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

Abstract

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 omega-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, omega-conotoxin MVIIA-reversible calcium flux with high throughput (15,000 data points/day), high quality (Z approximately 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.