Heteroscodratoxin-1

Heteroscodratoxin-1 is a neurotoxin produced by the venom glands of Heteroscodra maculata that shifts the activation threshold of voltage-gated potassium channels and the inactivation of Nav1.1 sodium channels to more positive potentials.

Chemistry

Heteroscodratoxin-1 is a basic protein composed of 35 amino acids with a carboxylated C-terminus. Its sequence shows strong similarity with other tarantula toxins such as scodratoxin, hanatoxin and SGTx1. Structurally the protein belongs to the huwentoxin-1 family of inhibitory spider peptides based on its knottin backbone that consists of three crossing disulfide bridges.
Hm1a has the following amino acid sequence: ECRYLFGGCSSTSDCCKHLSCRSDWKYCAWDGTFS. Its molecular weight is 3,995.61 Da.

Target

Heteroscodratoxin-1 inhibits subtypes of both delayed rectifier and A-type rapidly inactivating voltage-gated potassium channels.
At a concentration of 100-300 nM, in transfected COS cells it blocks 23% of K_V2.1, 19% of K_V2.2, 50% of K_V4.1, 39% of K_V4.2, and 43% of K_V4.3 conductance at a potential of 0 mV. No significant effect on other A-type rapidly inactivating or delayed rectifier potassium channels, or on sodium and calcium channels has been observed.
Physiologically probably more important than its action on potassium channels is its action on the voltage-gated sodium channel Na_v1.1. More specifically, it is thought that Hm1a targets the domain IV S3-S4 loop and the S1-S2 loop of Na_v1.1, as application of this toxin to a chimeric channel which contained these regions resulted in full toxin sensitivity. This, therefore, indicates that both the S1-S2 and the S3-S4 domains determine toxin sensitivity and selectivity.
Hm1a enhances the Na_v1.1 channel activity by inhibiting fast and slow inactivation of the channel. Hm1a prevents the movement of the voltage sensor domain IV. Hm1a and Hm1b prevent the movement of the sensor domain towards the inner part of the cell thereby inhibiting fast inactivation of the Na_v1.1 channel. Hm1a also inhibits the slow inactivation of the Na_v1.1 channel by preventing a current reduction in the ion channel, but the underlying mechanism has not yet been elucidated.

Mode of action

It is thought that heteroscodratoxin-1 modifies gating of specific potassium channels by shifting the activation threshold to more positive values. As a result larger depolarizations are needed to open channels. The mechanism underlying this modification has been largely elucidated using molecular docking simulation for the K_V2.1 potassium channel which is highly expressed in mammalian neurons and interacts strongly with heteroscodratoxin-1. In this model the C-terminal residue of the K_V2.1 S3-segment serves as a binding site for Hmtx-1 forming both hydrophobic and hydrophilic bonds. Interaction between the toxin and the potassium channel induces a helical movement of S3_C resulting in limited spatial freedom of the S4-segment which is responsible for channel gating.

Toxicity

Information on toxic effects of Heteroscodratoxin-1 in humans is not available. In mice, however, it has been found that intracerebroventricular injection of 500 pmol HmTx1 induces convulsions, spasms, tremors and death within 1 hour. At 100 pmol, a less severe response develops, although death still occurs after 2 hours.