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Paul Franks

Paul Franks

Principal investigator

Paul Franks

The role of physical activity in metabolic homeostasis before and after the onset of type 2 diabetes : an IMI DIRECT study

Author

  • Robert W. Koivula
  • Naeimeh Atabaki-Pasdar
  • Giuseppe N. Giordano
  • Tom White
  • Jerzy Adamski
  • Jimmy D. Bell
  • Joline Beulens
  • Søren Brage
  • Søren Brunak
  • Federico De Masi
  • Emmanouil T. Dermitzakis
  • Ian M. Forgie
  • Gary Frost
  • Torben Hansen
  • Tue H. Hansen
  • Andrew Hattersley
  • Tarja Kokkola
  • Azra Kurbasic
  • Markku Laakso
  • Andrea Mari
  • Timothy J. McDonald
  • Oluf Pedersen
  • Femke Rutters
  • Jochen M. Schwenk
  • Harriet J.A. Teare
  • E. Louise Thomas
  • Ana Vinuela
  • Anubha Mahajan
  • Mark I. McCarthy
  • Hartmut Ruetten
  • Mark Walker
  • Ewan Pearson
  • Imre Pavo
  • Paul W. Franks

Summary, in English

Aims/hypothesis: It is well established that physical activity, abdominal ectopic fat and glycaemic regulation are related but the underlying structure of these relationships is unclear. The previously proposed twin-cycle hypothesis (TC) provides a mechanistic basis for impairment in glycaemic control through the interactions of substrate availability, substrate metabolism and abdominal ectopic fat accumulation. Here, we hypothesise that the effect of physical activity in glucose regulation is mediated by the twin-cycle. We aimed to examine this notion in the Innovative Medicines Initiative Diabetes Research on Patient Stratification (IMI DIRECT) Consortium cohorts comprised of participants with normal or impaired glucose regulation (cohort 1: N ≤ 920) or with recently diagnosed type 2 diabetes (cohort 2: N ≤ 435). Methods: We defined a structural equation model that describes the TC and fitted this within the IMI DIRECT dataset. A second model, twin-cycle plus physical activity (TC-PA), to assess the extent to which the effects of physical activity in glycaemic regulation are mediated by components in the twin-cycle, was also fitted. Beta cell function, insulin sensitivity and glycaemic control were modelled from frequently sampled 75 g OGTTs (fsOGTTs) and mixed-meal tolerance tests (MMTTs) in participants without and with diabetes, respectively. Abdominal fat distribution was assessed using MRI, and physical activity through wrist-worn triaxial accelerometry. Results are presented as standardised beta coefficients, SE and p values, respectively. Results: The TC and TC-PA models showed better fit than null models (TC: χ2 = 242, p = 0.004 and χ2 = 63, p = 0.001 in cohort 1 and 2, respectively; TC-PA: χ2 = 180, p = 0.041 and χ2 = 60, p = 0.008 in cohort 1 and 2, respectively). The association of physical activity with glycaemic control was primarily mediated by variables in the liver fat cycle. Conclusions/interpretation: These analyses partially support the mechanisms proposed in the twin-cycle model and highlight mechanistic pathways through which insulin sensitivity and liver fat mediate the association between physical activity and glycaemic control.

Department/s

  • Genetic and Molecular Epidemiology
  • EXODIAB: Excellence in Diabetes Research in Sweden
  • EpiHealth: Epidemiology for Health

Publishing year

2020-04

Language

English

Pages

744-756

Publication/Series

Diabetologia

Volume

63

Issue

4

Document type

Journal article

Publisher

Springer

Topic

  • Endocrinology and Diabetes

Keywords

  • Beta cell function
  • Ectopic fat
  • Glycaemic control
  • Insulin sensitivity
  • Physical activity
  • Prediabetes
  • Structural equation modelling
  • Type 2 diabetes

Status

Published

Research group

  • Genetic and Molecular Epidemiology

ISBN/ISSN/Other

  • ISSN: 0012-186X