The Plant Alkaloid Harmaline Blocks the Voltage-Gated Sodium Channel Na1.7: A Study Using an Automated Patch-Clamp.

The voltage-gated sodium channel Na1.7 is essential for pain perception and is an interesting target for the development of pain-relieving substances. Here, we investigated whether the Na1.7 channel is sensitive to harmaline, an alkaloid produced by the North African plant . To this end, we used Chinese hamster ovary (CHO) cells expressing the human Na1.7 channel and studied Na channel pharmacology with an automated patch-clamp technique. Cells stimulated with depolarizing voltage pulses responded with typical transient inward currents. The Na channel blocker ranolazine inhibited whole-cell currents in a concentration-dependent manner (IC: 12.1 µM). Harmaline inhibited both peak and late Na currents. A complete block was achieved at 300 µM of harmaline, with half maximum inhibition occurring at 35.5 µM. In contrast to ranolazine, the effect of harmaline was voltage independent. Neither the current/voltage curves nor the steady-state inactivation curves were shifted in response to drug application (30 µM). We conclude that the plant alkaloid harmaline, which is used in traditional medicine in North Africa, is an effective blocker of the voltage-gated Na channel Na1.7. Our results offer a rationale for the use of harmaline against certain pain syndromes and rise hopes for the development of a new class of anti-nociceptive drugs targeting Na1.7.