Dynamic changes in β-cell electrical activity and [Ca²⁺] regulates NFATc3 activation and downstream gene transcription

Abstract: AbstractDiabetes results from insufficient insulin secretion as a result of dysfunction to β-cells within the islet of Langerhans. Elevated glucose causes β-cell membrane depolarization and action potential generation, voltage gated Ca2+ channel activation and oscillations in free-Ca2+ activity ([Ca2+]), triggering insulin release. Nuclear Factor of Activated T-cell (NFAT) is a transcription factor that is regulated… Show more

“…rearranging the position of the first responder cells disrupted their consistency. While technically challenging, dissociation of islets post-first responder cell identification, and association of islets into pseudo-islet structures would allow this property to be tested [44]. Nevertheless, we did observe that the first-phase response time is spatially organized within 2-3 cell layers further suggesting spatial positioning is important to generate first responder cells.…”

“…Decreases in Cx36 gap junction conductance (as is observed in first responder cells, Fig.4) would allow the more excitable first responder cells to respond earlier and impact their neighboring cells. Notably elevated electrical activity and [Ca 2+ ] increases GJD2 expression and increases Cx36 gap junction permeability[43], suggesting changes in excitability may mediate such transient activity.…”

Functional architecture of the pancreatic islets reveals first responder cells which drive the first-phase [Ca²⁺] response

“…rearranging the position of the first responder cells disrupted their consistency. While technically challenging, dissociation of islets post-first responder cell identification, and association of islets into pseudo-islet structures would allow this property to be tested [44]. Nevertheless, we did observe that the first-phase response time is spatially organized within 2-3 cell layers further suggesting spatial positioning is important to generate first responder cells.…”

“…Decreases in Cx36 gap junction conductance (as is observed in first responder cells, Fig.4) would allow the more excitable first responder cells to respond earlier and impact their neighboring cells. Notably elevated electrical activity and [Ca 2+ ] increases GJD2 expression and increases Cx36 gap junction permeability[43], suggesting changes in excitability may mediate such transient activity.…”

Functional architecture of the pancreatic islets reveals first responder cells which drive the first-phase [Ca²⁺] response

“…Among other NFAT members, NFATc3 has the highest expression level in human and mouse pancreatic islets [ 5 ] and plays an important role in pancreatic β-cells [ 10 ]. To gain more insight into the nuclear translocation mechanism of NFATc3, we investigated the translocation kinetics of NFATc3 in two distinct phases.…”

“…In excitable cells, NFAT proteins are mainly activated via transmembrane Ca 2+ fluxes through the CaV1 family of L-type voltage-gated Ca 2+ channels [ 7 , 8 ]. However, activation of NFAT proteins via the L-type Ca 2+ channel requires a minimum threshold frequency of Ca 2+ oscillations [ 9 , 10 ]. Interestingly, not all members of the NFAT family are activated by the same frequency of Ca 2+ oscillations through the L-type Ca 2+ channel.…”

“…Interestingly, not all members of the NFAT family are activated by the same frequency of Ca 2+ oscillations through the L-type Ca 2+ channel. For instance, only NFATc2 and NFATc3 proteins were shown to be activated upon glucose-induced Ca 2+ oscillations via L-type Ca 2+ channel in β-cells, indicating the isoform-specific sensitivity for Ca 2+ oscillations [ 10 ].…”

Near-UV Light Induced ROS Production Initiates Spatial Ca2+ Spiking to Fire NFATc3 Translocation