A Biological-Systems-Based Analyses Using Proteomic and Metabolic Network Inference Reveals Mechanistic Insights into Hepatic Lipid Accumulation: An IMI-DIRECT Study

  1. Natalie N. Atabaki
  2. Daniel E. Coral
  3. Hugo Pomares-Millan
  4. Kieran Smith
  5. Harry H. Behjat
  6. Robert W. Koivula
  7. Andrea Tura
  8. Hamish Miller
  9. Katherine Pinnick
  10. Leandro Agudelo
  11. Kristine H. Allin
  12. Andrew A. Brown
  13. Elizaveta Chabanova
  14. Piotr J Chmura
  15. Ulrik P. Jacobsen
  16. Adem Y. Dawed
  17. Petra J.M. Elders
  18. Juan J. Fernandez-Tajes
  19. Ian M. Forgie
  20. Mark Haid
  21. Tue H. Hansen
  22. Elizaveta L. Hansen
  23. Angus G. Jones
  24. Tarja Kokkola
  25. Sebastian Kalamajski
  26. Anubha Mahajan
  27. Timothy J. McDonald
  28. Donna McEvoy
  29. Mirthe Muilwijk
  30. Konstantinos D. Tsirigos
  31. Jagadish Vangipurapu
  32. Sabine van Oort
  33. Henrik Vestergaard
  34. Jerzy Adamski
  35. Joline W. Beulens
  36. Søren Brunak
  37. Emmanouil T. Dermitzakis
  38. Giuseppe N. Giordano
  39. Ramneek Gupta
  40. Torben Hansen
  41. Leen t Hart
  42. Andrew T. Hattersley
  43. Leanne Hodson
  44. Markku Laakso
  45. Ruth J.F. Loos
  46. Jordi Merino
  47. Mattias Ohlsson
  48. Oluf Pedersen
  49. Martin Ridderstråle
  50. Hartmut Ruetten
  51. Femke Rutters
  52. Jochen M. Schwenk
  53. Jeremy Tomlinson
  54. Mark Walker
  55. Hanieh Yaghootkar
  56. Fredrik Karpe
  57. Mark I McCarthy
  58. Elizabeth Louise Thomas
  59. Jimmy D. Bell
  60. Andrea Mari
  61. Imre Pavo
  62. Ewan R. Pearson
  63. Ana Viñuela
  64. Paul W. Franks
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Abstract

Objective

To delineate organ-specific and systemic drivers of metabolic dysfunction-associated steatotic liver disease (MASLD), we applied integrative causal inference across clinical, imaging, and proteomic domains in individuals with and without type 2 diabetes (T2D).

Research Design and Methods

We used Bayesian network analyses to quantify causal pathways linking adipose distribution, glycemia, and insulin dynamics with fatty liver using data from the IMI-DIRECT prospective cohort study. Measurements were made of glucose and insulin dynamics (using frequently-sampled metabolic challenge tests), MRI-derived abdominal and liver fat content, serological biomarkers, and Olink plasma proteomics from 331 adults with new-onset T2D and 964 adults free from diabetes at enrolment. The common protocols used in these two cohorts provided the opportunity for replication analyses to be performed. When the direction of the effect could not be determined with high probability through Bayesian networks, complementary two-sample Mendelian randomization (MR) was employed.

Results

High basal insulin secretion rate (BasalISR) was identified as the primary causal driver of liver fat accumulation in both diabetes and non-diabetes. Excess visceral adipose tissue (VAT) was bidirectionally associated with liver fat, indicating a self-reinforcing metabolic loop. Basal insulin clearance (Clinsb) worsened as a consequence of liver fat accumulation to a greater degree before the onset of T2D. Out of 446 analysed proteins, 34 mapped to these metabolic networks and 27 were identified in the non-diabetes network, 18 in the diabetes network, and 11 were common between the two networks. Key proteins directly associated with liver fat included GUSB, ALDH1A1, LPL, IGFBP1/2, CTSD, HMOX1, FGF21, AGRP, and ACE2. Sex-stratified analyses revealed distinct proteomic drivers: GUSB and LEP were most predictive of liver fat in females and males, respectively.

Conclusions

Basal insulin hypersecretion is a modifiable, causal driver of MASLD, particularly prior to glycaemic decompensation. Our findings highlight a multifactorial, sex-and disease-stage–specific proteo-metabolic architecture of hepatic steatosis. Proteins such as GUSB, ALDH1A1, LPL, and IGFBPs warrant further investigation as potential biomarkers or therapeutic targets for MASLD prevention and treatment.

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  1. Version published to 10.1101/2025.06.02.25328773v1 on medRxiv