Loss of Human Beta Cell Identity in a Reconstructed Omental Stromal Cell Environment.

Blandine Secco, Kevin Saitoski, Karima Drareni, Antoine Soprani, Severine Pechberty, Latif Rachdi, Nicolas Venteclef, Raphaël Scharfmann

Cells 2022 Mar 08

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In human type 2 diabetes, adipose tissue plays an important role in disturbing glucose homeostasis by secreting factors that affect the function of cells and tissues throughout the body, including insulin-producing pancreatic beta cells. We aimed here at studying the paracrine effect of stromal cells isolated from subcutaneous and omental adipose tissue on human beta cells. We developed an in vitro model wherein the functional human beta cell line EndoC-βH1 was treated with conditioned media from human adipose tissues. By using RNA-sequencing and western blotting, we determined that a conditioned medium derived from omental stromal cells stimulates several pathways, such as STAT, SMAD and RELA, in EndoC-βH1 cells. We also observed that upon treatment, the expression of beta cell markers decreased while dedifferentiation markers increased. Loss-of-function experiments that efficiently blocked specific signaling pathways did not reverse dedifferentiation, suggesting the implication of more than one pathway in this regulatory process. Taken together, we demonstrate that soluble factors derived from stromal cells isolated from human omental adipose tissue signal human beta cells and modulate their identity.

Citation

Blandine Secco, Kevin Saitoski, Karima Drareni, Antoine Soprani, Severine Pechberty, Latif Rachdi, Nicolas Venteclef, Raphaël Scharfmann. Loss of Human Beta Cell Identity in a Reconstructed Omental Stromal Cell Environment. Cells. 2022 Mar 08;11(6)