Differential Mitochondrial Gene Expression in Adipose Tissue Following Weight Loss Induced by Diet or Bariatric Surgery

van der Kolk Birgitta W.; Muniandy Maheswary; Kaminska Dorota; Alvarez Marcus; Ko Arthur; Miao Zong; Valsesia Armand; Langin Dominique; Vaittinen Maija; Pääkkönen Mirva; Jokinen Riikka; Kaye Sanna; Heinonen Sini; Virtanen Kirsi A.; Andersson Daniel P.; Männistö Ville; Saris Wim H.; Astrup Arne; Rydén Mikael; Blaak Ellen E.; Pajukanta Päivi; Pihlajamäki Jussi; Pietiläinen Kirsi H.

Differential Mitochondrial Gene Expression in Adipose Tissue Following Weight Loss Induced by Diet or Bariatric Surgery

van der Kolk Birgitta W.; Muniandy Maheswary; Kaminska Dorota; Alvarez Marcus; Ko Arthur; Miao Zong; Valsesia Armand; Langin Dominique; Vaittinen Maija; Pääkkönen Mirva; Jokinen Riikka; Kaye Sanna; Heinonen Sini; Virtanen Kirsi A.; Andersson Daniel P.; Männistö Ville; Saris Wim H.; Astrup Arne; Rydén Mikael; Blaak Ellen E.; Pajukanta Päivi; Pihlajamäki Jussi; Pietiläinen Kirsi H.

Differential Mitochondrial Gene Expression in Adipose Tissue Following Weight Loss Induced by Diet or Bariatric Surgery

van der Kolk Birgitta W.

Muniandy Maheswary

Kaminska Dorota

Alvarez Marcus

Ko Arthur

Miao Zong

Valsesia Armand

Langin Dominique

Vaittinen Maija

Pääkkönen Mirva

Jokinen Riikka

Kaye Sanna

Heinonen Sini

Virtanen Kirsi A.

Andersson Daniel P.

Männistö Ville

Saris Wim H.

Astrup Arne

Rydén Mikael

Blaak Ellen E.

Pajukanta Päivi

Pihlajamäki Jussi

Pietiläinen Kirsi H.

Katso/Avaa

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Lataukset:

Oxford University Press

doi:10.1210/clinem/dgab072

URI

https://academic.oup.com/jcem/article/106/5/1312/6131733

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Julkaisun pysyvä osoite on:
https://urn.fi/URN:NBN:fi-fe2021093048063

Tiivistelmä

Context

Mitochondria are essential for cellular energy homeostasis, yet their role in subcutaneous adipose tissue (SAT) during different types of weight-loss interventions remains unknown.

Objective

To investigate how SAT mitochondria change following diet-induced and bariatric surgery–induced weight-loss interventions in 4 independent weight-loss studies.

Methods

The DiOGenes study is a European multicenter dietary intervention with an 8-week low caloric diet (LCD; 800 kcal/d; n = 261) and 6-month weight-maintenance (n = 121) period. The Kuopio Obesity Surgery study (KOBS) is a Roux-en-Y gastric bypass (RYGB) surgery study (n = 172) with a 1-year follow-up. We associated weight-loss percentage with global and 2210 mitochondria-related RNA transcripts in linear regression analysis adjusted for age and sex. We repeated these analyses in 2 studies. The Finnish CRYO study has a 6-week LCD (800-1000 kcal/d; n = 19) and a 10.5-month follow-up. The Swedish DEOSH study is a RYGB surgery study with a 2-year (n = 49) and 5-year (n = 37) follow-up.

Results

Diet-induced weight loss led to a significant transcriptional downregulation of oxidative phosphorylation (DiOGenes; ingenuity pathway analysis [IPA] z-scores: −8.7 following LCD, −4.4 following weight maintenance; CRYO: IPA z-score: −5.6, all P < 0.001), while upregulation followed surgery-induced weight loss (KOBS: IPA z-score: 1.8, P < 0.001; in DEOSH: IPA z-scores: 4.0 following 2 years, 0.0 following 5 years). We confirmed an upregulated oxidative phosphorylation at the proteomics level following surgery (IPA z-score: 3.2, P < 0.001).

Conclusions

Differentially regulated SAT mitochondria-related gene expressions suggest qualitative alterations between weight-loss interventions, providing insights into the potential molecular mechanistic targets for weight-loss success.

Kokoelmat

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