Calcium chelation independent effects of BAPTA on endogenous ANO6 channels in HEK293T cells.

Selective calcium chelator 1,2-Bis(2-aminophenoxy) ethane-N,N,N',N'-tetraacetic acid (BAPTA) is a common tool to investigate calcium signaling. However, BAPTA expresses various effects on intracellular calcium signaling, which are not related to its ability to bind Ca2+. In patch clamp experiments, we investigated calcium chelation independent effects of BAPTA on endogenous calcium-activated chloride channels ANO6 (TMEM16F) in HEK293T cells. We have found that application of BAPTA to intracellular solution led to two distinct effects on channels properties. On the one hand, application of BAPTA acutely reduced amplitude of endogenous ANO6 channels induced by 10 µM Ca2+ in single channel recordings. On the other hand, BAPTA application by itself induced ANO6 channel activity in the absence of the intracellular calcium elevation. Open channel probability was enhanced by increasing the intracellular BAPTA concentration from 0.1 to 1 and 10 mM. Another calcium chelator EGTA did not demonstrate chelation independent effects on the ANO6 activity in the same conditions. Due to off-target effects BAPTA should be used with caution when studying calcium-activated ANO6 channels.

Increased Calcium Influx through L-Type Calcium Channels in Hippocampal Neurons with Exogenous Expression of Presenilin-1 ΔE9 Mutant.

Mutations in the PSEN1 gene encoding presenilin-1 (PS1) protein are the most common cause of familial Alzheimer's disease. One of these, deletion of exon 9, results in the production of shortened PS1 protein (PS1ΔE9). Neuronal hyperexcitability and hyperactivation of L-type calcium channels were observed in cellular and animal models of familial Alzheimer's disease. However, the effect of PS1ΔE9 on L-type calcium channels has not been studied before. We demonstrate enhanced calcium entry through L-type calcium channels in hippocampal mouse neurons with exogenous expression of PS1ΔE9. Additionally, we show that the same effect of the exogenous PS1ΔE9 can be observed in cells with predominant expression of L-type calcium channels subunit Cav1.2. Further research is required to unravel molecular mechanisms underlying hyperactivation L-type calcium channels caused by PS1ΔE9 expression.

Homer 1a Induces Calcium Channel Activation, but Does Not Change Their Properties in A431 Cells.

Store-operated channels activated in response to intracellular calcium store depletion represent the main pathway of calcium entry from the extracellular space in nonelectroexcitable cells. Adapter proteins organize the components of this system into integral complex. We studied the influence of adapter proteins of the Homer family on endogenous store-operated calcium Imin channels in A431 cells. Monomeric Homer 1a proteins increase activity of Imin channels, but did not modulate their electrophysiological properties. Recombinant Homer 1c protein did not block the induced calcium currents.