We determined the relationships between the intracellular free Ca2+ co
ncentration ([Ca2+](i)) and the membrane potential (E(m)) of six diffe
rent neurones in the leech central nervous system: Retzius, 50 (Leydig
), AP, AE, P, and N neurones. The [Ca2+](i) was monitored by using ion
tophoretically injected fura-2. The membrane depolarization evoked by
raising the extracellular K+ concentration ([K+](o)) up to 89 mM cause
d a persistent increase in [Ca2+](i), which was abolished in Ca2+-free
solution indicating that it was due to Ca2+ influx. The threshold mem
brane potential that must be reached in the different types of neurone
s to induce a [Ca2+](i) increase ranged between -40 and -25 mV. The di
fferent threshold potentials as well as differences in the relationshi
ps between [Ca2+](i) and E(m) were partly due to the cell-specific gen
eration of action potentials. In Na+-free solution, the action potenti
als were suppressed and the [Ca2+](i)/E(m) relationships were similar.
The K+-induced [Ca2+](i) increase was inhibited by the polyvalent cat
ions Co2+, Ni2+, Mn2+, Cd2+ and La3+, as well as by the cyclic alcohol
menthol. Neither the polyvalent cations nor menthol had a significant
effect on the K+-induced membrane depolarization. Our results suggest
that different leech neurones possess voltage-dependent Ca2+ channels
with similar properties.