Effects of hyaluronidase on miniature endplate potentials and currents at the frog neuromuscular junction

The effects of 0.1% testicular hyaluronidase on miniature endplate potentials and currents (MEPP and MEPC) were investigated in frog pectorocutaneous muscle. The action of hyaluronidase on preparations with armine-induced blockade of acetylcholinesterase was associated with decreased amplitude and duration of MEPP and MEPC half-decay time and rising phase. The correlation between amplitude and half-decay time of MEPP and MEPC declined at the same time, while MEPC decay remained exponential. Treating preparations having intact acetylcholinesterase with hyaluronidase increased the length of MEPC halfdecay, with duration of the rising phase and amplitude remaining constant. It is suggested that enzymatic breakdown of a proportion of the glycocalix of cells forming the neuromuscular junction and a portion of the extracellular matrix at the synaptic cleft leads to attenuation of nonspectific acetylcholine binding, thus facilitating acetylcholine diffusion into the synaptic cleft.A. A. Zhdanov State University, Leningrad. Translated from Neirofiziologiya, Vol. 20, No. 1, pp. 113–119, January–February, 1988.     

Miniature endplate currents of muscle fibers from rat diaphragm during galantamine-induced acetylcholinesterase inhibition

Miniature endplate currents (MEPC) were recorded in muscle fibers of rat diaphragm using voltage clamp technique during acetylcholinesterase (AChE) inhibition induced by various concentrations of galantamine. Their amplitude and time course began to increase at a galantamine concentration of 3.16·10^–8 g/ml. Increased concentrations of galantamine produced a greater effect. Maximum amplitude and time course were reached at a concentration of 10^–6 g/ml. The input resistance of muscle fibers increased under the effects of galantamine. In all cases MEPC fell exponentially. At a concentration of 10^–5 g/ml galantamine produced a curarelike effect; amplitude and time course of decay increased to a lesser extent than at a concentration of 10^–6 and the decay in MEPC became biphasic. Following washout of galantamine (10^–5 g/ml) the time course of MEPC first rose, then fell, returning to the initial level in 3 h, and decay again became exponential. Changes in MEPC parameters under the effects of different concentrations of galantamine and washout were closely correlated. A positive correlation was found between the time course of decay and MEPC amplitude both in the presence and absence of AChE inhibition. It is postulated that the functional importance of synaptic AChE in repressing the postsynaptic action of acetylcholine is limited and that parameters of postsynaptic response may therefore be used to evaluate its action.A. A. Ukhtomskii Institute of Physiology, A. A. Zhdanov State University, Leningrad. Translated from Neirofiziologiya, Vol. 17, No. 5, pp. 607–614, September–October, 1985.     

Time course of miniature end-plate currents at different sites on the frog neuromuscular junction

Miniature end-plate currents (MEPC) were recorded from proximal and distal sections of the frog sartorius and cutaneo-pectoral synapses by means of glass microelectrodes using extracellular techniques. Higher MEPC amplitudes and half-decay times were found in the proximal than the distal sections. These differences disappeared under the effects of tubocurarine and augmented under the action of armine. A significant positive correlation was noted between amplitude and duration of MEPC half decay time in approximately 80% of experiments — an indication of repeated binding between acetylcholine molecules and cholinoreceptors. This correlation was observed in practically all the proximal sites investigated, but only in half of distal sites tested. Findings obtained using electronmicroscopy showed that synaptic contact is about twice as extensive at proximal as at distal sites, while postsynaptic folds are poor in arborization. It is deduced that the high amplitude and longer time course of MEPC at proximal synaptic sites are due to more pronounced repeated binding between acetylcholine molecules and cholinergic receptors of the postsynaptic membrane, which could be put down to the density of the receptor population and geometrical aspects of the synaptic cleft.S. V. Kurashov Medical Institute, Ministry of Public Health of the RSFSR, Kazan'. A. A. Zhdanov State University, Leningrad. Institute of Biophysics, Academy of Sciences of the USSR, Puschino-on-Oka. Translated from Neirofiziologiya, Vol. 19, No. 6, pp. 779–788, November–December, 1987.     

Reactivating and cholinolytic action of trimedoxime bromide at the neuromuscular junction of warm-blooded animals

The reactivating and cholinolytic action of trimedoxime bromide was evaluated during experiments on rat soleus and diaphragm muscles accoridng to the amplitude and time course of miniature end-plate potentials and currents (MEPP and MEPC respectively). This agent reactivates acetylcholinesterase (AChE) phosphorylation. The effects of trimedoxime bromide at concentrations of 5·10^–6–5·10^–4 M following AChE inhibition on the amplitude and duration of MEPP arises from complex interaction between the reactivating and cholinolytic effects. A separate evaluation of the reactivating effect (once the reactivating agent had been removed) revealed that this action increases throughout the entire range of trimedoxime bromide concentration: complete reactivation of AChE phosphorylation was observed under the action of 2–5·10^–4 M trimedoxime bromide. Examination of the cholinolytic effect in isolation (with voltage-clamping at the muscle and intact AChE) showed that blockade of open end-plate ionic channels underlies this effect. Reduction in MEPC amplitude together with retarded (but still exponential) decay of signals were distinguishing features of this blockade, confirming that trimedoxime bromide acts as a very fast blocker.S. V. Kurashov Medical Institute, Ministry of Public Health of the RSFSR, Kazan'. Translated from Neirofiziologiya, Vol. 20, No. 3, pp. 351–357, May–June, 1988.     

Effects of "non-quantal" acetylcholine on miniature endplate currents in mice

The possibility of postsynaptic potentiation (PSP) and desensitization developing due to nonquantal acetylcholine (ACh) secretion was investigated in mouse diaphragm with reference to time-amplitude relationships of miniature endplate currents (MEPC). The H effect (which characterizes nonquantal secretion (NS) of ACh) fell to zero over 3 h under the action of armine-induced inhibition of acetylcholinesterase (AChE) at a temperature of 20°C. A decline in the decay time constant () of MEPC unaccompanied by observable alteration in MEPC amplitude occurred at the same time. This accelerated decay of MEPC was not observed in the absence of NS (the early stages of denervation). Start of NS did not show any effect on maximum retardation of MEPC decay due to AChE inhibition, indicating that no PSP sets in under the effects of non-quantal secretion. The effect of decline in accelerated with a rise in temperature; it could be reproduced with neostigmine replacing armine, while remained unchanged in the time spells investigated with AChE in its active state. Non-quantal ACh is not thought to produce substantial retardation of MEPC decay, although it does bring about desensitization, signs of which may be partially masked owing to concurrent onset of PSP.S. V. Kurashov Medical Institute, Kazan'. Translated from Neirofiziologiya, Vol. 22, No. 4, pp. 507–513, July–August, 1990.     

Acetylcholinesterase inhibition in neuromuscular synapses in different background states: model studies

Using mathematical modeling of the process of generation of a miniature end-plate current (MEPC), we studied the effect of acetylcholinesterase (AChE) inhibition on the amplitude and frequency parameters of synaptic signals in the neuromuscular junction. The density of acetylcholine receptors on the postsynaptic membrane and the number of acetylcholine molecules in its quantum were varied. AChE inhibition against the background of a decreased receptor density was shown to result in a much higher increase in the amplitude of modeled MEPC than that in control and in the case of the changed transmitter amount released in the synaptic cleft. The simulation data can be used as a theoretical background for interpretation of the reason for different efficiencies of AChE inhibitors in certain pathological states of the neuromuscular apparatus.Neirofiziologiya/Neurophysiology, Vol. 28, No. 4/5, pp. 186–192, July–October, 1996.     

Effects of quantal content,membrane potential,and cholinoceptor density on the time course of end-plate currents in the rat under during acetylcholinesterase inhibition

The time-course of multiquantal end-plate currents (EPCs) was compared with monoquantal synaptic responses, i.e., miniature end-plate currents (MEPCs), in voltage-clamped rat diaphragm muscle fibers. In the presence of active acetylcholinesterase (AChE), the time constant of the decay of EPCs, that were composed of 25–140 quanta, was 1.2 times greater than that of MEPCs. After inhibition of AChE with armine or proserine the decay of the EPC was longer than the decay of the MEPC by 10–100 times, and unlike the MEPC, in the majority of synapses it could be described by the sum of two (n=34) or three (n=9) exponentials: monoexponential EPCs were noted in only three cases. The nature and duration of the EPC decay depended on its quantal content. After a reduction in the quantal content a three-exponential EPC decay could be successively reduced to a two- and a mono-exponential decay. A ,slow, component of the EPC decay, unlike the MEPC decay, was extremely sensitive to changes in the membrane potential, and extracellular magnesium ion concentration. When the cholinoceptors were irreversibly blocked by -bungarotoxin the MEPC decay accelerated, and the monoexponential EPC decay initially slowed down before accelerating, but even during a profound blockade the open-times of the ion channels were not affected. It therefore appears that during the generation of multiquantal EPCs when AChE is inhibited, not only does the synchronicity of the ion channel opening change, but so do their kinetics, possibly because of ion channel blockade by endogenous acetylcholine.S. V. Kurashov Institute of Medicine, Russian Ministry of Public Health, Kazan. Translated from Neirofiziologiya, Vol. 24, No. 3, pp. 269–279, May–June, 1992.     

Postsynaptic potentiation and desensitization at the frog neuromuscular junction produced by repeated stimulation of the motor nerve

Investigations were performed on a split neuromuscular preparation of frog sartorial muscle during acetylcholinesterase inhibition. A study was made of the part played in postsynaptic potentiation (PSP) and desensitization (DS) in changes in the amplitude and time course of miniature endplate currents (MEPC) recorded directly after regular stimulation of the motor nerve at a frequency of 10 Hz for 5 or 60 sec, producing short and long series of multiquantal endplate currents (EPC) respectively. After the short train the amplitude of MEPC could hardly be distinguished from initial level, while the decay time constant (MEPC) increased by 32%, indicating PSP. Comparable but more pronounced biphasic changes occurred in the time course of endplate currents. These effects were not observed when acetylcholinesterase was uninhibited. Both PSP and DS were restored when 1×10^–6 M exogenous acetylcholine was added to the bath. The ratio between them could be changed by aprodifen — a substance which accelerates desensitization.S. V. Kurashov Medical Institute, Ministry of Public Health of the RSFSR, Kazan'. I. M. Sechenov Institute of Evolutionary Physiology and Biochemistry, Academy of Sciences of the USSR, Leningrad. Translated from Neirofiziologiya, Vol. 18, No. 5, pp. 645–654, September–October, 1986.     

Characteristics of postsynaptic potentials and ionic currents in synapses of fast and slow rat muscle fibers

Miniature end-plate currents and potentials (MEPPs and MEPCs, respectively) were recorded in fast and slow rat muscle fibers by extracellular focal recording and voltage clamp techniques. The rise time and the half-decay time of these potentials and currents were 1.3–1.4 times greater in slow fibers than in fast. A similar difference, but lesser in degree, also was observed after inhibition of acetylcholinesterase. Decline of the end-plate currents remained, generally speaking, exponential and its rate depended on the clamped voltage. The percentage distribution of fibers of different types by duration of MEPP and MEPC in fast and slow muscles correlated with the percentage distribution of fibers identified in these muscles on the basis of other parameters. Factors determining the time course of the responses (acetylcholinesterase activity, length of diffusion pathways, differences in passive electrical properties of the membrane), and their importance for synapses of different types, are discussed.I. M. Sechenov Institute of Evolutionary Physiology and Biochemistry, Academy of Sciences of the USSR, Leningrad. Translated from Neirofiziologiya, Vol. 12, No. 6, pp. 627–636, November–December, 1980.     

Effects of "non-quantal" acetylcholine on postsynaptic membrane senstitivity: Effects of ouabain,and mimicry by exogenous acetylcholine

The development of postsynaptic potentiation (PSP) and desensitization due to "non-quantal" acetylcholine that occurs when acetylcholinesterase (AChE) is inhibited was studied using the Na,K-ATPase inhibitor, ouabain, to alter (initially increasing, then decreasing) the level of non-quantal acetylcholine secretion, and exogenous acetylcholine. When ouabain increased non-quantal secretion the time constant () of the miniature end-plate current (MEPC) decay increased, i.e., PSP developed. The later the application of ouabain relative to inhibition of AChE, the greater the degree of PSP. During the next phase when non-quantal secretion was inhibited the MEPC time course shortened more rapidly than in the controls, i.e., desensitization occurred. If ouabain abolished non-quantal secretion before AChE had been inhibited did not change, and neither PSP nor desensitization developed. When AChE was not inhibited ouabain had no effect on . When ACh was continuously applied at 20 nmol·liter^–1, similar to the nonquantal concentration, the shortening of slowed down, and the signal amplitude declined more rapidly than in controls. Addition of exogenous ACh (50 nmol·liter^–1) after acceleration of MEPC decay had developed caused to increase to its initial value. The combined appearance of PSP and desensitization during the action of non-quantal ACh, and the sustained desensitization after removal of released ACh from the synaptic cleft are discussed.S. V. Kurashova Institute of Medicine, Russian Federation Ministry of Public Health, Kzan. Translated from Neirofiziologiya, Vol. 24, No. 4, pp. 396–404, July–August, 1992.     

Higher environmental temperature-induced change in synaptosomal acetylcholinesterase activity of brain regions

Expcsure of adult male albino rats to higher environmental temperature (HET) at 35° for 2–12 hr or at 45° for 1–2 hr increases hypothalamic synaptosomal acetylcholinesterase (AChE) activity. Synaptosomal AChE activity in cerebral cortex of rats exposed to 35° for 12 hr and in cerebral cortex and pons-medulla of rats exposed to 45° for 1–2 hr are also activated. AChE activity of synaptosomes prepared from normal rat brain regions incubated in-vitro at 39° or 41° for 0.5 hr increases significantly in cerebral cortex and hypothalamus. The activation of AChE in ponsmedulla is also observed when this brain region is incubated at 41° for 0.5 hr. Increase of (a) the duration of incubation at 41° and (b) the incubation temperature to 43° under in-vitro condition decreases the synaptosomal AChE activity. Lioneweaver-Burk plots indicate that (a) in-vivo and invitro HET-induced increases of brain regional synaptosomal AChE activity are coupled with an increase ofV _max without any change inK _m (b) very high temperature (43° under in-vitro condition) causes a decrease inV _max with an increase inK _m of AChE activity irrespective of brain regions. Arrhenius plots show that there is a decrease in transition temperature in hypothalamus of rats exposed to either 35° or 45°; whereas such a decrease in transition temperature of the pons-medulla and cerebral cortex regions are observed only after exposure to 45°. These results suggests that heat exposure increases the lipid fluidity of synaptosomal membrane depending on the brain region which may expose the catalytic site of the enzyme (AChE) and hence activate the synaptosomal membrane bound AChE activity in brain regions. Further the in-vitro higher temperature (43°C)-induced inhibition of synaptosomal AChE activity irrespective of brain regions may be the cause iof partial proteolysis/disaggregation of AChE oligomers and/or solubilization of this membrane-bound enzyme.To whom to address reprint requests:     

Quantitative estimation of synaptic acetylcholinesterase inhibition with galanthamine using parameters of miniature endplate currents

Miniature end-plate currents (MEPC) were recorded in voltage clamped muscle fibers of the rat diaphragm at different degrees of acetylcholinesterase (AChE) inhibition with galanthamine. A model has been suggested connecting the increase in MEPC amplitude with the concentration of a competitive reversible AChE inhibitor. Using the model suggested, the changes in the junctional AChE activity inhibited with different concentrations of galanthamine were estimated. The calculated value of the inhibitory galanthamine constant is 2.8 X 10(-7) M.     

Effects of vinblastine and colchicine on the postsynaptic membrane at the frog neuromuscular junction

The possible effects of the alkaloids vinblastine and colchicine on the postsynaptic membrane of the frog neuromuscular junction were investigated using voltage-clamp techniques. Concentrations of vinblastine and colchicine which had been shown to exert no effect on the amplitude and duration of miniature endplate currents (MEPC) and the current-voltage relationship of low-quantal endplate currents (EPC) together with the coefficient of voltage-dependent EPC decay did produce a considerable rise in the amplitude of response to iontophoretically applied acetylcholine (ACh). In addition, vinblastine and colchicine accelerate MEPC and EPC during acetylcholine esterase inhibition while further depressing the amplitude of multi-quantal EPC succeeding at the rate of 10 Hz as well as response to regular (5–10 Hz) application of ACh from a micropipet. The dosage-frequency effects of vinblastine and colchicine on the postsynaptic membrane (as described) are presumed to be unconnected with the action of these agents on muscle fiber cytoskeleton but the results of accelerated desensitization of cholinoreceptors.S. V. Kurashov Medical Institute, Kazan. Translated from Neirofiziologiya, Vol. 20, No. 1, pp. 75–81, January–February, 1988.     

Effects of voltage and temperature changes on postsynaptic potentiation at the frog neuromuscular junction

The difference in the decay time constants of multiquantal endplate currents (EPC) produced by presenting paired stimuli 100 msec apart was measured during experiments on transversely cut neuromuscular preparations of the frog sartorius muscle. When acetylcholinesterase was inhibited by 3×10^–6 M prostigmine, decay time of the 2nd EPC (₂) was 39±8% longer than that of the first (₁) due to postsynaptic potentiation. It was found that degree of potentiation was not affected by membrane potential level within the –30 to –120 mV range. Several effects were produced by a drop in temperature: an increase in EPC decay time constant and in that of miniature endplate currents (MEPC) in particular, a slight drop in MEPC amplitude, and a reduction in EPC quantal content. By comparing paired EPC of equal quantal content at different temperatures it was found that potentiation was more pronounced at 12°C than at 22°C and the temperature coefficient Q₁₀ at which ₂ exceeds ₁ was 2.0±0.2 (n=7). The processes determining postsynaptic potential are clearly not voltage-dependent but have a complex dependence on temperature. Quantal content of EPC falls with reduced temperature, thereby restraining potentiation, while helping to retain residual transmitter activity.I. M. Sechenov Institute of Evolutionary Physiology and Biochemistry, Academy of Sciences of the USSR, Leningrad. Kurashov Medical Institute, Kazan'. Translated from Neirofiziologiya, Vol. 18, No. 4, pp. 512–518, July–August, 1986.     

Postsynaptic currents in phasic and tonic muscle fibers of the rat extraocular muscle

Focal extracellular recordings were made of postjunctional currents produced at synapses of the inferior rectus eye muscle fibers by the spontaneous release of quanta of transmitter. These consisted of miniature endplate currents, or MEPC, in phasic fibers and miniature postjunctional currents, or MPJC, in tonic fibers. Open time of ionic channels (_chan) was also registered. In tonic fibers, MPJC lasted considerably longer than MEPC did in phasic fibers: rising time, decay time, and _chan in the former measured respectively 2.5, 4–5, and 2.2 times higher than in the latter. Acetylcholinesterace (AChE) inhibition produced a much greater (4.4-fold extension of current decay in phasic than in tonic fibers, where a 1.8-fold increase was seen, thereby reducing the gap between the decay time of currents in these fibers to a difference of 1.6 times. The more protracted decay of MPJC in tonic fibers compared with MEPC in phasic fibers is determined by the lower functional activity of AChE as well as the higher value of _chan. Duration of MEPC and magnitude of _chan in the "slow" phasic fibers of rat skeletal muscles fell well below the same parameters measured in the tonic fibers of the ocular muscle.I. M. Sechenov Institute of Evolutionary Physiology and Biochemistry, Academy of Sciences of the USSR, Leningrad. Translated from Neirofiziologiya, Vol. 19, No. 1, pp. 120–129, January–February, 1987.     

Non-quantal secretion of a mediator as factor determining consequences of acetylcholinesterase inhibition]

The mechanism of shortening MEPC decay phase after initial prolongation due to acetylcholinesterase inhibition by armine and neostigmine was studied by use of two-electrode voltage-clamp at the mice diaphragm Factors which switch off non-quantal secretion of acetylcholine from the nerve (acute denervation in vitro, ouabain, high concentration of magnesium ions) only slightly reduced the prolongation of MEPC caused by AChE inhibition. So, postsynaptic potentiation of MEPC by nonquantal ACh is not significant immediately after AChE inhibition. At the same time these factors abolished the process of shortening MEPC decay phase. It is concluded, that desensitization of the postsynaptic membrane induced by nonquantal ACh is the main mechanism of the MEPC shortening and that this mechanism can compensate insufficient AChE activity.     

Postsynaptic effects of substance P in frog neuromuscular junction

We have studied the effect of substance P on the end-plate currents (EPC) and the miniature EPC (MEPC) after acetylcholine esterase (ACE) inhibition in the cut neuromuscular preparation of the frog sartorius muscle using the voltage-clamp technique. At concentrations of 5·10^–7–1·10^–6 moles/liter substance P had no effect on the amplitude and the time characteristics of single EPC and MEPC but promoted prolongation of EPC decay on repetitive stimulation of the nerve with a frequency of 10/sec, indicating intensification of postsynaptic potentiation. Elevation of the concentration of the given peptide to 5·10^–6 moles/liter led to the shortening of the decay of single EPC and a more marked depression of the EPC amplitude in the trains as compared to the control, reflecting a decrease in the sensitivity of the postsynaptic membrane to the mediator, i.e., development of desensitization.S. V. Kurashov State Medical Institute, Kazan. I. M. Sechenov Institute of Evolutionary Physiology and Biochemistry, Leningrad. Translated from Neirofiziologiya, Vol. 23, No. 4, pp. 436–441, July–August, 1991.     

The efficacy of Dryacide, an inert dust, against two species of Astigmatid mites, Glycyphagus destructor and Acarus siro, at nine temperature and moisture content combinations on stored grain

Dryacide, an inert silicaceous dust, was tested for efficacy on wheat after 14 and 28 days exposure against the mites Acarus siro and Glycyphagus destructor at doses of 1, 3 and 5 g kg–1, moisture contents (MCs) of 14.5, 15.5 and 16.5% and temperatures of 10, 17.5 and 25°C. After 28 days at 10°C, all doses were effective against A. siro with the exception of the lowest dose at the highest MC, but against G. destructor complete control only occurred at 3 g kg–1 and 14.5% MC and at 5 g kg–1 and 14.5 and 15.5% MC. After 28 days at 17.5°C, the dust was fully effective against A. siro at 3 and 5 g kg–1 but only at 14.5% MC. Glycyphagus destructor was only completely controlled after 28 days at 5 g kg–1 and 14.5% MC. After 14 days at 25°C, A. siro was completely controlled at 3 and 5 g kg1 and 14.5% MC as was G. destructor after 28 days. Neither species appeared to ingest the dust but considerable quantities adhered to their cuticles. The high mortalities observed under the range of experimental conditions, particularly the lowest temperature, suggest that a dose of 3 g kg–1 may be effective as a replacement for organo-phosphorous (OP) pesticide surface treatments in an integrated storage strategy based on grain cooling. © Rapid Science Ltd. 1998     

Modelling of miniature endplate current

From analyzing the mathematical model of miniature endplate current (MEPC) generation described previously an optimal set of parameters was found providing the best match between the results of stimulation and experimentally obtained findings. The time course of MEPC in the controls, after cholinesterase inhibition, and following a bungarotoxin-induced reduction in the density of unoccupied cholinoreceptors were described within the framework of the model. This model also statisfactorily describes voltage-dependent current decay, and the currentvoltage relationship of MEPC, as well as the kinetics of giant MEPC observed during cholinesterase inhibition. The influence of the parameters of the model on model MEPC is also examined. The good match between the results of modelling and experimental findings leads to the conclusion that the model gives a true picture of different processes contributing to the generation of MEPC.S. V. Kurashov Medical Institute, Kazan', Institute of Evolutionary Physiology and Biochemistry, Academy of Sciences of the USSR, Leningrad. Translated from Neirofiziologiya Vol. 20, No. 3, pp. 390–397, May–June, 1988.     

Responses and song pattern copying of Omega-type I-neurons in the cricket,Gryllus bimaculatus,at different prothoracic temperatures

Summary Omega-type I-neurons (ON/1) (Fig. 1A) were recorded intracellularly with the prothoracic ganglion kept at temperatures of either 8–9°, or 20–22° or 30–33 °C and the forelegs with the tympanal organs kept at ambient temperature (20–22 °C). The neurons were stimulated with synthetic calling songs (5 kHz carrier frequency) with syllable periods (SP in ms) varying between 20 and 100, presented at sound intensities between 40 and 80 dB SPL. The amplitude and duration of spikes as well as response latency decreased at higher temperatures (Figs. 1 B, 2, 6). At lower prothoracic temperatures (8–9 °C) the neuron's responses to songs with short SP (20 ms) failed to copy single syllables, or with moderate SP (40 ms) copied the syllable with low signal to noise ratio (Fig. 3). The auditory threshold of the ON/1 type neuron, when tested with the song model, was temperature-dependent. At 9° and 20 °C it was between 40 and 50 dB SPL and at 33 °C it was less than 40 dB SPL (Fig. 4). For each SP, the slope of the intensity-response function was positively correlated with temperature, however, at low prothoracic temperatures the slope was lower for songs with shorter SPs (Fig. 5). The poor copying of the syllabic structure of the songs with short SPs at low prothoracic temperatures finds a behavioral correlate because females when tested for phonotaxis on a walking compensator responded best to songs with longer SPs at a similar temperature.Abbreviations epsps excitatory postsynaptic potentials - ON/1 omega-type I-neuron - SP syllable period - SPL sound pressure level