Physiome
Browse
DOCUMENT
Afshar2023PhysiomeS000022.pdf (1.71 MB)
.OMEX
Afshar2023PhysiomeS000022.omex (52.17 kB)
1/0
2 files

Reproducibility Study of Computational Modelling of Glucose Uptake by SGLT1 and GLUT2 in the Enterocyte

journal contribution
posted on 2023-01-19, 22:31 authored by Nima Afshar, Soroush SafaeiSoroush Safaei, David NickersonDavid Nickerson, Peter J. Hunter, Vinod Suresh
Many researchers in the last couple of decades have suggested that glucose absorption in the small intestine depends on both constitutively expressed SGLT1 and translocated GLUT2 in the brush border membrane, especially in the presence of a high concentration of luminal glucose. Afshar et al. generated a computational model of non-isotonic glucose uptake by small intestinal epithelial cells. The model incorporates apical uptake via SGLT1 and GLUT2, basolateral efflux into the blood via GLUT2 and cellular volume changes in response to non-isotonic conditions. The dependence of glucose absorption on luminal glucose, blood flow rate, and inlet blood glucose concentration is studied, and the results explain more about the role of apical GLUT2 in intestinal cell glucose absorption. Here, we used the CellML file provided by the model authors, together with SED-ML files and Python scripts, to demonstrate the reproduction of the figures in the original paper by using the associated model.

Funding

Ministry of Business, Innovation and Employment: Catalyst Strategic Fund (12 Labours)

History

Commissions

  • VI. Molecular & Cellular

ISSN

2744-6204

Journal Title

Physiome

Citations

1. The matlab ode suite. Journal: SIAM journal on scientific computing. Shampine, Lawrence F and Reichelt, Mark W. Volume: 18. Year: 1997.