Upregulation of an inward rectifying K+ channel can rescue slow Ca2+ oscillations in K(ATP) channel deficient pancreatic islets

doi:10.1371/journal.pcbi.1005686

Upregulation of an inward rectifying K⁺ channel can rescue slow Ca²⁺ oscillations in K(ATP) channel deficient pancreatic islets

Fig 9

The model KO cell can produce bursting with upregulation of a constant-conductance (leak) K⁺ current and a K(Ca) conductance: g_leak = 32.5 pS, g_K(Ca) = 90 pS.

(A) Negative feedback of c (black) on the membrane potential and slow c_er (blue) oscillations drive bursting. (B) The fast-subsystem bifurcation diagram exhibits an interval of bistability between the saddle-node bifurcation SN2 and the homoclinic bifurcation HC. (C) A projection of the burst trajectory. (D) Fast/slow analysis, with the burst trajectory (red) and the c_er nullcline (magenta) superimposed on the fast-subsystem bifurcation diagram. The trajectory moves leftward during the silent phase and rightward during the active phase.

doi: https://doi.org/10.1371/journal.pcbi.1005686.g009