Deep phenotyping of patients with MASLD upon high-intensity interval training

Houttu, Veera; Boulund, Ulrika; Troelstra, Marian; Csader, Susanne; Stols-Gonçalves, Daniela; Mak, Anne Linde; van Dijk, Anne-Marieke; Bouts, Julia; Winkelmeijer, Maaike; Verdoes, Xanthe; van den Berg-faay; Sandra; Lek, Donne; Ronteltap, Ted; de Haan, Ferdinand; Jorstad, Harald; Männistö, Ville; Savonen, Kai; Pentikäinen, Heikki; Hanhineva, Kati; Babu, Ambrin Farizah; Panagiotou, Gianni; van Delden, Otto; Verheij, Joanne; Doukas, Michial; Nederveen, Aart; Schwab, Ursula; Grefhorst, Aldo; Nieuwdorp, Max; Holleboom, Adriaan Georgius
Deep phenotyping of patients with MASLD upon high-intensity interval training

Houttu, Veera
Boulund, Ulrika
Troelstra, Marian
Csader, Susanne
Stols-Gonçalves, Daniela
Mak, Anne Linde
van Dijk, Anne-Marieke
Bouts, Julia
Winkelmeijer, Maaike
Verdoes, Xanthe
van den Berg-faay
Sandra
Lek, Donne
Ronteltap, Ted
de Haan, Ferdinand
Jorstad, Harald
Männistö, Ville
Savonen, Kai
Pentikäinen, Heikki
Hanhineva, Kati
Babu, Ambrin Farizah
Panagiotou, Gianni
van Delden, Otto
Verheij, Joanne
Doukas, Michial
Nederveen, Aart
Schwab, Ursula
Grefhorst, Aldo
Nieuwdorp, Max
Holleboom, Adriaan Georgius
Katso/Avaa
Lataukset: 

Elsevier BV
doi:10.1016/j.jhepr.2024.101289
URI
https://doi.org/10.1016/j.jhepr.2024.101289
Näytä kaikki kuvailutiedot
Julkaisun pysyvä osoite on:
https://urn.fi/URN:NBN:fi-fe2025082790198
Tiivistelmä

Background & Aims


Exercise is a key component of lifestyle management in patients with metabolic dysfunction-associated steatotic liver disease (MASLD), but neither its therapeutic effect on the active stage of the disease, that is metabolic dysfunction-associated steatohepatitis (MASH) nor the mediating mechanisms have been characterized. Therefore, we performed multi-omic phenotyping of patients with MASLD-MASH on an exercise program.

Methods

Fifteen patients with MASLD conducted high-intensity interval training (HIIT) combined with home-based training for 12 weeks. MASLD was evaluated using histology, transient elastography, and multiparametric magnetic resonance imaging (MRI) before and after the intervention. Change in maximal oxygen consumption (VO2max) and MRI-determined liver fat were compared with a control group of patients with MASLD (n = 22). RNA sequencing was performed on liver, muscle, and fat biopsies of patients in the exercise group. Stool was analyzed by shotgun metagenomics and untargeted metabolomics was performed on plasma, urine, adipose, and stool.

Results

HIIT increased VO2max by 10.1% and improved mitochondrial metabolism in skeletal muscle, indicating improved cardiorespiratory fitness and adherence. VO2max increased significantly in the exercise group compared with controls. Histologically, no reduction in steatosis, MASH, or liver fibrosis was observed; however, transient elastography tended to improve. MRI-determined liver fat did not change in the exercise group compared with controls. HIIT induced changes in mRNA expression of genes related to beiging of adipose tissue and fibrogenesis in liver. In addition, specific gut microbial taxa and metabolites changed.

Conclusions

HIIT increased cardiorespiratory fitness and induced beneficial gene expression changes in muscle, adipose tissue, and liver, but without translation into histological improvement of MASLD. Longer exercise intervention trials are warranted to validate or refute current recommendations for exercise as a cornerstone treatment for MASLD-MASH.

Kokoelmat