Sublinear summation of responses in locust photoreceptors

Summary The response of a locust, Locusta migratoria, photoreceptor to a simultaneous pair of dim flashes is smaller than the sum of the responses to the individual component flashes, even when the photon absorption sites are separated by a distance of 120 m, which should prevent them from interacting biochemically. A similar depression is observed when a flash is paired with a depolarizing current instead of a second flash, irrespecive of whether the flash response precedes or follows the current response. These results indicate that the sublinear summation is caused by the activation of a voltage-activated shunting conductance. This conductance is not blocked by low intracellular concentrations of tetraethylammonium chloride, and is therefore different from the conductance which causes the decrease of the receptor's step response from transient to steady-state.     

The time course of solitary nucleus gustatory responses: influence of stimulus and site of application

The responses of 64 neurons in the nucleus of the solitary tract(NST) of the rat were recorded while independently stimulatingthe anterior tongue (AT) and the nasoincisor ducts (NID) withsucrose and NaCl. The time course of this activity has beenanalyzed by averaging the responses (500 ms bins) to each stimulus:receptorsubpopulation combination across neurons. Regardless of thesite of stimulus application, the average time course of theNaCl responses was similar: both peaked rapidly (1.0–1.5s), with a peak/tonic ratio of >2:1. On the other hand, whenthe AT or NID was stimulated with sucrose, the average timecourse of the responses varied. The mean sucrose:NID responserose rapidly (1.0–1.5 s) to its maximum, which was 2.Oxthe magnitude of the tonic response. Sucrose on the anteriortongue elicited a response with a time course that differedfrom all other responses studied: it peaked slowly (3.5–4.0s), and exhibited a peak/tonic ratio of only 1.5:1. In distinctionto what had been observed for peripheral fibers, a finer-grainedanalysis of individual NST responses evoked by stimulating theAT and NID with sucrose revealed minimal evidence for regularbursting.     

Variability in the time course of single photon responses from toad rods: termination of rhodopsin's activity.

We examined the responses of toad rod photoreceptors to single photons of light. To minimize the effects of variability in the early rising phase, we selected sets of responses that closely matched the rise of the mean single photon response. Responses selected in this way showed substantial variations in kinetics, appearing to peel off from a common time course after different delays. Following incorporation of the calcium buffer BAPTA, the time to peeling off was retarded. Our analysis indicates that it is not necessary to invoke a long series of reaction steps to explain the shutoff of rhodopsin activity. Instead, our results suggest that the observed behavior is explicable by the presently known shutoff reactions of activated rhodopsin, modulated by feedback.     

Mechanisms regulating variability of the single photon responses of mammalian rod photoreceptors

Variability in the single photon responses of rod photoreceptors limits the accuracy with which the number and timing of photon absorptions are encoded. We investigated how much single photon responses of mammalian rods fluctuate and what mechanisms control these fluctuations. Mammalian rods, like those of toads, generated responses to single photons with trial-to-trial fluctuations 3-4 times smaller than other familiar signals produced by single molecules. We used the properties of the measured fluctuations to constrain models for how the single photon responses are regulated. Neither feedback control of rhodopsin's activity nor saturation within the transduction cascade were consistent with experiment. The measured responses, however, could be explained by multistep shutoff of rhodopsin or a combination of multistep shutoff and saturation.     

Spectral sensitivity of photoreceptors in the compound eye of the locust

Three types of receptor with different _max of 360, 430, and 530 nm were found in the locust retina by extracellular recording. Their spectral sensitivity curves were considerably broader than the absorption curves of the corresponding pigments. Possible coefficients of electrical coupling between different receptor types in ommatidia were calculated on the basis of the spectral sensitivity curves obtained for photoreceptors, assuming that each receptor contains only one light-sensitive pigment. The resulting values resembled coefficients measured in the locust by Shaw and Lillywhite. The way in which spectral sensitivity curves spread in comparison with pigment absorption curves may thus be caused by electrical coupling between cells.Institute of Problems in Information Transmission, Academy of Sciences of the USSR, Moscow. Translated from Neirofiziologiya, Vol. 18, No. 1, pp. 69–76, January–February, 1986.     

The effects of stimulus area and intensity on the on/off ratio of some locust visual interneurones

The on- and off-discharges of three types of locust visual interneurones were recorded in response to luminous discs ranging in subtense from 0.4 to 25°. For the DCMD neurone there was a clear reciprocal relationship between ON and OFF, with large on- and small off-responses at 0.4°, and the reverse at 25° disc subtense. Most of the changeover from almost pure ON to almost pure OFF discharges occurred in the subtense range up to 2°, i.e. within the acceptance angle of one ommatidium or the angle between adjacent ommatidia. This behaviour was not found at low luminance levels, where ON and OFF followed parallel courses. These findings suggest the existence of strong inhibition, augmenting rapidly with increase in target subtense, as also with luminance as shown in separate experiments. For the DCMD the off-response had the characteristics of a simple rebound excitation, following a short period of light exposure.The other visual interneurones (M and S) behaved differently. They did not show reciprocity of ON and OFF, but instead their responses followed parallel courses with increase in subtense, resembling those of the DCMD at low luminance. Nonetheless, like the DCMD, they did show peaking of the on-response at certain subtenses and luminance, although at much higher levels. The inhibitory activity defining the responses of M and S neurones appeared much less effective than that associated with the DCMD. This could be due to greater complexity in their central connexions, of which nothing is known.     

An analysis of miniature synaptic events recorded from locust muscle--variations in amplitude and time courses.

A study of miniature post-synaptic potentials (min. e.p.s.p.'s) in metathoracic extensor tibiae muscle fibres at neuromuscular junctions of adult locusts (Schistocerca gregaria) has been undertaken. Extracellular min. e.p.s.p.'s recorded from single junctional sites and their "marked" intracellular min. e.p.s.p. counterparts varied both in time course and amplitude and at many sites a small proportion of abnormal miniatures were observed, i.e., of large amplitude and/or of long duration. Positive correlations between the rise times and 1/2-decay times of the extracellular min. e.p.s.p.'s and between rise times and amplitudes and 1/2-decay times and amplitudes of "marked" intracellular events were found. Comparison of results obtained from differently innervated muscle fibres demonstrates that the occurrence of abnormal miniatures is independent of the type of innervation i.e., "fast" or "slow" excitatory motoneurons. Mechanisms that lead to the occurrence of abnormal miniatures are discussed in relation to the presence of large vesicles in the terminals of the excitatory motoneurons but the occurrence of these events could equally well be explained by the "post-synaptic saturation hypothesis".     

Lymphoid tissue responses to perfluorocarbon emulsion in rats: time course effects relative to immune challenge

1. The effects of either intraperitoneal (i.p.) or intravenous (i.v.) injection of low doses (10 ml/kg) of the commercial emulsion, Fluosol-DA 20% (F-DA), on lymphoid tissues and antibody production against sheep red blood cells (SRBC) have been studied relative to the timing of immunization in rats. 2. Spleen and liver weights were significantly increased in response to injection of F-DA although no consistent pattern was observed. 3. Thymus weight was decreased following F-DA injection in some experimental groups whereas mesenteric lymph node (MLN) weights were unchanged throughout. 4. The mean plasma antibody titre to SRBC was significantly increased in some groups of animals injected with F-DA both before or after immunization; maximum titres were observed following injection of emulsion simultaneously with SRBC. 5. These results show that lymphoid tissue weights and plasma antibody titres in rats immunized with SRBC vary according to the timing and route of a previous or subsequent injection of F-DA.     

Multi-step rhodopsin inactivation schemes can account for the size variability of single photon responses in Limulus ventral photoreceptors

Limulus ventral photoreceptors generate highly variable responses to the absorption of single photons. We have obtained data on the size distribution of these responses, derived the distribution predicted from simple transduction cascade models and compared the theory and data. In the simplest of models, the active state of the visual pigment (defined by its ability to activate G protein) is turned off in a single reaction. The output of such a cascade is predicted to be highly variable, largely because of stochastic variation in the number of G proteins activated. The exact distribution predicted is exponential, but we find that an exponential does not adequately account for the data. The data agree much better with the predictions of a cascade model in which the active state of the visual pigment is turned off by a multi-step process.     

The effects of stimulus location on the gating of touch by heat- and cold-induced pain

The influence of heat- and cold-induced pain on tactile sensitivity, a "touch gate", was measured under conditions in which the location of the noxious stimuli was varied with respect to the tactile stimulus applied to the thenar eminence of humans. Vibrotactile thresholds were measured in the absence of pain and during administration of a painful stimulus, with the stimulus frequencies selected to activate independently the four psychophysical channels hypothesized to exist in human glabrous skin. Heat-induced pain produced by spatially co-localizing the noxious stimuli with the tactile stimuli was found, on average, to elevate threshold amplitude by 2.2 times (6.7 dB). Co-localized, cold-induced pain raised the average thresholds by about 1.5 times (3.6 dB). Heat-induced pain presented contralaterally produced no change in vibrotactile sensitivity indicating that the effect is probably not due to attentional mechanisms. Ipsilateral heat-induced pain caused an elevation in tactile thresholds even when the noxious and non-noxious stimuli were not co-localized, and the effect may seem to require that the painful stimulus be within the somatosensory region defined possibly in terms of dermatomal organization. Thus the effect is probably related to somatotopic organization and is not peripherally mediated. A brief discussion as to the possible locus of the touch gate within the nervous system is also given.     

The effects of stimulus location on the gating of touch by heat- and cold-induced pain

The influence of heat- and cold-induced pain on tactile sensitivity, a "touch gate", was measured under conditions in which the location of the noxious stimuli was varied with respect to the tactile stimulus applied to the thenar eminence of humans. Vibrotactile thresholds were measured in the absence of pain and during administration of a painful stimulus, with the stimulus frequencies selected to activate independently the four psychophysical channels hypothesized to exist in human glabrous skin. Heat-induced pain produced by spatially co-localizing the noxious stimuli with the tactile stimuli was found, on average, to elevate threshold amplitude by 2.2 times (6.7 dB). Co-localized, cold-induced pain raised the average thresholds by about 1.5 times (3.6 dB). Heat-induced pain presented contralaterally produced no change in vibrotactile sensitivity indicating that the effect is probably not due to attentional mechanisms. Ipsilateral heat-induced pain caused an elevation in tactile thresholds even when the noxious and non-noxious stimuli were not co-localized, and the effect may seem to require that the painful stimulus be within the somatosensory region defined possibly in terms of dermatomal organization. Thus the effect is probably related to somatotopic organization and is not peripherally mediated. A brief discussion as to the possible locus of the touch gate within the nervous system is also given.     

Visual control of steering in locust flight: the effects of head movement on responses to roll stimuli

The contribution of head movement to the control of roll responses in flying locusts (Locusta migratoria) has been examined (i) on a flight balance, recording the angles through which the locust turns when following an artificial horizon; (ii) by recording activity in a pair of flight muscles in restrained conditions; and (iii) by observations on free flying locusts. Responses were compared when the head was free to turn about the thorax, as normal, and when the head was waxed to the thorax, blocking any relative motion between the two (head-fixed). These experiments suggest that the major signal generating corrective roll manoeuvres is the visual error between the angle of the head and the horizon, rather than a signal that includes a measure of the head-thorax angle.

Immunolocalization of a putative unconventional myosin on the surface of motile mitochondria in locust photoreceptors

Light stimulation of locust (Schistocerca gregaria) photoreceptors results in an actin-dependent translocation of mitochondria towards the photoreceptive microvilli and an antagonistic movement of endoplasmic reticulum towards the cell body. Using immunocytochemical techniques, we have tried to identify myosin-like motors that may drive the light-induced organelle motility. A monoclonal antibody against the motor domain of Acanthamoeba myosin identifies a prominent 110-kDa protein on Western blots of locust retina. Cross-reactivity with two polyclonal anti-myosin antibodies and a monoclonal anti-myosin-I-antibody, together with ATP-dependent binding to actin filaments, provides evidence that the 110-kDa protein is an unconventional myosin. By indirect immunofluorescence, the 110-kDa protein has been localized to both photoreceptors and pigment cells within the retina. In the photoreceptor cells, the 110-kDa protein is bound to the surface of mitochondria. This putative unconventional myosin may thus be a motor protein involved in the light-induced translocation of mitochondria in photoreceptors.     

Encoding of amplitude modulations by auditory neurons of the locust: influence of modulation frequency,rise time,and modulation depth

Using modulation transfer functions (MTF), we investigated how sound patterns are processed within the auditory pathway of grasshoppers. Spike rates of auditory receptors and primary-like local neurons did not depend on modulation frequencies while other local and ascending neurons had lowpass, bandpass or bandstop properties. Local neurons exhibited broader dynamic ranges of their rate MTF that extended to higher modulation frequencies than those of most ascending neurons. We found no indication that a filter bank for modulation frequencies may exist in grasshoppers as has been proposed for the auditory system of mammals. The filter properties of half of the neurons changed to an allpass type with a 50% reduction of modulation depths. Contrasting to reports for mammals, the sensitivity to small modulation depths was not enhanced at higher processing stages. In ascending neurons, a focus on the range of low modulation frequencies was visible in the temporal MTFs, which describe the temporal locking of spikes to the signal envelope. To investigate the influence of stimulus rise time, we used rectangularly modulated stimuli instead of sinusoidally modulated ones. Unexpectedly, steep stimulus onsets had only small influence on the shape of MTF curves of 70% of neurons in our sample.     

Colonic blood flow responses in experimental colitis: time course and underlying mechanisms

Human inflammatory bowel diseases (IBD) are associated with significant alterations in intestinal blood flow, the direction and magnitude of which change with disease progression. The objectives of this study were to determine the time course of changes in colonic blood perfusion that occur during the development of dextran-sodium-sulfate (DSS)-induced colonic inflammation and to address the mechanisms that may underlie these changes in blood flow. Intravital microscopy was used to quantify blood flow (from measurements of vessel diameter and red blood cell velocity) in different-sized submucosal arterioles of control and inflamed colons in wild-type (WT) mice. A significant (18-30%) reduction in blood flow was noted in the smallest arterioles (<40 microm diameter) on days 4-6 of DSS colitis. The arteriolar responses to bradykinin in control and DSS-treated WT mice revealed an impaired endothelium-dependent, but not endothelium-independent, vasodilation in the inflamed colon. However, this impaired vasodilatory response to bradykinin after DSS treatment was not evident in mutant mice that overexpress Cu,Zn-superoxide dismutase. Rescue of the bradykinin-induced vasodilation during DSS colitis was also observed in mice that are genetically deficient in the NAD(P)H oxidase subunit gp91(phox). These findings indicate that the decline in blood flow during experimental colitis may result from a diminished capacity of colonic arterioles to respond to endogenous endothelium-dependent vasodilators like bradykinin and that NAD(P)H oxidase-derived superoxide plays a major role in the induction of the inflammation-induced endothelium-dependent arteriolar dysfunction.     

Changes in the dynamic properties of locust photoreceptors at three levels of light adaptation

The frequency response function of phototransduction was studied in the locust compound eye at three levels of dim light adaptation. The eyes were stimulated with light from a green light emitting diode (LED) and the resulting changes in membrane potential were measured with intracellular electrodes. Absolute sensitivities and light adaptation levels were established by counting the arrivals of single photons in dark adapted eyes. Frequency response functions for phototransduction could be well fitted by a model developed earlier for fly compound eyes, which includes underdamped second order poles and a pure time delay. However, the locust data requires longer time constants for the poles and a longer delay than were used to fit the fly data, reflecting the slower response characteristics of the locust. Changing the level of light adaptation at dim levels caused changes in both the sensitivity and the dynamic properties of the photoreceptors. Sensitivity was reduced and significant decreases were seen in the delay and several time constants. The behavior also became much more damped, with one of the second order poles decomposing into first order poles.     

Influence of stimulus intensity on the soleus H-reflex amplitude and modulation during locomotion

Diverging results have been reported regarding the modulation and amplitude of the soleus H-reflex measured during human walking and running. A possible explanation to this could be the use of too high stimulus strength in some studies while not in others. During activities like walking and running it is necessary to use a small M-wave to control the effective stimulus strength during all phases of the movement. This implies that the descending part of the H-reflex recruitment curve is being used, which may lead to an unwanted suppression of the H-reflex due to limitations imbedded within the H-reflex methodology itself.Accordingly, the purpose of the present study was to study the effect on the soleus H-reflex during walking and running using stimulus intensities normally considered too high (up to 45% Mmax).Using M-waves of 25–45% Mmax as opposed to 5–25% Mmax showed a significant suppression of the peak H-reflex during the stance phase of walking, while no changes were observed during running. No differences were observed regarding modulation pattern. So a possible use of too high stimulus intensity cannot explain the differences mentioned. The surprising result in running may be explained by the much higher voluntary muscle activity, which implies the existence of a V-wave influencing the H-reflex amplitude in positive direction.     

Phantoms in the brain: Ambiguous representations of stimulus amplitude and timing in weakly electric fish

In wave-type weakly electric fish, two distinct types of primary afferent fibers are specialized for separately encoding modulations in the amplitude and phase (timing) of electrosensory stimuli. Time-coding afferents phase lock to periodic stimuli and respond to changes in stimulus phase with shifts in spike timing. Amplitude-coding afferents fire sporadically to periodic stimuli. Their probability of firing in a given cycle, and therefore their firing rate, is proportional to stimulus amplitude. However, the spike times of time-coding afferents are also affected by changes in amplitude; similarly, the firing rates of amplitude-coding afferents are also affected by changes in phase. Because identical changes in the activity of an individual primary afferent can be caused by modulations in either the amplitude or phase of stimuli, there is ambiguity regarding the information content of primary afferent responses that can result in ‘phantom’ modulations not present in an actual stimulus. Central electrosensory neurons in the hindbrain and midbrain respond to these phantom modulations. Phantom modulations can also elicit behavioral responses, indicating that ambiguity in the encoding of amplitude and timing information ultimately distorts electrosensory perception. A lack of independence in the encoding of multiple stimulus attributes can therefore result in perceptual illusions. Similar effects may occur in other sensory systems as well. In particular, the vertebrate auditory system is thought to be phylogenetically related to the electrosensory system and it encodes information about amplitude and timing in similar ways. It has been well established that pitch perception and loudness perception are both affected by the frequency and intensity of sounds, raising the intriguing possibility that auditory perception may also be affected by ambiguity in the encoding of sound amplitude and timing.     

Temperature effects upon the time course of contraction and re-extension in Stentor coeruleus

A double-flash microphotographic technique has been used to follow the variation with temperature of the following kinetic parameters related to the contraction and re-extension of the ciliate Stentor coeruleus, namely the rate of contraction, the initiation time before contraction, the rate of re-extension and the initiation time before re-extension, all described by first order kinetics. Activation enthalpies, entropies and free energies related to the above mentioned parameters were calculated from the variation of the rate constants with temperature. The enthalpies and entropies appear to be of minor interest compared to the free energies. For the contraction and the initiation of contraction the delta G transition state values obtained were 14 and 15 kcal/mole, respectively, while the re-extension and the initiation of re-extension both were represented by a value of delta G transition state about 19 kcal/mole. These results are compared to activation parameters for different motile systems and for the formation and breakdown of ATP-myosin complexes. A model for the contraction and re-extension processes is proposed in accordance with the results measured.