Adenosine 5′-triphosphate (ATP) concentrations in the endolymph and perilymph of the guinea-pig cochlea

The concentration of adenosine 5′-triphosphate (ATP) in endolymph (EL), perilymph (PL) and cerebrospinal fluid (CSF), collected from anesthetized guinea pigs was determined using the luciferase-luciferin reaction. The cochlea was exposed by a ventrolateral approach and the bone overlying scala media of the third turn (EL) or scala vestibuli of the first turn (PL) was shaved to a thin layer and a small fenestrum made. For EL sampling, a double-barrelled pipette was inserted through the spiral ligament-stria vascularis complex. One barrel was filled with 150 mM KCl to record the endocochlear potential (EP) and upon the appearance of the positive EP, 0.12–1.22 μl of fluid was aspirated into the other barrel by gentle negative pressure. For PL sampling, a single-barrelled pipette was advanced into scala vestibuli and 0.3–1.6 μl of fluid was collected by capillarity. CSF (0.36–1.75 μl) was obtained from the cisterna magna. The cochleae were removed and processed for light microscopy to determine the extent of tissue damage from the sampling procedure. ATP concentrations (mean ± SEM, nM) for EL, PL and CSF were 12.95±2.4 (n = 10), 10.5 ± 3.9 (n = 11) and 16.1 ± 5.4 (n =11) respectively. Differences in ATP concentrations among fluids were not statistically significant. To test the effect of hypoxia on ATP levels, a group of guinea pigs was subjected to a90 s period of respiratory anoxia prior to sampling of EL, PL or CSF. ATP concentrations were 14.4 ± 3.5 (n = 11), 20.7 ± 4.1 (n = 10) and 13.5 ± 4.6 (n = 4) for EL, PL and CSF, respectively; only PL ATP concentrations were statistically different (P = 0.018, Wilcoxon rank sum test) to basal conditions. This is the first study which demonstrates the presence of free ATP in cochlear fluids. The results indicate that ATP is present in cochlear fluids at concentrations close to those known to cause hair cell depolarization in vitro.     

Pulmonary epithelial response in the rat lung to instilled Montserrat respirable dusts and their major mineral components

Background: The Soufriere Hills, a stratovolcano on Montserrat, started erupting in July 1995, producing volcanic ash, both from dome collapse pyroclastic flows and phreatic explosions. The eruptions/ash resuspension result in high concentrations of suspended particulate matter in the atmosphere, which includes cristobalite, a mineral implicated in respiratory disorders.

Aims: To conduct toxicological studies on characterised samples of ash, together with major components of the dust mixture (anorthite, cristobalite), and a bioreactive mineral control (DQ12 quartz).

Methods: Rats were challenged with a single mass (1 mg) dose of particles via intratracheal instillation and groups sacrificed at one, three, and nine weeks. Acute bioreactivity of the particles was assessed by increases in lung permeability and inflammation, changes in epithelial cell markers, and increase in the size of bronchothoracic lymph nodes.

Results: Data indicated that respirable ash derived from pyroclastic flows (20.1% cristobalite) or phreatic explosion (8.6% cristobalite) had minimal bioreactivity in the lung. Anorthite showed low bioreactivity, in contrast to pure cristobalite, which showed progressive increases in lung damage.

Conclusion: Results suggests that either the percentage mass of cristobalite particles present in Montserrat ash was not sufficient as a catalyst in the lung environment, or its surface reactivity was masked by the non-reactive volcanic glass components during the process of ash formation.

     

Developmental downregulation of P2X3 receptors in motoneurons of the compact formation of the nucleus ambiguus

Motoneurons of the compact division of the nucleus ambiguus (cNA) are the final output neurons of the swallowing pattern generator. Thus, their normal function is critical to neonatal survival. To explore the role of purinergic signaling in modulating the excitability of these motoneurons during development, immunohistochemical and whole-cell recording techniques were used to characterize expression patterns of ionotropic P2X receptors and the effects of ATP on cNA motoneurons. Medullary slices containing the cNA were prepared from neonatal (P0-4) and juvenile (P15-21) rats. In neonatal cNA motoneurons, local application of 1 mM ATP produced a large (-133 +/- 17 pA; n = 78), desensitizing, inward current that was mimicked by 1 mM alpha,beta meATP and 2meSATP, and inhibited by the P2 antagonist, PPADS (5 microM), and the P2X3 antagonist, A-317481 (0.1-1 mM). In juvenile cNA motoneurons, 1 mM ATP produced negligible currents, while 10 mM ATP produced small (-59 +/- 14 pA; n = 42), primarily non-desensitizing currents. Immunohistochemistry demonstrated that in the neonate, the expression of P2X3 was robust, P2X2 and P2X5 moderate, P2X4 and P2X6 weak, and P2X1 absent. In the juvenile cNA, only low levels of P2X5 and P2X6 labeling were detected. These data indicate that P2X receptors in cNA motoneurons are profoundly downregulated during the first two postnatal weeks, and suggest a role for the purinoceptor system, particularly P2X3 receptors, in the control of esophageal motor networks during early postnatal periods.     

Developmental regulation of neuron-specific P2X3 receptor expression in the rat cochlea

ATP-gated ion channels assembled from P2X3 receptor (P2X3R) subunits contribute to neurotransmission and neurotrophic signaling, associated with neurite development and synaptogenesis, particularly in peripheral sensory neurons. Here, P2X3R expression was characterized in the rat cochlea from embryonic day 16 (E16) to adult (P49-56), using RT-PCR and immunohistochemistry. P2X3R mRNA was strongly expressed in the cochlea prior to birth, declined to a minimal level at P14, and was absent in adult tissue. P2X3R protein expression was confined to spiral ganglion neurons (SGN) within Rosenthal's canal of the cochlea. At E16, immunolabeling was detected in the SGN neurites, but not the distal neurite projection within the developing sensory epithelium (greater epithelial ridge). From E18, the immunolabeling was observed in the peripheral neurites innervating the inner hair cells but was reduced by P6. However, from P2-8, immunolabeling of the SGN neurites extended to include the outer spiral bundle fiber tract beneath the outer hair cells. This labeling of type II SGN afferent fiber declined after P8. By P14, all synaptic terminal immunolabeling in the organ of Corti was absent, and SGN cell body labeling was minimal. In adult cochlear tissue, P2X3R immunolabeling was not detected. Noise exposure did not induce P2X3R expression in the adult cochlea. These data indicate that ATP-gated ion channels incorporating P2X3R subunit expression are specifically targeted to the afferent terminals just prior to the onset of hearing, and likely contribute to the neurotrophic signaling which establishes functional auditory neurotransmission.