Biological Role of Unsaturated Fatty Acid Desaturases in Health and Disease

Czumaj, Aleksandra; Śledziński, Tomasz

doi:10.3390/nu12020356

Cited by 81 publications

(52 citation statements)

References 224 publications

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“…In infants, the demand for PUFA is different from adults. Moreover, the genetic makeup may contribute to differences in plasma lipid profiles, since single nucleotide polymorphisms (SNPs) in FADS genes can modulate desaturase activity [30] . Furthermore, pre- (maternal) and postnatal feeding could influence circulating desaturase activity markers.…”

Section: Discussionmentioning

confidence: 99%

Lipid ratios representing SCD1, FADS1, and FADS2 activities as candidate biomarkers of early growth and adiposity

Olga

Diepen²,

Bobeldijk-Pastorova

et al. 2021

EBioMedicine

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Section: Discussionmentioning

confidence: 99%

Lipid ratios representing SCD1, FADS1, and FADS2 activities as candidate biomarkers of early growth and adiposity

Olga

Diepen²,

Bobeldijk-Pastorova

et al. 2021

EBioMedicine

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“…In fatty acid synthesis, both ChREBP and SREBP-1c induce Acc , which encodes an enzyme that is required for the conversion of acetyl CoA to malonyl CoA, and Fasn , which encodes an enzyme that is required for the production of palmitoyl CoA from malonyl CoA and acetyl CoA ( 9 , 10 , 13 , 34 , 51 ). In fatty acid elongation and desaturation, ChREBP induces the expression of the stearoyl CoA desaturase-1 gene ( Scd-1 ) and Elovl6 , both of which are required for the synthesis of monounsaturated fatty acids (MUFAs), while SREBP-1c induces Elovl2 , fatty acid desaturase 1, and fatty acid desaturase 2, which are required for the synthesis of polyunsaturated fatty acids (PUFAs), as well as Scd-1 and Elovl6 ( Figure 2 ) ( 52 – 56 ). Consistent with this, hepatic Chrebp overexpression reduces the concentrations of saturated fatty acids (SFAs), such as palmitic acid (C16:0) and stearic acid (C18:0); and increases that of the MUFA oleic acid (C18:1 n-9) ( 32 , 57 ).…”

Section: Carbohydrate Response Element-binding Protein Regulates Hepamentioning

confidence: 99%

ChREBP-Mediated Regulation of Lipid Metabolism: Involvement of the Gut Microbiota, Liver, and Adipose Tissue

2020

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Carbohydrate response element-binding protein (ChREBP) plays an important role in the development of type 2 diabetes, dyslipidemia, and non-alcoholic fatty liver disease, as well as tumorigenesis. ChREBP is highly expressed in lipogenic organs, such as liver, intestine, and adipose tissue, in which it regulates the production of acetyl CoA from glucose by inducing Pklr and Acyl expression. It has recently been demonstrated that ChREBP plays a role in the conversion of gut microbiota-derived acetate to acetyl CoA by activating its target gene, Acss2, in the liver. ChREBP regulates fatty acid synthesis, elongation, and desaturation by inducing Acc1 and Fasn, elongation of long-chain fatty acids family member 6 (encoded by Elovl6), and Scd1 expression, respectively. ChREBP also regulates the formation of very low-density lipoprotein by inducing the expression of Mtp. Furthermore, it plays a crucial role in peripheral lipid metabolism by inducing Fgf21 expression, as well as that of Angptl3 and Angptl8, which are known to reduce peripheral lipoprotein lipase activity. In addition, ChREBP is involved in the production of palmitic-acid-5-hydroxystearic-acid, which increases insulin sensitivity in adipose tissue. Curiously, ChREBP is indirectly involved in fatty acid β-oxidation and subsequent ketogenesis. Thus, ChREBP regulates whole-body lipid metabolism by controlling the transcription of lipogenic enzymes and liver-derived cytokines.

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“…The results of some studies suggested that the intake of linoleic acid (C18: 2n-6), palmitic acid, and oleic acid which esterified in the sn-2 position on triglycerides correlating to the levels of arachidonic acid (C20: 4n-6), palmitoleic acid (C16: 1n-7) and eicosatrienoic acid (C20: 3n-9) as a result of successive metabolism of linoleic acid, palmitic acid, and oleic acid. It can be seen from the reduced concentration of linoleic acid which is accompanied by increased concentration of arachidonic acid in plasma (Zhang et al 2016;Czumaj and Śledziński 2020). A similar case also occurred in the metabolism of fatty acids in the COST.…”

Section: Effect Of Co and Cost On Bdnf Serummentioning

confidence: 76%

Short communication: Effects of Canarium indicum oil in enhancing brain-derived neurotrophic factor in rats

et al. 2020

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Abstract. Rahman H, Anggadiredja K, Gusdinar T, Sitompul JP, Tursino. 2020. Short communication: Effects of Canarium indicum oil in enhancing brain-derived neurotrophic factor in rats. Nusantara Bioscience 12: 168-174. The brain-derived neurotrophic factor (BDNF) is one of the neurotrophins family and plays an essential role during the development of neurons called neurogenesis. Since BDNF is critical for the function and survival of neurons, thus it represents the neuroprotective agent which useful in preventing neurodegenerative diseases. Here, we investigated BDNF serum concentrations after feeding the canarium oil (CO) and Canarium oil-based structured triglyceride (COST) in rats. Analysis of the BDNF serum was conducted by sandwich enzyme-linked immunosorbent assay (ELISA). The results demonstrated that the CO and the COST with the main composition of unsaturated fatty acids at the sn-2 position as much as 94.92% mol may enhance BDNF serum concentrations of up to 2.66% and 21.96% compared to the normal group of rats, respectively. This finding proves that the COST has prospects as an inducer of BDNF. However, further studies should be conducted to identify the precise dosage and safety products.

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Biological Role of Unsaturated Fatty Acid Desaturases in Health and Disease

Cited by 81 publications

References 224 publications

Lipid ratios representing SCD1, FADS1, and FADS2 activities as candidate biomarkers of early growth and adiposity

Lipid ratios representing SCD1, FADS1, and FADS2 activities as candidate biomarkers of early growth and adiposity

ChREBP-Mediated Regulation of Lipid Metabolism: Involvement of the Gut Microbiota, Liver, and Adipose Tissue

Short communication: Effects of Canarium indicum oil in enhancing brain-derived neurotrophic factor in rats

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