Small things matter: Lack of extra-islet beta cells in Type 1 diabetes

  1. Kathryn Murrall
  2. Teifion Luckett
  3. Christiana Lekka
  4. Christine S. Flaxman
  5. Rebecca Wyatt
  6. Pouria Akhbari
  7. Irina Kusmartseva
  8. Stephanie L. Hunter
  9. Pia Leete
  10. Isabel Burn
  11. Elena Osokina
  12. EXE-T1D consortium
  13. James A. M. Shaw
  14. Noel G. Morgan
  15. Sarah J. Richardson
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Abstract

Recent 3D analyses reported abundant, small beta-cell-rich endocrine objects (EOs) in the human pancreas. Here, we assessed morphological parameters of >262,000 EOs in pancreas sections from 220 donors with or without type 1 diabetes (T1D), ranging in age and disease duration. We observe many insulin (Ins)+/glucagon (Gluc)-EOs in donors without diabetes. Their relative contribution to the total endocrine area is greatest in early life (0-2y) but reduces thereafter. Strikingly, we show the virtual absence of Ins+Gluc- EOs in individuals with T1D, where only the medium and large EOs retain beta cells. We also report a lower EO density in T1D, especially in individuals diagnosed in early life. These findings suggest that extra-islet beta cells are impacted in the development of T1D, and their early loss is a characteristic feature. This new understanding has important implications for defining beta-cell mass, which may inform future screening and treatment strategies in T1D.

Highlights

  • The present extensive 2D studies confirm and extend recent 3D analyses of human pancreata, demonstrating that 50% of endocrine objects (EOs) are much smaller than classical islets of Langerhans and consist predominantly of beta cells (Ins+).

  • Small insulin+ EOs comprise the largest proportion of the total endocrine area in early childhood and persist throughout the life course in donors without diabetes.

  • There is a shift towards larger EO size with increasing age, with the most pronounced changes in size occurring in the first few years of life.

  • Small Ins+ EOs are virtually absent in individuals with type 1 diabetes, while the persisting EOs with beta cells are larger, suggesting a selective destruction of beta cells in small EOs.

  • Development of type 1 diabetes, particularly at an early age, is associated with fewer larger EOs in adulthood. This implies that the lack or early destruction of small Ins+ EOs may be detrimental to the generation of larger EOs.

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  1. Version published to 10.1101/2025.04.11.648319v1 on bioRxiv