A Nonadherent Cell-Based HTS Assay for N-Type Calcium Channel Using Calcium 3 Dye

The N-type calcium channel is a member of the voltage-sensitive calcium channel family and plays a major role in the regulation of neurotransmitter release in the central and peripheral nervous systems. Inhibition of the N-type calcium channel by intrathecal administration of the channel-specific blocker ω-conotoxin MVIIA (ziconotide) is efficacious in the treatment of severe chronic pain. While no orally active small molecules that block the N-type calcium channel are currently available, the discovery of such potentially valuable therapeutics would benefit from a reliable, high throughput assay. However, the assay of N-type calcium channel activity by measuring calcium influx using nonadherent cells in a high throughput fashion has not been achieved before, likely owing to a number of technical hurdles. For example, the measurement of calcium levels in nonadherent cells using conventional calcium indicators, such as Fluo-3 or Fluo-4, requires dyeloading the cells in suspension and subsequent removal of extracellular dye. This limits plate throughput and requires constant handling of the cells. To assay the N-type calcium channel activity using a nonadherent cell line in a high throughput manner, we investigated the application of no-wash calcium assay kits from Molecular Devices Corp. (Sunnyvale, CA): FLIPR^® Calcium, FLIPR Calcium Plus, and FLIPR Calcium 3. We show here that the FLIPR Calcium 3 assay kit can be used with nonadherent IMR-32 cells to measure potassium-evoked, ω-conotoxin MVIIA-reversible calcium flux with high throughput (15,000 data points/day), high quality (Z ∼ 0.6), and minimal handling of the cells. Thus, this assay can be used to reliably and efficiently screen large compound libraries in the search for small molecule N-type calcium channel blockers.