol released from oils. , As a result, ACR is present in almost all kinds of foods, including cheese, beer, fried foods, fruits, vegetables, and codfish fillet. Up to 1000, 11,100, and 198,100 μg/L (kg) ACR have been reported in cheese, whiskey, and frying oils, respectively .…”

Section: Introductionmentioning

confidence: 99%

“…In processed foods, especially in thermally processed ones, ACR is generated through the degradation of carbohydrate and methionine, lipid oxidation of polysaturated fatty acids in edible oils, and dehydration of glycerol released from oils. , As a result, ACR is present in almost all kinds of foods, including cheese, beer, fried foods, fruits, vegetables, and codfish fillet. Up to 1000, 11,100, and 198,100 μg/L (kg) ACR have been reported in cheese, whiskey, and frying oils, respectively . ACR is a public concern because its benchmark dose level (BMDL 10 value, 150 μg/kg BW/day) is 20-fold of the tolerable oral ACR intake (7.5 μg/kg BW/day) …”

Section: Introductionmentioning

confidence: 99%

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Cytotoxicity of a Novel Compound Produced in Foods via the Reaction of Amino Acids with Acrolein along with Formaldehyde

2022

J. Agric. Food Chem.

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Acrolein (ACR) and formaldehyde (FA) are toxic aldehydes co-produced in foods. This work found that amino acids, the nucleophiles ubiquitously existing in foods, can react simultaneously with them. Six amino acids, including γ-aminobutyric acid (GABA), glycine, alanine, serine, threonine, and glutamine, can scavenge ACR and FA at 37, 85, and 160 °C. GABA had the highest scavenging capacity for ACR and FA, by 79 and 13% at 37 °C for 2 h, and 99 and 48% at 160 °C for 30 min, respectively. Moreover, a new type of compound with a basic structure of 5-formyl-3-methylene-3,6-dihydropyridin was identified in all reactions and formed by 1 molecule of FA and amino acid and 2 molecules of ACR. The content of this compound was higher than that of free ACR in typical thermally processed foods. Moreover, the compounds produced from different amino acids showed different cytotoxicity values. In gastric epithelial and human intestinal epithelial cell lines, the cytotoxicity values of serine-sourced and threonine-sourced products were lower than that of ACR but higher than that of FA, whereas others had less toxicity compared with the two aldehydes. Considering that the content of serine-sourced products was the highest in almost all tested foods, their safety needs to be evaluated.

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Section: Resultssupporting

confidence: 63%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Cytotoxicity of a Novel Compound Produced in Foods via the Reaction of Amino Acids with Acrolein along with Formaldehyde

2022

J. Agric. Food Chem.

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“…Acrolein was present in heated vegetable oils, and the amount of acrolein could be 10 times higher after reheating [ 11 ]. Heating oil could reduce the cis-double bond content of triglycerides and increase the formation of trans unsaturated aldehydes such as acrolein [ 12 ]. Furthermore, there were studies that identified the thermal synthesis of acrolein from glucose.…”

Section: Acrolein Sources and Toxicokineticsmentioning

confidence: 99%

The Role of Acrolein in Neurodegenerative Diseases and Its Protective Strategy

Chang

Wang

Zhu

et al. 2022

Foods

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Neurodegenerative diseases are characterized by a massive loss of specific neurons, which can be fatal. Acrolein, an omnipresent environmental pollutant, is classified as a priority control contaminant by the EPA. Evidence suggests that acrolein is a highly active unsaturated aldehyde related to many nervous system diseases. Therefore, numerous studies have been conducted to identify the function of acrolein in neurodegenerative diseases, such as ischemic stroke, AD, PD, and MS, and its exact regulatory mechanism. Acrolein is involved in neurodegenerative diseases mainly by elevating oxidative stress, polyamine metabolism, neuronal damage, and plasma ACR-PC levels, and decreasing urinary 3-HPMA and plasma GSH levels. At present, the protective mechanism of acrolein mainly focused on the use of antioxidant compounds. This review aimed to clarify the role of acrolein in the pathogenesis of four neurodegenerative diseases (ischemic stroke, AD, PD and MS), as well as protection strategies, and to propose future trends in the inhibition of acrolein toxicity through optimization of food thermal processing and exploration of natural products.

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“…The toxicity of acrolein alone has been well-studied. The World Health Organization has classified acrolein as a class 2A carcinogen, and established a provisional tolerable oral acrolein intake of 7.5 μg kg −1 bw day −1 for non-neoplastic effects [ 54 ]. Acrolein produced by GDH-competent intestinal bacteria by metabolizing glycerol can lead to the formation of the acrolein-DNA adduct, which may induce mutations in a model system containing resting cells of L. reuteri in combination with calf thymus DNA or bovine serum albumin.…”

Section: Toxicity Of the Reuterin Systemmentioning

confidence: 99%

Application of the Reuterin System as Food Preservative or Health-Promoting Agent: A Critical Review

Sun

et al. 2022

Foods

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The reuterin system is a complex multi-component antimicrobial system produced by Limosilactobacillus reuteri by metabolizing glycerol. The system mainly includes 3-hydroxypropionaldehyde (3-HPA, reuterin), 3-HPA dimer, 3-HPA hydrate, acrolein and 3-hydroxypropionic acid, and has great potential to be applied in the food and medical industries due to its functional versatility. It has been reported that the reuterin system possesses regulation of intestinal flora and anti-infection, anti-inflammatory and anti-cancer activities. Typically, the reuterin system exerts strong broad-spectrum antimicrobial properties. However, the antimicrobial mechanism of the reuterin system remains unclear, and its toxicity is still controversial. This paper presents an updated review on the biosynthesis, composition, biological production, antimicrobial mechanisms, stability, toxicity and potential applications of the reuterin system. Challenges and opportunities of the use of the reuterin system as a food preservative or health-promoting agent are also discussed. The present work will allow researchers to accelerate their studies toward solving critical challenges obstructing industrial applications of the reuterin system.

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Origin and Fate of Acrolein in Foods

Cited by 22 publications

References 146 publications

Cytotoxicity of a Novel Compound Produced in Foods via the Reaction of Amino Acids with Acrolein along with Formaldehyde

Cytotoxicity of a Novel Compound Produced in Foods via the Reaction of Amino Acids with Acrolein along with Formaldehyde

The Role of Acrolein in Neurodegenerative Diseases and Its Protective Strategy

Application of the Reuterin System as Food Preservative or Health-Promoting Agent: A Critical Review

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