Abstract. The functioning of electroreceptor organs of Ictalurus sp. was investigated by inhibiting synaptic transmission by the administration of tetanus toxin in vitro. A piece of Ictalurus skin of about 20mm diameter was mounted in an Ussing-type chamber. After establishing the normal functioning of the organ, tetanus toxin (TeTx) was applied basolaterally for 150min in 66.7pM and 400pM concentrations, while the single unit nerve activity was recorded extracellularly. Spontaneous spike activity and the sensitivity of the electroreceptor organs were measured. The results show that TeTx reduces sensitivity to less then 20% of its original value, whereas the spontaneous activity is unaffected by the treatment. This indicates that the afferent nerve is capable of generating impulses independent of receptor cell neurotransmitter release. In the discussion we suggest two alternative mechanisms for the emergence of the spontaneous spike activity.