Richard Hahin scite author profile

SummarySeveral hundred disulfide-bridged neurotoxic peptides have been characterized from scorpion venom; however, only few scorpion venom peptides without disulfide bridges have been identified and characterized. These non-disulfide-bridged peptides (NDBPs) are a novel class of molecules because of their unique antimicrobial, immunological or cellular signaling activities. This review provides an overview of their structural simplicity, precursor processing, biological activities and evolution, and sheds insight into their potential clinical and agricultural applications. Based on their pharmacological activities and peptide size similarity, we have classified these peptides into six subfamilies. IUBMB Life, 57: 13 -21, 2005

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Simple shifts in the voltage dependence of sodium channel gating caused by divalent cations.

Hahin¹,

Campbell²

1983

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The effect of elevated divalent cation concentration on the kinetics of sodium ionic and gating currents was studied in voltage-clamped frog skeletal muscle fibers . Raising the Ca concentration from 2 to 40 mM resulted in nearly identical 30-mV shifts in the time courses of activation, inactivation, tail current decay, and ON and OFF gating currents, and in the steady state levels of inactivation, charge immobilization, and charge vs. voltage. Adding 38 mM Mg to the 2 mM Ca bathing a fiber produced a smaller shift of -20 mV in gating current kinetics and the charge vs . voltage relationship. The results with both Ca and Mg are consistent with the hypothesis that elevated concentrations of these alkali earth cations alter Na channel gating by changing the membrane surface potential. The different shifts produced by Ca and Mg are consistent with the hypothesis that the two ions bind to fixed membrane surface charges with different affinities, in addition to possible screening.

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Initial conditions and the kinetics of the sodium conductance in Myxicola giant axons. II. Relaxation experiments.

Goldman¹,

Hahin²

1978

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A lB, S T R A C T The time-course of the decay of INa on resetting the membrane potential to various levels after test steps in potential was studied. The effects of different initial conditions on these Na tail currents were also studied. For postpulse potentials at or negative to -35 mV, these currents may be attributed nearly entirely to the shutdown of the activation process, inactivation being little involved. Several relaxations may be detected in the tail currents. The slower two are well defined exponentials with time constants of ~ 1 ms and 100 V.s in the hyperpolarizing potential range. The fastest relaxation is only poorly resolved. Different initial conditions could alter the relative weighting factors on the various exponential terms, but did not affect any of the individual time constants. The activation of the sodium conductance cannot be attributed to any number of independent and identical two-state subunits with first order transitions. The results of this and the previous paper are discussed in terms of the minimum kinetic scheme consistent with the data. Evidence is also presented suggesting that there may exist a small subpopuladon of channels with different kinetics and a faster rate of recovery from TTX block than the rest of the population.

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Effects of deuterium oxide on the rate and dissociation constants for saxitoxin and tetrodotoxin action. Voltage-clamp studies on frog myelinated nerve.

Hahin¹,

Strichartz²

1981

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a B s T R A C T The actions of tetrodotoxin (TTX) and saxitoxin (STX) in normal water and in deuterium oxide (D~) have been studied in frog myelinated nerve. Substitution of D20 for H~O in normal Ringer's solution has no effect on the potency of TTX in blocking action potentials but increases the potency of STX by ~50%. Under voltage clamp, the steady-state inhibition of sodium currents by 1 nM STX is doubled in D20 as a result of a halving of the rate of dissociation of STX from the sodium channel; the rate of block by STX is not measurably changed by D20. Neither steady-state inhibition nor the on-or offrate constants of TTX are changed by D20 substitution. The isotopic effects on STX binding are observed <10 min after the toxin has been added to D20, thus eliminating the possibility that slow-exchange (tl/2 > 10 h) hydrogen-binding sites on STX are involved. The results are consistent with a hypothesis that attributes receptor-toxin stabilization to isotopic changes of hydrogen bonding; this interpretation suggests that hydrogen bonds contribute more to the binding of STX than to that of TTX at the sodium channel.

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Removal of inactivation causes time-invariant sodium current decays.

Hahin

1988

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The kinetic properties of the closing of Na channels were studied in frog skeletal muscle to obtain information about the dependence of channel closing on the past history of the channel. Channel closing was studied in normal and modified channels. Chloramine-T was used to modify the channels so that inactivation was virtually removed. A series of depolarizing prepulse potentials was used to activate Na channels, and a -140-mV postpulse was used to monitor the closing of the channels. Unmodified channels decay via a biexponential process with time constants of 72 and 534 #s at 12~ The observed time constants do not depend upon the potential used to activate the channels. The contribution of the slow component to the total decay increases as the activating prepulse is lengthened. After inactivation is removed, the biexponential character of the decay is retained, with no change in the magnitude of the time constants. However, increases in the duration of the activating prepulse over the range where the current is maximal 1-75 ms) produce identical biexponential decays. The presence of biexponential decays suggests that either two subtypes of Na channels are found in muscle, or Na channels can exist in one of two equally conductive states. The time-invariant decays observed suggest that channel closure does not depend upon their past history.

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Richard Hahin

Scorpion Venom Peptides without Disulfide Bridges

Simple shifts in the voltage dependence of sodium channel gating caused by divalent cations.

Initial conditions and the kinetics of the sodium conductance in Myxicola giant axons. II. Relaxation experiments.

Effects of deuterium oxide on the rate and dissociation constants for saxitoxin and tetrodotoxin action. Voltage-clamp studies on frog myelinated nerve.

Removal of inactivation causes time-invariant sodium current decays.

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