Effects of cold adaptation and noradrenaline on thermosensitivity of rat hypothalamic neurons studiedin vitro

The experiments performed on rat brain slices have shown that cold adaptation of an animal influences the thermosensitivity of hypothalamic medial preoptical neurons. The adaptation is followed by an increase in the proportion of 38–41°C-thermoresponsive neurons and by a decrease in the proportion of 35–38°C-thermoresponsive units. In control animals, noradrenaline (NA) increased the responses of hypothalamic neurons to the action of 35–38°C temperature and decreased them to the action of 38–41°C temperature. Cold adaptation prevented the effects of NA on neuronal thermosensitivity, which suggests that their NA sensitivity is modified by cold adaptation.Neirofiziologiya/Neurophysiology, Vol. 26, No. 3, pp. 171–176, May–June, 1994.     

Cardiovascular and metabolic responses to noradrenaline in men acclimatized to cold baths

The purpose of this study was to see whether artificial acclimatization to cold would reduce the pressor response to noradrenaline (NA) as natural acclimatization has been shown to do, and whether it would induce nonshivering thermogenesis. Three white men were infused with NA at four dosage levels between 0.038 and 0.300 g·kg^–1·min^–1 (2–23 g·min^–1), before and after artificial acclimatization to cold and again 4 months later when acclimatization had decayed. Acclimatization was induced by ten daily cold (15°Q baths of 30–60 min followed by rapid rewarming in hot (38–42°C) water, and was confirmed by tests of the subjects responses to whole-body cooling in air. Three control subjects also underwent the first and third tests. Acclimatization substantially reduced the pressor response to NA at 0.150 and 0.300 g·kg^–1·min^–1, confirming earlier findings by the same technique in naturally acclimatized men, and its decay increased this response to beyond its initial levels (P<0.05 for both changes). Acclimatization did not change the response to NA of heart rate, subjective impressions, skin temperature of finger and toe, pulmonary ventilation, or plasma free fatty acids and ketone bodies. At no time did NA increase oxygen consumption, or increase skin temperature or heat flow over reported sites of brown fat. These findings would seem to show that acclimatization to cold reduces sensitivity to the pressor effect of NA but does not induce nonshivering thermogenesis, and that the reduced sensitivity is replaced by a hypersensitivity to NA when acclimatization decays.     

Characteristics of thermo-mechanosensitive receptors in human and animal skin

With local thermal and mechanical stimulation in precise experiments on cats, a study was made of changes in impulse activity of afferent fibers of spinal dorsal roots connected with skin thermoreceptors in the extremities. Psychophysiological studies were done on the characteristics of thermosensitive points of the skin of the upper extremities of man. According to changes in average frequency of impulse activity, dynamic sensitivity, latent period of reaction, and thresholds of temperature and mechanical sensitivity, three groups of heat receptors and two of cold receptors were identified in the skin of the cat. All heat and cold receptors are mechanosensitive. According to quality and intensity of perceptions elicited by thermal stimulation and thresholds of sensitivity to mechanical and temperature effects, thermosensitive points in human skin can also be divided into three groups of heat receptors and two groups of cold receptors. All heat and cold points are mechanosensitive. An analogy between the skin thermoreceptors of animals and man is suggested.Institute of Physiology, Kazakhstan, Academy of Sciences. Translated from Neirofiziologiya, Vol. 24, No. 3, pp. 314–322, May–June, 1992.     

Influenza Virus Neuraminidases with Reduced Enzymatic Activity That Avidly Bind Sialic Acid Receptors

Influenza virus neuraminidase (NA) cleaves off sialic acid from cellular receptors of hemagglutinin (HA) to enable progeny escape from infected cells. However, NA variants (D151G) of recent human H3N2 viruses have also been reported to bind receptors on red blood cells, but the nature of these receptors and the effect of the mutation on NA activity were not established. Here, we compare the functional and structural properties of a human H3N2 NA from A/Tanzania/205/2010 and its D151G mutant, which supports HA-independent receptor binding. While the wild-type NA efficiently cleaves sialic acid from both α2-6- and α2-3-linked glycans, the mutant exhibits much reduced enzymatic activity toward both types of sialosides. Conversely, while wild-type NA shows no detectable binding to sialosides, the D151G NA exhibits avid binding with broad specificity toward α2-3 sialosides. D151G NA binds the 3′ sialyllactosamine (3′-SLN) and 6′-SLN sialosides with equilibrium dissociation constant (K_D) values of 30.0 μM and 645 μM, respectively, which correspond to much higher affinities than the corresponding affinities (low mM) of HA to these glycans. Crystal structures of wild-type and mutant NAs reveal the structural basis for glycan binding in the active site by exclusively impairing the glycosidic bond hydrolysis step. The general significance of D151 among influenza virus NAs was further explored by introducing the D151G mutation into three N1 NAs and one N2 NA, which all exhibited reduced enzymatic activity and preferential binding to α2-3 sialosides. Since the enzymatic and binding activities of NAs are not routinely assessed, the potential for NA receptor binding to contribute to influenza virus biology may be underappreciated.     

Histochemically demonstrable catecholamines and cholinesterases in nerve fibres of rat dorsal skin

Summary Histochemically demonstrable cholinesterases of rat skin and cutaneous nerves hydrolyze acetylthiocholine iodide and butyrylthiocholine iodide. Cholinesterase activity of the skin was located in the epidermis, in the hair follicles at the level of the sebaceous glands, in adjacent parts of the sebaceous glands, in erector pili muscles and their nerves, in cutaneous and subcutaneous nerves and nerve trunks, including some nerves accompanying cutaneous blood vessels, and in the membranes of fat cells. No encapsulated nerve endings were found. In the nerves of erector pili muscles there was some neurilemmal non-specific cholinesterase activity, demonstrated in the presence of 10^–5 M BW 284C 51, and specific acetylcholinesterase activity resistant to 10^–5 M iso-OMPA. The cholinesterase activity in other cutaneous nerves was inhibited by 10^–5 M iso-OMPA but was resistant to 10^–5 M BW284 C 51, thus representing mainly non-specifc cholinesterase (nsChE) activity.The adrenergic nerves of the dorsal skin, as revealed by glyoxylic acid-induced fluorescence (GIF), were located in association with erector pili muscles and surrounded arteries and arterioles. Small fluorescent nerves were situated in subcutaneous nsChE-positive nerve trunks.Using GIF and cholinesterase techniques performed either simultaneously or consecutively, it was found that the nsChE-positive, probably sensory, nerves accompanying blood vessels were fewer in number than the fluorescent adrenergic nerves and ran a course independent of them. No cholinesterase reaction was seen in the fluorescent adrenergic nerves when short incubation times were used. When the incubation time was prolonged overnight, the nsChE reaction closely followed the course of fluorescent adrenergic nerves.     

Location of heat sensitive region in human skin

Heat sensitive points on the body skin were investigated in the course of psychophysiological research using thermal and mechanical stimulation on 98 volunteers residing under conditions of pronounced continental climate, in the town of Alma-Ata, with an age range of 20 to 46. Heat sensitive and cold sensitive points were divided into four and two classes respectively on the basis of minimum arousal threshold and nature of the sensation. Receptors of each class were located in the skin at the areas of greatest concentration. Comparison of the thermal range of activity and numbers of active points at different cutaneous sites in humans revealed their differing capacity for perception of different temperature levels.Institute of Physiology, Kazakhstan Academy of Sciences, Alma-Ata. Translated from Neirofiziologiya, Vol. 24, No. 5, pp. 591–598, September–October, 1992.     

Effect of noradrenalin and serotonin on responses of area CA3 neurons evoked in guinea pig hippocampal slices by electrical stimulation of mossy fibers

The effect of noradrenalin (NA) and serotonin (5-HT) on responses of area CA₃ cells evoked by electrical stimulation of mossy fibers was studied in slices of guinea pig hippocampus survivingin vitro. Both substances, which modify the general level and organization of spontaneous activity, also affected responses of area CA₃ cells. Changes in magnitude and structure of the response usually correlated with corresponding changes in spontaneous activity. In certain cases NA, which lowered the frequency of spontaneous activity but increased its relative content of "complex discharges" and also the number of reduced action potentials in the complex discharge, also led to an increase in the response to stimulation. 5-HT evoked periodic grouped activity in some cells and led to the appearance of such grouped discharges for the first time in the responses of other cells. Unlike NA, 5-HT caused prolonged (up to 40 min) after-facilitation of the response and an increase in spontaneous discharge frequency.Institute of Biological Physics, Academy of Sciences of the USSR, Pushchino-on-Oka. Translated from Neirofiziologiya, Vol. 14, No. 4, pp. 410–417, July–August, 1982.     

Comparative neurophysiological characteristics of shivering and caudate tremor

Two models of postural tremor — induced by cold (shivering) and by injection of oxotremorine into the caudate nucleus (caudate tremor) — were compared in experiments on cats. Both models shared the same electromyographic picture of tremor; the frequency of activity of motor units working independently was 4–12 spikes/sec. Both types of tremor were potentiated by cold stimulation of temperature receptors and were inhibited by electrical stimulation of the medial preoptic region of the hypothalamus and by intravenous injection of cholinomimetics. Caudate tremor, unlike shivering, ceased after intravenous injection of scopolamine (an antiparkinsonism drug). On the basis of data on motoneuron function it is concluded that both types of tremor are analogs of physiological postural tremor. The selective inhibitory action of scopolamine on caudate tremor reflects only the mediator organization of structures in the caudate nucleus and cannot therefore serve as the basis for the conclusion that this disturbance of motor activity is a model of pathological postural tremor.O. V. Kuusinen Petrozavodsk State University. Translated from Neirofiziologiya, Vol. 13, No. 3, pp. 257–263, May–June, 1981.     

Origin of the silent period in somato- and viscero-sympathetic responses

The origin of the period of postactivation depression of spike activity in the renal nerve during stimulation of afferent fibers of cutaneous (cutaneous branch of the peroneal nerve) and visceral (greater splanchnic nerve) nerves was studied in unanesthetized, anesthetized, decerebrate, and spinal cats. This silent period was shown to be considerably prolonged after administration of general anesthetics to unanesthetized animals or after decerebration. Analeptics (strychnine, leptazol, picrotoxin) or division of the spinal cord at the level of the lower cervical segments weaken postactivation depression. The causes of origin of the silent period are discussed and the localization of the structures responsible for its appearance is examined.I. P. Pavlov First Leningrad Medical Institute. Translated from Neirofiziologiya, Vol. 4, No. 5, pp. 501–509, September–October, 1972.     

Structure of spike activity of cold thermoreceptors at its various levels

In acute experiments on anesthetized rabbits we investigated the spike activity of cold fibers of the infraorbital nerve during a steady decrease in skin temperature from 39 to 7°C at a rate of 0.8 ± 0.05°/min. Analysis of interspike intervals (ISI) in the firing of receptors demonstrated that in the investigated range of skin temperatures the ISI histograms changed significantly several times, reflecting a shift in the pattern of firing. In addition, the reactions of each cold thermoreceptor had individual aspects, which lays the foundation for discussion of the perception of various characteristics of the temperature stimulus of the set of thermoreceptors.I. P. Pavlov Physiology Institute, Russian Academy of Sciences, Saint Petersburg. Translated from Neirofiziologiya, Vol. 24, No. 5, pp. 559–566, September–October, 1992.     

Effect of preliminary mechanical and antidromic influences on orthodromic activity in C fibers from mechanoreceptors of the cat skin

Analysis of afferent activity in unmyelinated fibers of a cutaneous nerve was carried out by the colliding impulses method in cats. The effect of antidromic excitation of the nerve and mechanical stimulation of the receptors on subsequent orthodromic activity during stretching of the skin was investigated. Both these factors were shown to reduce subsequent orthodromic activity evoked by testing stimulation. The reduction in activity was greatest 10–15 sec after stimulation. The duration of the inhibitory effect was greater after mechanical than after antidromic stimulation. Combined mechanical stimulation and antidromic excitation resulted in a greater decrease of afferent activity and an increase in the time of its recovery. An increase in the frequency of antidromic excitation potentiated the inhibitory effect of preliminary stimulation on orthodromic activity in C fibers.Research Institute of Applied Mathematics and Cybernetics, N. I. Lobachevskii Gor'kii State University. Translated from Neirofiziologiya, Vol. 9, No. 3, pp. 307–312, May–June, 1977.     

Generation and processing of peripheral temperature signals in mammals

Temperature transduction in peripheral cold receptors and processing of peripheral temperature signals in the spinal cord were studied in cats and rats. The temperature dependence of the generator potential is attributed to different temperature coefficients of an electrogenic Na-efflux and the passive Na-influx. Cold receptor activity and particularly its bursting pattern is considerably modulated by the local Ca-concentration, but the effect of elevated Ca-concentration is abolished by the ATPase blocker ouabain. — The peripheral temperature signals from the scrotal skin of rats are transformed in dorsal horn neurones (DHN) into temperature reactions, which occur only above (warm reaction) or below (cold reaction) a certain temperature threshold and are limited to an operational range of 1–4°C. Convergency of different temperature inputs were observed in one and the same DHN. Supraspinal control of temperature reactive DHN appears to be complex but predominantly excitatory.Presented at the Eighth International Congress of Biometeorology, 9–14 September 1979, Shefayim, Israel.     

Investigation of mechanisms of synaptic transmission in ampullae of Lorenzini in the skate

The effect of magnesium ions, L-glutamate (L-GLU), and the diethyl ester of glutamic acid (DEE-GLU) on temperature and electrical sensitivity of the ampullae of Lorenzini in skates was studied by the method of perfusion of the basal membrane of electroreceptor cells and recording spike activity from single nerve fibers. Addition of 10^–4–10^–5 M L-GLU to the solution was shown to cause an increase in the spontaneous discharge frequency of receptors with low initial level of activity (8–20 spikes/sec) and a decrease in receptors with spontaneous activity of 22–42 spikes/sec. In solution with an increased magnesium ion concentration (15–50 mM) both spontaneous and evoked receptor activity was blocked, Under these conditions the addition of L-GLU to the solution caused partial recovery of spontaneous receptor activity. Reversible blocking of spontaneous and evoked receptor activity was observed in a solution containing 10^–4–10^–3 M DEE-GLU. It is suggested that L-GLU is the synaptic transmitter in the ampullae of Lorenzini of the skate.I. P. Pavlov Institute of Physiology, Academy of Sciences of the USSR, Leningrad. Translated from Neirofiziologiya, Vol. 13, No. 3, pp. 292–298, May–June, 1981.     

Effect of monoamines on motoneurons of the isolated rat spinal cord

Superfusion of isolated hemisected spinal cords of 9-13-day old rats with noradrenalin (NA) solution depolarized or hyperpolarized the motoneurons depending on the NA concentration. Both effects were the result of the direct action of NA on the motoneurons, for they were given in medium containing an excess of Mg and deficiency of Ca ions.a-Adrenoblockers depressed both the depolarizing and hyperpolarizing effects of NA. The depolarizing effect of dopamine on motoneurons was abolished in medium containing excess of Mg ions. Its direct hyperpolarizing action of motoneurons was suppressed by haloperidol but unchanged by phentolamine. The depolarizing effect of serotonin and its metabolites — mexamine, kynurenine, and 3-hydroxy-anthranilic acid — persisted in the presence of an excess of Mg and deficiency of Ca ions, but it was suppressed by deseryl (methysergide) and the benzyl analog of serotonin. The hyperpolarizing effect of serotonin at high concentrations (10^–4–10^–3 M), revealed in some experiments, was abolished in medium containing excess of magnesium ions in the presence of morphine.A. M. Gorkii Donetsk State Medical Institute. Translated from Neirofiziologiya, Vol. 12, No. 4, pp. 391–396, July–August, 1980.     

Ultrastructural changes in synapses of cortical neurons following combined applications of glutamate and noradrenaline

The dimensions of postsynaptic densities (PSD) of axodendritic synapses in the sensorimotor region of the rat neocortex were determined following multiple paired microiontophoretic applications of L-glutamate (Gl) and noradrenaline (NA) using electron microscopy. It was established that combined applications of Gl and NA induce a statistically significant increase in the thickness of the PSD. In this case, the intensity of the structural changes depends on the delay time (within the range of 0–5 sec) of NA action in relation to Gl. The strongest modification in PSD was observed whenever the second neurochemical signal was received at the amount of cessation of the neuronal response to the action of the first transmitter.Translated from Neirofiziologiya, Vol. 25, No. 1, pp. 5–10, January–February, 1993.     

Effects of dopamine on spontaneous activity generated by isolated spinal cord in 16- to 20-day-old chick embryos

The effects were investigated of applying L-DOPA, dopamine (DA), and noradrenaline (NA) on spontaneous activity (cyclic fluctuations in electrotonic dorsal and ventral root (DR and VR) potentials generated by a section of spinal cord isolated from 16 to 20-day-old chick embryos. A low concentration of L-DOPA (30–150 µm) intensified operation of the spinal generator, giving rise to above-threshold rhythm (i.e., spike activity in the DR and the VR). At a high concentration, L-DOPA produced inhibition of generator operation, although spontaneous activity did intensify during subsequent washout of the substance, with the onset of above-threshold rhythm. Both DA and NA failed to affect spontaneous activity in the VR and the DR at a concentration to 50 µM but a concentration of 100 µM produced inhibition. Application of 20 µM 2-amino-5-phosphonovaleric acid blocked the reinforced spontaneous activity produced by low L-DOPA concentrations. Activity generated by the neuronal network of the isolated dorsal horn rose under the effects of low L-DOPA concentrations; rhythmic activity was observed neither before nor after applying this substance in isolated ventral horn. Findings obtained would point to the occurrence of a direct (i.e., non-catecholamine dependent) excitatory influence of L-DOPA on the neuronal network of the chick embryo dorsal horn.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 23, No. 3, pp. 338–343, May–June, 1991.     

Effect of cold acclimation on the incidence of two forms of freezing injury in protoplasts isolated from rye leaves

The freezing tolerance and incidence of two forms of freezing injury (expansion-induced lysis and loss of osmotic responsiveness) were determined for protoplasts isolated from rye leaves (Secale cereale L. cv Puma) at various times during cold acclimation. During the first 4 weeks of the cold acclimation period, the LT₅₀ (i.e. the minimum temperature at which 50% of the protoplasts survived) decreased from −5°C to −25°C. In protoplasts isolated from nonacclimated leaves (NA protoplasts), expansion-induced lysis (EIL) was the predominant form of injury at the LT₅₀. However, after only 1 week of cold acclimation, the incidence of EIL was reduced to less than 10% at any subzero temperature; and loss of osmotic responsiveness was the predominant form of injury, regardless of the freezing temperature. Fusion of either NA protoplasts or protoplasts isolated from leaves of seedlings cold acclimated for 1 week (1-week ACC protoplasts) with liposomes of dilinoleoylphosphatidylcholine also decreased the incidence of EIL to less than 10%. Fusion of protoplasts with dilinoleoylphosphatidylcholine diminished the incidence of loss of osmotic responsiveness, but only in NA protoplasts or 1-week ACC protoplasts that were frozen to temperatures over the range of -5 to -10°C. These results suggest that the cold acclimation process, which results in a quantitative increase in freezing resistance, involves several different qualitative changes in the cryobehavior of the plasma membrane.     

Reception of millimeter-band electromagnetic radiation by the ampullae of Lorenzini of skates

During recording of impulse activity from single nerve fibers of electroreceptors of the ampullae of Lorenzini of skates, we studied the responses to electromagnetic radiation (EMR) at a frequency of 37–55 GHz and an intensity of 1–100 mW/cm².Exposure of the ampullar canal pore to EMR at an intensity of 1–5 mW/cm² and a distance of 1–10 mm evoked a transient increase in the frequency of low-threshold receptor activity (current threshold was 0.04–0.2 µA). An increase in EMR intensity by more than 8–10 mW/cm² produced, together with elevation of receptor activity, an inhibition due to a rise in temperature of 1–3°C in the region exposed. The phase of increase in frequency of activity was absent in high current-threshold receptors (0.3–2.0 µA) when exposed to EMR. The receptors responded to irradiation of the ampullar canal pore at a distance of 15–20 mm by an increase in discharge frequency for 20 min. Direct irradiation of the ampullae of Lorenzini induced only inhibitory responses in receptor cells regardless of their excitability.The results obtained indicate that the sensory receptors of vertebrates are sensitive to EMR. It is concluded that the excitatory effects are due to direct reception of EMR by electroreceptors, and the inhibitory effects are related to local heating of the Lorenzini ampullar pore.Neirofiziologiya/Neurophysiology, Vol. 25, No. 5, pp. 325–329, September–October, 1993.     

Effect of unilateral surgical denervation of brown adipose tissue on uncoupling protein mRNA level and cytochrom-c-oxidase activity in the Djungarian hamster

The bilateral lobe of interscapular brown adipose tissue of the Djungarian hamster was unilaterally denervated in order to study the role of the sympathetic innervation for maintenance and cold-induced increase of non-shivering thermogenesis. Denervation decreased the noradrenaline content of brown adipose tissue to less than 9% of the intact contralateral pad. This low noradrenaline level was maintained for 1–14 days after denervation. First, to study the role of the sympathetic innervation of brown adipose tissue in the maintenance of the high thermogenic capacity characteristic of the cold acclimated state, brown adipose tissue was denervated in hamsters either kept at thermoneutrality or acclimated to 5°C ambient temperature for 4 weeks. Cold-acclimated hamsters had elevated levels of uncoupling protein messenger ribonucleic acid (8.1-fold) and cytochrom-c oxidase-activity (3-fold). Denervation of brown adipose tissue decreased uncoupling protein-messenger ribonucleic acid level and cytochrom-c-oxidase-activity as compared to the intact pad in thermoneutral and in cold-acclimated hamsters. However, in cold-acclimated hamsters uncoupling protein-messenger ribonucleic acid level and cytochrom-c-oxidase-activity in denervated brown adipose tissue both were maintained on an elevated 6-fold higher levels as compared to thermoneutral controls. Second, to study the role of the sympathetic innervation of brown adipose tissue in the cold-induced increase in thermogenic capacity, hamsters were denervated prior to cold acclimation and responses were measured after 3 and 14 days of cold exposure. Uncoupling protein-messenger ribonucleic acid level and cytochrom-c-oxidase-activity of intact brown adipose tissue increased after 14 days cold acclimation. Denervation did not completely prevent a cold-induced 1.5-fold increase of cytochrom-c-oxidase-activity and a 3.2-fold increase of the uncoupling protein-messenger ribonucleic acid level in denervated brown adipose tissue after 14 days of cold acclimation. In conclusion, high levels of uncoupling protein-messenger ribonucleic acid and cytochrom-c-oxidase activity in brown adipose tissue of cold-acclimated hamsters can partially be maintained without intact sympathetic innervation, suggesting a considerable contribution of trophic factors not requiring sympathetic innervation for maintenance. The cold-induced increase of cytochrom-c-oxidase activity and expression of uncoupling protein-messenger ribonucleic acid largely depends upon sympathetic innervation of brown adipose tissue.Abbreviations ANOVA analysis of variance - BAT brown adipose tissue - COX cytochrom-c-oxidase - HPLC high performance liquid chromatography - mRNA messenger ribonucleie acid - NA noradrenaline - T _a ambient temperature - UCP uncoupling protein     

Nitrogenase Activity and nifH Expression in a Marine Intertidal Microbial Mat

N₂ fixation, diazotrophic community composition, and organisms actively expressing genes for N₂ fixation were examined over at 3−year period (1997–1999) for intertidal microbial mats on a sand flat located in the Rachel Carson National Estuarine Research Reserve (RCNERR) (Beaufort, NC, USA). Specifically, diel variations of N₂ fixation in the mats from the RCNERR were examined. Three distinct diel patterns of nitrogenase activity (NA) were observed. NA responses to short-term inhibitions of photosynthesis corresponded to one of the three patterns. High rates of NA were observed during peak O₂ production periods for diel experiments during summer months. Different types of NA diel variations correspond to different stages of mat development. Chloramphenicol treatments indicated that the mechanism of protein synthesis supporting NA changed throughout the day. Analysis of mat DNA and RNA gave further evidence suggesting that in addition to cyanobacteria, other functional groups were responsible for the NA observed in the RCNERR mats. The role of microbial diversity in the N₂ fixation dynamics of these mats is discussed.