This project will test the hypothesis that intracellular pH (pHi) is the stimulus for central chemoreception of CO2, one of the strongest stimuli to breathing. It will employ a novel technique, that of fluorescence imaging microscopy of single neuronal cell bodies in neonatal and juvenile rat medullary brain slices loaded with a pH-sensitive fluorescent dye (BCECF), to study pHi regulation in chemosensitive and non-chemosensitive central neurons. Neurons are defined as chemosensitive by having an excitatory response to increased CO2. Sharp electrode impalement or perforated patch clamp will be used to measure electrophysiological properties of single neurons and standard methods for examination of pHi regulation will be employed (NH4Cl-induced acidification, pHi recovery with various external ion substitutes and in the presence of various inhibitors of pH regulation). The expectation is that central chemoreceptor neurons will have marked and maintained pHi changes with low buffering power and little recovery and that the electrophysiological responses will correlate with pHi. The four specific aims are: 1) characterize pHi regulatory responses (buffering power, pHo/pHi relationship, complement of pH-regulating transporters), 2) measure pHi responses to acid-base changes known to affect output, 3) determine electrophysiologic output under these conditions, and 4) measure simultaneously pHi and electrical activity.

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
5R01HL056683-04
Application #
6183738
Study Section
Respiratory and Applied Physiology Study Section (RAP)
Project Start
1997-07-01
Project End
2001-07-31
Budget Start
2000-07-01
Budget End
2001-07-31
Support Year
4
Fiscal Year
2000
Total Cost
$217,721
Indirect Cost
Name
Wright State University
Department
Physiology
Type
Schools of Medicine
DUNS #
City
Dayton
State
OH
Country
United States
Zip Code
45435
Lopes, L T; Patrone, L G A; Li, K-Y et al. (2016) Anatomical and functional connections between the locus coeruleus and the nucleus tractus solitarius in neonatal rats. Neuroscience 324:446-68
Nichols, Nicole L; Powell, Frank L; Dean, Jay B et al. (2014) Substance P differentially modulates firing rate of solitary complex (SC) neurons from control and chronic hypoxia-adapted adult rats. PLoS One 9:e88161
Imber, Ann N; Santin, Joseph M; Graham, Cathy D et al. (2014) A HCO(3)(-)-dependent mechanism involving soluble adenylyl cyclase for the activation of Ca²? currents in locus coeruleus neurons. Biochim Biophys Acta 1842:2569-78
Matott, M P; Ciarlone, G E; Putnam, R W et al. (2014) Normobaric hyperoxia (95% O?) stimulates CO?-sensitive and CO?-insensitive neurons in the caudal solitary complex of rat medullary tissue slices maintained in 40% O?. Neuroscience 270:98-122
Li, Ke-Yong; Putnam, Robert W (2013) Transient outwardly rectifying A currents are involved in the firing rate response to altered CO2 in chemosensitive locus coeruleus neurons from neonatal rats. Am J Physiol Regul Integr Comp Physiol 305:R780-92
Imber, Ann N; Putnam, Robert W (2012) Postnatal development and activation of L-type Ca2+ currents in locus ceruleus neurons: implications for a role for Ca2+ in central chemosensitivity. J Appl Physiol 112:1715-26
Dean, Jay B (2010) Hypercapnia causes cellular oxidation and nitrosation in addition to acidosis: implications for CO2 chemoreceptor function and dysfunction. J Appl Physiol 108:1786-95
Garcia 3rd, Alfredo J; Putnam, Robert W; Dean, Jay B (2010) Hyperoxic stimulation of synchronous orthodromic activity and induction of neural plasticity does not require changes in excitatory synaptic transmission. J Appl Physiol 109:820-9
Putnam, Robert W (2010) CO2 chemoreception in cardiorespiratory control. J Appl Physiol 108:1796-802
Garcia 3rd, Alfredo J; Putnam, Robert W; Dean, Jay B (2010) Hyperbaric hyperoxia and normobaric reoxygenation increase excitability and activate oxygen-induced potentiation in CA1 hippocampal neurons. J Appl Physiol 109:804-19

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