Ontogeny of odorant receptor gene expression in zebrafish,Danio rerio

We cloned three putative odorant receptor (OR) genes from the zebrafish to use as in situ hybridization probes to follow the temporal patterns of neurons expressing OR genes through a developmental progression from embryo (12 h postfertilization) to adult. The identification of these genes is supported by sequence homology to previously reported ORs and by the morphology and location of labeled cells in in situ hybridization experiments. Cells expressing OR mRNA were first observed in the olfactory placodes between 31 and 38 h after fertilization (fish reared at 26°C). Initially, only single cells were observed to hybridize the probe; the number of labeled cells increased throughout the remainder of embryogenesis and through postembryonic growth and morphogenesis of the olfactory organ. At all ages, the positively hybridizing cells were scattered throughout the olfactory epithelium but not in the nonsensory epithelium of the olfactory organ. © 1996 John Wiley & Sons, Inc.     

Mitral/tufted cell activity is attenuated and becomes uncoupled from respiration following naris closure

Patterned neural activity helps to establish neuronal connectivity, produce coding of sensory information, and shape synaptic strengths. Here we demonstrate that normal olfactory bulb development might rely on spatial and temporal patterns of afferent neural activity. Neonatal naris occlusion profoundly impacts the development of the ipsilateral olfactory bulb, including reduced bulb volume, decreased protein synthesis, and increased cell death. Relatively few morphologic changes occur if closure is performed postweaning. We examined the immediate electrophysiological consequences of occlusion across this developmentally sensitive period by recording spontaneous and odor-driven mitral/tufted cell responses while the naris was open, closed, and then reopened. In 1-week-old animals, occlusion severely attenuated spontaneous activity, and presentation of the broad-spectrum odorant amyl acetate failed to evoke responses. In 2- and 4-week old rats, spontaneous activity was also reduced by naris closure. However, some cells remained responsive to concentrated odors, even in animals with transected anterior commissures, suggesting passage of odors across the septal window or retronasal pathways. In all age groups, cellular activity became uncoupled from the respiratory cycle. Approximately 47% (18 of 38) of the mitral/tufted cells exhibited activity that was correlated with respiration in the open-naris state, while only 5% (2 of 38) were coupled during naris closure. These data (a) indicate that naris closure reduces both spontaneous and odor-evoked responses, and (b) provide an electrophysiological correlate to a sensitive period in bulb development. The loss of respiration-related synchrony and the reduced activity of mitral/tufted cells may synergistically contribute to the divers consequences of naris closure on bulb development. © 1997 John Wiley & Sons, Inc. J Neurobiol 33: 374–386, 1997     

Calcium‐binding proteins: Differential expression in the rat olfactory cortex after neonatal olfactory bulbectomy

Calbindin, parvalbumin, and calretinin, members of EF‐hand calcium‐binding proteins, play important roles in buffering intracellular calcium ions. These proteins are localized in distinct populations of cells in the olfactory bulb (the primary sensory relay in the olfactory system) and its major synaptic target, the primary olfactory cortex (POC). In the present study, the postnatal expression of these calcium‐binding proteins in layer III of POC was quantitatively examined 30 days after neonatal bulbectomy, a manipulation known to cause cell death and neurotransmitter changes. The numbers of both calbindin and parvalbumin‐immunoreactive profiles showed significant increases (68% and 163%, respectively), while calretinin‐immunoreactive profiles exhibited a 46% reduction. The data demonstrate that the expression of these calcium‐binding proteins is regulated in part by the afferent input from the olfactory bulb. Furthermore, the resultant increase in calbindin and parvalbumin expression may provide neuroprotective support necessitated by possible alterations in intracellular calcium ions and other neurochemical factors that accompany neonatal bulb removal. © 1999 John Wiley & Sons, Inc. J Neurobiol 39: 207–217, 1999     

Precocious nasal chemosensitivity in hyperthyroid rat pups

The development of nasal chemosensitivity was measured in rat pups that received exogenous l-thyroxine or a vehicle injection on postnatal Days 1–4. Unconditioned respiratory responses were used to measure detection of the olfactant, amyl acetate, which was presented via a dilution olfactometer in an ascending series of log-unit concentrations. Thyroxine-treated pups exhibited greater sensitivity than control subjects on Day 6. Sensitivity appeared to converge in hormone-treated and control pups by Day 8 and continued to improve in both groups until the last day of testing (Day 16).     

Development of the anterior commissure in the opossum: Midline extracellular space and glia coincide with early axon decussation

While the anterior commissure has been shown to be an important route of information transfer in the forebrain, relatively little is known about its anatomical development. Glial substrates and extracellular spaces have been associated with the maturation of other large-fiber tracts, such as the corpus callosum and retinofugal pathway. The present study examined early stages in the maturation of the commissure in the gray short-tailed opossum, Monodelphis domestica. Monodelphis offspring are born after a short 14-day gestation, and, unlike in rats and mice, the anterior commissure develops entirely during the postnatal period. A number of techniques were employed: the carbocyanine dye Dil was used to label early axons in the region, semithin plastic sections were used to examine the extracellular environment of the developing commissure, and immunocytochemistry for glial fibrillary acidic protein (GFAP) was used to characterize glial components. Results suggest that the first commissural fibers that cross the midline pass through a region of large extracellular spaces and may use GFAP-immunoreactive cells and processes as guides during their midline decussation. © 1997 John Wiley & Sons, Inc. J Neurobiol 32: 403–414, 1997.     

NMDA receptor regulation of cell death in the rat olfactory bulb

Cell death is widespread in the developing nervous system and is under complex regulation by numerous intra- and intercellular mechanisms. Blockade of the N-methyl-D-aspartate (NMDA) subtype of glutamate receptor has been shown to promote cell death in the developing brain (Ikonomidou et al., 1999), suggesting that afferent functional activation is an important regulator of cell survival. The olfactory bulb, the first central relay for olfactory information from the nose, is well suited for examining the role of afferent activity in neuronal development. Functional deprivation is easily performed by surgical blockade of airflow to one side of the nasal passage, which results in dramatic alterations in postnatal development of the bulb (Brunjes, 1994), including enhanced neuronal loss (Frazier and Brunjes, 1988; Najbauer and Leon, 1995). The present report examined the specific role of NMDA receptor activation in regulating cell survival within the rat bulb. Pharmacological blockade of receptors with the noncompetitive channel blocker MK-801 (3 x 0.5 mg/kg i.p.) resulted in profound increases in cell death within 24 h. Furthermore, in contrast to other regions, where the effects of receptor blockade were confined to the first 2 postnatal weeks (Ikonomidou et al., 1999), enhancement of cell death was seen in the deeper granule cell-containing regions of the bulb with injections as late as postnatal day 28. In addition, the effects of MK-801 were much more dramatic than those seen after unilateral naris closure, suggesting that NMDA receptor activation may mediate additional survival pathways in the bulb beyond that provided by first nerve input.     

Lessons from lesions: the effects of olfactory bulbectomy

Olfactory bulb removal has been used to examine a wide-rangingnumber of topics. The present review outlines the categoriesof studies employing the technique, discusses some problemswith the methodology and with previous interpretations of observedresults, and suggests some potential avenues of investigation.     

Effects of unilateral olfactory deprivation in the developing opossum,Monodelphis domestica

Unilateral naris closure in young rodents leads to striking alterations in the development of the ipsilateral olfactory system. One of the most pronounced effects is a 25% reduction in the size of the experimental olfactory bulb, a change that stems in part from decreased cell survival. Since naris occlusion in rodents alters the system more during development than in adulthood, we investigated the consequences of olfactory deprivation in a species that is born in a very immature state, Monodelphis domestica. In this pouchless marsupial, offspring are born after a short 14-day gestation. In the present study, the thymidine analogue bromodeoxyuridine was used to examine early postnatal neurogenesis in the olfactory bulb. Unlike rats and mice, neurogenesis of the main output neurons (the mitral cells) continues into postnatal life. Unilateral naris closure was begun on postnatal day 4 (P4) or P5 in Monodelphis and continued for 30 or 60 days. Laminar volume measurements revealed a significant reduction in the size of the experimental bulb following 60, but not 30, days of early olfactory deprivation. Mitral cell number estimates indicated a significant reduction after both 30 and 60 days of naris closure. The immaturity of Monodelphis offspring may render the population of mitral cells susceptible to the effects of olfactory deprivation. These findings suggest that afferent activity plays a role in the survival of all bulb neurons, irrespective of cell class. © 1997 John Wiley & Sons, Inc. J Neurobiol 33: 429–438, 1997