Response of cortical evoked potentials to electric stimulation of the acoustic nerve in animals with damaged cochlea

Evoked potentials of the auditory cortex during the electrical stimulation of the cochlea were studied in acute experiments on cats. A series of electric pulses of short duration and different frequency delivered to the streptomycin-damaged cochlea were used as a stimulus. It has been shown that an amplitude and latency of electrical cortex responses depended on the number of pulses in series and on the interpulse intervals. Amplitudes of evoked responses increased with the growth of the number of stimuli. Latent periods changed in a narrower stimulation frequency band. Dependence of the induced potentials' amplitude growth on the increase in the number of electric pulses changed as a result of the two-fold enhancement of the stimulation amplitude.     

Effects of leukotriene inhibition on pulmonary morphology in rat pup lungs exposed to hyperoxia

Assisted ventilation is necessary for treating preterm infants with respiratory distress syndrome. Unfortunately, high and prolonged concentrations of oxygen associated with assisted ventilation often lead to pulmonary changes, such as hemorrhage and inflammation. The resulting chronic pulmonary condition is known as bronchopulmonary dysplasia. Pulmonary changes characteristic of this syndrome can be produced in rat pups exposed to high oxygen levels. We exposed 21-d-old rats to room air or continuous 95% oxygen for 7 d and then allocated them into 6 groups to evaluate whether treatment with zileuton and zafirlukast, 2 agents which decrease the effects of leukotrienes, lessened the pulmonary effects of short-term hyperoxia. After 7 d, lung tissue was collected for light and electron microscopy. Pulmonary changes including edema, hemorrhage, alveolar macrophage influx, and Type II pneumocyte proliferation were graded on a numerical scoring system. Compared with controls exposed to hyperoxia [corrected] and saline, rats exposed to hyperoxia and treated with zileuton had significantly reduced levels of alveolar macrophage influx and Type II pneumocyte proliferation, but those exposed to hyperoxia [corrected] and treated with zafirlukast showed no significant reduction in any pulmonary changes. This study helps define pulmonary changes induced secondary to hyperoxia in rat pups and presents new information on the mechanisms of leukotriene inhibition in decreasing the severity of hyperoxic lung injury.     

Sex hormones and susceptibility of the rat to paracoccidioidomycosis

The development of intraperitoneal paracoccidioidomycosis was studied in groups of female and male rats: a) U nder normal conditions (intacts), b) After castration and c) After castration but submitted to a treatment with, respectively, testosterone and estradiol.The criterion of susceptibility to infection was based on: 1) Spontaneous mortality of the animals and 2) Number of metastatic pulmonary lesions.The results showed that: the unique deaths and the more severe pulmonary lesions were found among the intact females, representing the animals most susceptible to the infection in these experiments; the intact females showed more numerous lesions than the castrated; the intact males had less lesions than the castrated, and than those castrated which were treated with estradiol.     

Structure and function of the cochlea in the African mole rat (Cryptomys hottentotus): evidence for a low frequency acoustic fovea

Summary The cochlea of the mole rat Cryptomys hottentotus was investigated with physiological and anatomical methods. In order to reveal the place-frequency map of the cochlea, iontophoretic HRP-applications were made in the cochlear nucleus at physiologically characterized locations. Subsequent HRP-transport in auditory nerve fibres and labeling patterns of spiral ganglion cells within the cochlea were evaluated.A cochlear place-frequency map was constructed from 17 HRP-applications in the cochlear nucleus at positions where neurons had characteristic frequencies between 0.1 and 12.6 kHz. As in other mammals, high frequencies were found to be represented at the cochlear base, low frequencies at the cochlear apex. The placefrequency map had three distinct parts which were characterized by their different slopes. A clear overrepresentation of the frequencies between 0.6 and 1 kHz was revealed, in this frequency range the slope of the place-frequency map amounted to 5.3 mm/octave. As calculated from the regression analysis, below 0.6 kHz the slope of the cochlear place-frequency map amounted to 0.24 mm/octave, above 1 kHz to 0.9 mm/octave.As in other mammals width of the basilar membrane (BM) increased from the cochlear base towards the cochlear apex. Also in concordance with the findings in other mammals, BM-thickness decreased from the cochlear base to the apex. However, it was remarkable to find that there was no or little change in BM-width and thickness between 40 and 85% BM-length. It was also revealed that scala tympani was only 1/10th the size found in the rat or other mammals of similar body size.On the basis of the cochlear place-frequency map and the morphological findings we speculate that in Cryptomys hottentotus an acoustic fovea is present in the frequency range between 0.6 and 1 kHz. In analogy to echolocating bats, about half of the cochlea is devoted to the analysis of a narrow frequency band within the hearing range.Abbreviations BM basilar membrane - CF characteristic frequency - CN cochlear nucleus     

Characterization of a H-arginine-vasopressin binding site in the cingulate gyrus of the rat pup

Autoradiographic analysis of 1, 8, 16 and 26-day-old rat brains showed ³H-arginine⁸-vasopressin (³H-AVP) binding to the cingulate gyrus-dorsal hippocampus (CG) only in the 8-day-old rat brain. Saturation analysis of CG membranes prepared from pups (7–10 days) and adults (90 days) revealed a small but significant increase in binding site concentration in adults compared to pups. However, the K_d of the ³H-AVP binding site increased significantly with age. The K_d of ³H-AVP binding to pup CG membranes was 0.9±0.1 nM, while the adult CG was 5.7±1.0 nM. The pharmacological specificity of ³H-AVP binding sites in the pup and adult CG was similar, but differed markedly from the profile observed in adult septal membranes. The primary specificity difference between the pup CG and septum was the reduced potency of certain V₁ receptor antagonists. In competition experiments the CG binding site showed a reduced affinity for the V₁ antagonist, [d(CH₂)₅, Tyr(Me)]AVP. This reduced affinity for the V₁ antagonist was also documented autoradiographically using ³H-[d(CH₂)₅, Tyr(Me)]AVP. The data suggest that the ³H-AVP binding site expressed in the pup CG is not identical to the V₁ type receptor present in the periphery and brain of the adult rat.     

Effect of hindbrain structures on autogenous periodic motor activity in the rat pup

Experiments were performed in order to investigate whether the capacity of periodic motor excitation in rats during early postnatal life is the intrinsic feature of immature spinal cord or it is caused by supraspinal input. It was shown that after low spinal cord transection, birsts of periodic activity can still be obtained in m. gastrocnemius but their duration and amplitude are significantly reduced. After brain stem transection at intercollicular level, this type of activity remains unchanged or slightly increased. It was concluded that periodic motor excitation is due to the spinal mechanisms but bulbo-spinal facilitative influences are necessary for normal intensity of autogenic activity.     

Differential expression of ryanodine receptor in the developing rat cochlea

Ryanodine receptors (RyRs) are one of the intracellular calcium channels involved in regulation of intracellular free calcium concentration ([Ca²⁺]i). The immunolocalization of RyRs was investigated in the developing rat cochlea at different postnatal days (PND). The change of [Ca²⁺]i in isolated outer hair cells (OHCs) was determined. Morphological results showed low expression of RyRs in the Kolliker’s organ from the PND 5 group. RyR expression in inner hair cells (IHCs) increased as the rats aged, and was mature after PND 14. RyRs in OHCs were expressed near the synaptic area of afferent and efferent nerves. RyRs in supporting cells were expressed widely and strongly. The application of ACh, ryanodine + ACh, and thapsigargin + ACh could induce a significant increase in [Ca²⁺]i in OHCs in the presence of extracellular calcium. This increase of [Ca²⁺]i induced by ACh was caused by not only the calcium influx through surface calcium channels, but also the calciuminduced calcium release (CICR) from intracellular RyR-sensitive calcium stores. Morphological and Ca imaging results suggested that RyRs expression is related to cochlear maturity, and may play an important role in its function.Key words: ryanodine receptor, development of cochlea, Ca²⁺, calcium-induced calcium release.Changes in intracellular Ca²⁺ concentration ([Ca²⁺]i) play an important role in cellular communication. The intracellular Ca²⁺ concentration is mainly mediated by two pathways: calcium entry via membrane calcium channels and calcium release from intracellular stores. The latter is mediated by 1, 4, 5-inositol triphosphate receptors (IP3R) and ryanodine receptors (RyRs). Mechanism of calcium release induced by RyRs has been believed to be calcium-induced calcium release (CICR) (Chakraborti et al., 2007). In the mammalian auditory system, calcium released from intracellular calcium stores in inner hair cells (IHCs), outer hair cells (OHCs), Deiters’ cells, and basal cells of stria vascularis plays an important role in the regulation of auditory transduction and electrochemical equilibrium of the cochlea (Bobbin, 2002; Marcotti et al., 2004). Neural transmitters, such as glutamate, ATP, acetylcholine (ACh), and substance P, can activate calcium signaling in spiral ganglia neurons, and then regulate the excitability of auditory neurons (Skinner et al., 2003). It has been reported that RyRs are widely expressed in the IHCs, OHCs, supporting cells in the organ of Corti’s, and in spiral ganglia neurons (SGNs) (Lioudyno et al., 2004; Morton-Jones et al., 2006). In the OHCs, the RyRs are mainly expressed under the reticular lamina, where BK channels are also strongly expressed (Beurg et al., 2005). Other studies also revealed that RyRs expressed in the synaptic area at the bottom of OHCs and the adjacent Deiters’ cells called as synaptoplasmic cistern (Lioudyno et al., 2004; Morton-Jones et al., 2006). Lioudyno et al., 2004; Morton-Jones et al., 2006).Three subtypes of RyRs have been identified expressed in the cochlea. RyR1 was observed in the synapses of OHCs using an SP6-RNA probe. RyR2 was mainly expressed in Corti’s organ and the cytoplasm of IHCs. RyR3 was found in the axons of SGNs located in the inner spiral plexus and the terminal of outer spiral fiber innervating OHCs (Lioudyno et al., 2004; Morton-Jones et al., 2006). These distinct expression patterns suggest that RyRs mediated calcium signaling plays important roles in auditory function.

Table 1

Location of RyR expression in previous references.

Protein expression of pigment-epithelium-derived factor in rat cochlea

Pigment-epithelium-derived factor (PEDF) is a 50-kDa glycoprotein with well-recognised expression in various mammalian organs showing diverse (e.g. anti-angiogenic and neuroprotective) activities. However, at present, no information is available regarding the potential function of this cytokine in the inner ear. As a first approach to investigating whether PEDF is involved in cochlear function, we have explored its protein expression in the rat cochlea by immunocytochemistry. Our results show that PEDF expression in the cochlea is most prominent in the basilar membrane below the organ of Corti, in the lateral wall (especially in the stria vascularis), in ganglion neurons, and in the endothelia of blood vessels. Our findings on its distribution in the cochlea suggest that PEDF in the basilar membrane prevents blood vessel formation that would disturb cochlear micromechanics and would interfere with the mechano-electrical transduction in the organ of Corti. In cochlear ganglion neurons, PEDF might serve a neuroprotective function possibly protecting these neurons from excessive glutamate released by the inner hair cells. Our data constitute the first report on the morphological protein distribution of this multifunctional molecule in the rat cochlea and suggest its role in important functions of the internal ear. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorised users.     

Dietary iron and the integrity of the developing rat brain: a study with the artificially-reared rat pup.

Inadequate iron nutrition is thought to affect many aspects of brain development. Iron is a component of enzyme systems in DNA synthesis, the respiratory chain, neurotransmitter and lipid metabolism. The iron content of the striatum increases post-natally, with neuronal differentiation, myelin lipid and receptor formation: Seventy percent of the iron in the brain is associated with myelin. In an attempt to dissociate the global effects of under-and/or malnutrition and to produce exclusively an iron deficiency, we have used the gastrostomy-reared rat pup fed milk substitutes which vary only in their iron content. To ensure the pups did not have adequate iron reserves at birth, dams were fed a meal diet of low iron content (3 ppm) throughout gestation. The pups were then artificially reared on milk with (43 ppm), and without added iron (2.5 ppm) from 6 up to 21 days after birth. At 21 days of age, body weights of iron deficient pups were about 90% those of control animals. At 21 days of age, the pups were weaned, then fed standard laboratory rat chow. Brain was examined at 42 days of age (for young adults) and up to 6 months of age (180 days as mature adults). Morphometric analysis of sagittal sections of the cerebellum at 21 and 63 days of age revealed a deficit in white matter formation in pups fed low-iron at 21 days of age when compared to controls. This deficit was partially recouped by age 63 days. By contrast, animals fed milk supplemented with iron showed greater definition in white matter formation than controls at 21 days of age; indicative of precocious maturation of the white matter tracts. Our findings indicate that iron deficiency, without under/mal-nutrition and other variables, does not result in extensive growth deficits in body and brain weight. However, the iron status profoundly influences the development of myelination in that the process is delayed in iron deficiency.     

Prolactin levels and maternal behavior induced by ultrasonic vocalizations of the rat pup.

The relationship among ultrasonic vocalization (USV), prolactin and maternal behavior was investigated in lactating rat mothers and their pups. The lactating mother had a cannula inserted into the external jugular vein, and was exposed to USVs emitted from a pup immediately. Changes of prolactin and maternal behavior were determined. Prolactin increased dramatically during exposure to USVs, when maternal search, retrieving and nest building behavior appeared significantly. These results suggested that the relationship among USV, prolactin and maternal behavior was included in communication between lactating mother and pup.