1749-P: Influence of the Biomechanical Environment on Islet Function and Maturity

Abstract

It is well-established that cells respond to mechanical cues via cytoskeletal remodeling. However, it is not known whether the mechanical environment influences β-cell maturity and function. To examine how mechanical cues influence the β-cell, we used biocompatible substrates with tunable mechanical properties synthesized with elastic moduli ranging from ~3kPa-33 kPa. The surface was coated with extracellular matrix and MIN6 β-like cells were seeded. To independently examine a link between β-cell function and maturity, we examined islets from mice in which β-cells express CaMPARI, a photoconvertible fluorescent protein that in the presence of high Ca2+ activity changes from green to red. For all conditions in MIN6 cells and CAMPARI-expressing islets, we imaged Ca2+ dynamics via Fluo4 at low (2mM) and high glucose (11, 20mM). qPCR was conducted on MIN6 cells (6, 22 kPa) and flow-sorted CaMPARI-expressing β-cells (green, red) to examine expression of genes linked to β-cell function and maturity. With increased substrate stiffness, MIN6 cell Ca2+ oscillations were more robust, including a significant increase in duty cycle (p<0.01) and were more coordinated, consistent with increased excitability. With increasing stiffness, there was significantly decreased expression of Sur1, Kir6.2, Ins2, Pdx1, Fltp, and Ecad (p<0.01). Thus, the dynamics and coordination of Ca2+ activity is mechanoresponsive and may result from altered β-cell maturity. In CaMPARI islets, Ca2+ oscillations were more robust and coordinated for photo-converted red cells which marks cells with higher Ca2+, compared to green cells. In these red cells that show higher Ca2+, qPCR showed significantly increased expression of cFos, but decreased expression of Pdx1 and Ins2, again showing more excitable cells showed altered maturity. In conclusion, our results suggest there may be an inverse relationship between β-cell maturity and function. Further, that the maturity and function of β-cells is responsive to the mechanical environment. Disclosure K.Vazquez: None. R.K.Benninger: None. Funding National Institutes of Health (R01DK102950, R01DK106412)