1. Charybdotoxin blocks voltage-gated K+ channels in human and murine T lymphocytes.
- Author
-
Sands, SB, Lewis, RS, and Cahalan, MD
- Subjects
Medical Physiology ,Biomedical and Clinical Sciences ,5.1 Pharmaceuticals ,Underpinning research ,Development of treatments and therapeutic interventions ,1.1 Normal biological development and functioning ,Animals ,Cell Line ,Charybdotoxin ,Humans ,Mice ,Mice ,Inbred BALB C ,Mice ,Inbred C57BL ,Potassium Channels ,Scorpion Venoms ,T-Lymphocytes ,Physiology ,Biochemistry and cell biology ,Zoology ,Medical physiology - Abstract
A variety of scorpion venoms and purified toxins were tested for effects on ion channels in human T lymphocytes, a human T leukemia cell line (Jurkat), and murine thymocytes, using the whole-cell patch-clamp method. Nanomolar concentrations of charbdotoxin (CTX), a purified peptide component of Leiurus quinquestriatus venom known to block Ca2+-activated K+ channels from muscle, blocked "type n" voltage-gated K+ channels in human T lymphoid cells. The Na+ channels occasionally expressed in these cells were unaffected by the toxin. From the time course of development and removal of K+ channel block we determined the rates of CTX binding and unbinding. CTX blocks K+ channels in Jurkat cells with a Kd value between 0.5 and 1.5 nM. Of the three types of voltage-gated K+ channels present in murine thymocytes, types n and n' are blocked by CTX at nanomolar concentrations. The third variety of K+ channels, "type l," is unaffected by CTX. Noxiustoxin (NTX), a purified toxin from Centruroides noxius known to block Ca2+-activated K+ channels, also blocked type n K+ channels with a high degree of potency (Kd = 0.2 nM). In addition, several types of crude scorpion venoms from the genera Androctonus, Buthus, Centruroides, and Pandinus blocked type n channels. We conclude that CTX and NTX are not specific for Ca2+ activated K+ channels and that purified scorpion toxins will provide useful probes of voltage-gated K+ channels in T lymphocytes. The existence of high-affinity sites for scorpion toxin binding may help to classify structurally related K+ channels and provide a useful tool for their biochemical purification.
- Published
- 1989