Oleic acid restores the rhythmicity of the disrupted circadian rhythm found in gastrointestinal explants from patients with morbid obesity

We investigated whether oleic acid (OA), one of the main components of the Mediterranean diet, participates in the regulation of the intestinal circadian rhythm in patients with morbid obesity. Stomach and jejunum explants from patients with morbid obesity were incubated with oleic acid to analyze t...

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Published inClinical nutrition (Edinburgh, Scotland) Vol. 40; no. 6; pp. 4324 - 4333
Main Authors Lago-Sampedro, Ana, Ho-Plagaro, Ailec, Garcia-Serrano, Sara, Santiago-Fernandez, Concepción, Rodríguez-Díaz, Cristina, Lopez-Gómez, Carlos, Martín-Reyes, Flores, Ruiz-Aldea, Gonzalo, Alcaín-Martínez, Guillermo, Gonzalo, Montserrat, Montiel-Casado, Custodia, Fernández, José R., García-Fuentes, Eduardo, Rodríguez-Pacheco, Francisca
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.06.2021
Subjects
Adult
behavior
Chronobiology
circadian rhythm
Circadian Rhythm - drug effects
Circadian Rhythm - genetics
clinical nutrition
CLOCK Proteins - drug effects
CLOCK Proteins - metabolism
Female
Gastrectomy - adverse effects
Gastric Bypass - adverse effects
Gene Expression Regulation - drug effects
Ghrelin
Ghrelin - genetics
Glucagon-Like Peptide 1 - genetics
Humans
Jejunum
Jejunum - metabolism
Male
Mediterranean diet
Middle Aged
Morbid obesity
obesity
Obesity, Morbid - genetics
Obesity, Morbid - surgery
Oleic acid
Oleic Acid - pharmacology
Postoperative Period
Stomach
Stomach - metabolism
Stomach
Jejunum
Morbid obesity
Chronobiology
Oleic acid
Ghrelin
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Abstract We investigated whether oleic acid (OA), one of the main components of the Mediterranean diet, participates in the regulation of the intestinal circadian rhythm in patients with morbid obesity. Stomach and jejunum explants from patients with morbid obesity were incubated with oleic acid to analyze the regulation of clock genes. Stomach explants showed an altered circadian rhythm in CLOCK, BMAL1, REVERBα, CRY1, and CRY2, and an absence in PER1, PER2, PER3 and ghrelin (p > 0.05). OA led to the emergence of rhythmicity in PER1, PER2, PER3 and ghrelin (p < 0.05). Jejunum explants showed an altered circadian rhythm in CLOCK, BMAL1, PER1 and PER3, and an absence in PER2, REVERBα, CRY1, CRY2 and GLP1 (p > 0.05). OA led to the emergence of rhythmicity in PER2, REVERBα, CRY1 and GLP1 (p < 0.05), but not in CRY2 (p > 0.05). OA restored the rhythmicity of acrophase and increased the amplitude for most of the genes studied in stomach and jejunum explants. OA placed PER1, PER2, PER3, REVERBα, CRY1 and CRY2 in antiphase with regard to CLOCK and BMAL1. There is an alteration in circadian rhythm in stomach and jejunum explants in morbid obesity. OA restored the rhythmicity of the genes related with circadian rhythm, ghrelin and GLP1, although with slight differences between tissues, which could determine a different behaviour of the explants from jejunum and stomach in obesity.
AbstractList We investigated whether oleic acid (OA), one of the main components of the Mediterranean diet, participates in the regulation of the intestinal circadian rhythm in patients with morbid obesity. Stomach and jejunum explants from patients with morbid obesity were incubated with oleic acid to analyze the regulation of clock genes. Stomach explants showed an altered circadian rhythm in CLOCK, BMAL1, REVERBα, CRY1, and CRY2, and an absence in PER1, PER2, PER3 and ghrelin (p > 0.05). OA led to the emergence of rhythmicity in PER1, PER2, PER3 and ghrelin (p < 0.05). Jejunum explants showed an altered circadian rhythm in CLOCK, BMAL1, PER1 and PER3, and an absence in PER2, REVERBα, CRY1, CRY2 and GLP1 (p > 0.05). OA led to the emergence of rhythmicity in PER2, REVERBα, CRY1 and GLP1 (p < 0.05), but not in CRY2 (p > 0.05). OA restored the rhythmicity of acrophase and increased the amplitude for most of the genes studied in stomach and jejunum explants. OA placed PER1, PER2, PER3, REVERBα, CRY1 and CRY2 in antiphase with regard to CLOCK and BMAL1. There is an alteration in circadian rhythm in stomach and jejunum explants in morbid obesity. OA restored the rhythmicity of the genes related with circadian rhythm, ghrelin and GLP1, although with slight differences between tissues, which could determine a different behaviour of the explants from jejunum and stomach in obesity.
We investigated whether oleic acid (OA), one of the main components of the Mediterranean diet, participates in the regulation of the intestinal circadian rhythm in patients with morbid obesity.Stomach and jejunum explants from patients with morbid obesity were incubated with oleic acid to analyze the regulation of clock genes.Stomach explants showed an altered circadian rhythm in CLOCK, BMAL1, REVERBα, CRY1, and CRY2, and an absence in PER1, PER2, PER3 and ghrelin (p > 0.05). OA led to the emergence of rhythmicity in PER1, PER2, PER3 and ghrelin (p < 0.05). Jejunum explants showed an altered circadian rhythm in CLOCK, BMAL1, PER1 and PER3, and an absence in PER2, REVERBα, CRY1, CRY2 and GLP1 (p > 0.05). OA led to the emergence of rhythmicity in PER2, REVERBα, CRY1 and GLP1 (p < 0.05), but not in CRY2 (p > 0.05). OA restored the rhythmicity of acrophase and increased the amplitude for most of the genes studied in stomach and jejunum explants. OA placed PER1, PER2, PER3, REVERBα, CRY1 and CRY2 in antiphase with regard to CLOCK and BMAL1.There is an alteration in circadian rhythm in stomach and jejunum explants in morbid obesity. OA restored the rhythmicity of the genes related with circadian rhythm, ghrelin and GLP1, although with slight differences between tissues, which could determine a different behaviour of the explants from jejunum and stomach in obesity.
We investigated whether oleic acid (OA), one of the main components of the Mediterranean diet, participates in the regulation of the intestinal circadian rhythm in patients with morbid obesity.BACKGROUND & AIMSWe investigated whether oleic acid (OA), one of the main components of the Mediterranean diet, participates in the regulation of the intestinal circadian rhythm in patients with morbid obesity.Stomach and jejunum explants from patients with morbid obesity were incubated with oleic acid to analyze the regulation of clock genes.METHODSStomach and jejunum explants from patients with morbid obesity were incubated with oleic acid to analyze the regulation of clock genes.Stomach explants showed an altered circadian rhythm in CLOCK, BMAL1, REVERBα, CRY1, and CRY2, and an absence in PER1, PER2, PER3 and ghrelin (p > 0.05). OA led to the emergence of rhythmicity in PER1, PER2, PER3 and ghrelin (p < 0.05). Jejunum explants showed an altered circadian rhythm in CLOCK, BMAL1, PER1 and PER3, and an absence in PER2, REVERBα, CRY1, CRY2 and GLP1 (p > 0.05). OA led to the emergence of rhythmicity in PER2, REVERBα, CRY1 and GLP1 (p < 0.05), but not in CRY2 (p > 0.05). OA restored the rhythmicity of acrophase and increased the amplitude for most of the genes studied in stomach and jejunum explants. OA placed PER1, PER2, PER3, REVERBα, CRY1 and CRY2 in antiphase with regard to CLOCK and BMAL1.RESULTSStomach explants showed an altered circadian rhythm in CLOCK, BMAL1, REVERBα, CRY1, and CRY2, and an absence in PER1, PER2, PER3 and ghrelin (p > 0.05). OA led to the emergence of rhythmicity in PER1, PER2, PER3 and ghrelin (p < 0.05). Jejunum explants showed an altered circadian rhythm in CLOCK, BMAL1, PER1 and PER3, and an absence in PER2, REVERBα, CRY1, CRY2 and GLP1 (p > 0.05). OA led to the emergence of rhythmicity in PER2, REVERBα, CRY1 and GLP1 (p < 0.05), but not in CRY2 (p > 0.05). OA restored the rhythmicity of acrophase and increased the amplitude for most of the genes studied in stomach and jejunum explants. OA placed PER1, PER2, PER3, REVERBα, CRY1 and CRY2 in antiphase with regard to CLOCK and BMAL1.There is an alteration in circadian rhythm in stomach and jejunum explants in morbid obesity. OA restored the rhythmicity of the genes related with circadian rhythm, ghrelin and GLP1, although with slight differences between tissues, which could determine a different behaviour of the explants from jejunum and stomach in obesity.CONCLUSIONSThere is an alteration in circadian rhythm in stomach and jejunum explants in morbid obesity. OA restored the rhythmicity of the genes related with circadian rhythm, ghrelin and GLP1, although with slight differences between tissues, which could determine a different behaviour of the explants from jejunum and stomach in obesity.
Author Fernández, José R.
Martín-Reyes, Flores
Lago-Sampedro, Ana
García-Fuentes, Eduardo
Gonzalo, Montserrat
Lopez-Gómez, Carlos
Alcaín-Martínez, Guillermo
Santiago-Fernandez, Concepción
Rodríguez-Pacheco, Francisca
Ho-Plagaro, Ailec
Garcia-Serrano, Sara
Montiel-Casado, Custodia
Rodríguez-Díaz, Cristina
Ruiz-Aldea, Gonzalo
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Issue 6
Keywords Stomach
Jejunum
Morbid obesity
Chronobiology
Oleic acid
Ghrelin
Language English
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Snippet We investigated whether oleic acid (OA), one of the main components of the Mediterranean diet, participates in the regulation of the intestinal circadian...
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SubjectTerms Adult
behavior
Chronobiology
circadian rhythm
Circadian Rhythm - drug effects
Circadian Rhythm - genetics
clinical nutrition
CLOCK Proteins - drug effects
CLOCK Proteins - metabolism
Female
Gastrectomy - adverse effects
Gastric Bypass - adverse effects
Gene Expression Regulation - drug effects
Ghrelin
Ghrelin - genetics
Glucagon-Like Peptide 1 - genetics
Humans
Jejunum
Jejunum - metabolism
Male
Mediterranean diet
Middle Aged
Morbid obesity
obesity
Obesity, Morbid - genetics
Obesity, Morbid - surgery
Oleic acid
Oleic Acid - pharmacology
Postoperative Period
Stomach
Stomach - metabolism
Title Oleic acid restores the rhythmicity of the disrupted circadian rhythm found in gastrointestinal explants from patients with morbid obesity
URI https://www.clinicalkey.com/#!/content/1-s2.0-S026156142100025X
https://dx.doi.org/10.1016/j.clnu.2021.01.015
https://www.ncbi.nlm.nih.gov/pubmed/33531179
https://www.proquest.com/docview/2486141067
https://www.proquest.com/docview/2524279054
Volume 40
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