Effects of nicotine on regional blood flow in the olfactory bulb in response to olfactory nerve stimulation.

This study examined the effect of olfactory nerve stimulation on regional cerebral blood flow and assessed the effect of intravenous nicotine administration on this response in anesthetized rats. Regional cerebral blood flow was measured with laser Doppler flowmetry or laser speckle contrast imaging. Unilateral olfactory nerve stimulation for 5 s produced current (≥ 100 µA) and frequency-dependent (≥ 5 Hz) increases in blood flow in the olfactory bulb ipsilateral to the stimulus. The increased olfactory bulb blood flow peaked at 30 ± 7% using stimulus parameters of 300 µA and 20 Hz. Nerve stimulation did not change frontal cortical blood flow or mean arterial pressure. The intravenous injection of nicotine (30 µg/kg) augmented the olfactory bulb blood flow response to nerve stimulation (20 Hz, 300 µA) by approximately 1.5-fold (60-s area after the stimulation). These results indicate that olfactory nerve stimulation increases olfactory bulb blood flow, and the response is potentiated by the activation of nicotinic cholinergic transmission.

Autonomic Brain Centers and Pathophysiology of COVID-19.

Accumulating data have now shown strong evidence that COVID-19 infection leads to the occurrence of neurological signs with different injury severity. Anosmia and agueusia are now well documented and included in the criteria list for diagnosis, and specialists have stressed that doctors screen COVID-19 patients for these two signs. The eventual brainstem dysregulation, due to the invasion of SARS CoV-2, as a cause of respiratory problems linked to COVID-19, has also been extensively discussed. All these findings lead to an implication of the central nervous system in the pathophysiology of COVID-19. Here we provide additional elements that could explain other described signs like appetite loss, vomiting, and nausea. For this, we investigated the role of brainstem structures located in the medulla oblongata involved in food intake and vomiting control. We also discussed the possible pathways the virus uses to reach the brainstem, i.e., neurotropic and hematogenous (with its two variants) routes.

Examination of the influence of cedar fragrance on cognitive function and behavioral and psychological symptoms of dementia in Alzheimer type dementia.

We examined whether symptoms of dementia are improved by olfactory nerve stimulation in Alzheimer type dementia patients. First, a stick-type olfactory identification ability test was performed in patients with Alzheimer type dementia, to select patients without olfactory dysfunctions. Then, these patients were randomly assigned into the intervention (n = 19) and the control groups (n = 17). To evaluate the effects of olfactory nerve stimulation, we exposed the intervention group to a disinfecting ethanol with added aroma extracts from ceder and the control group to the ethanol without the added aroma extracts. Each group underwent the intervention for 8 weeks, cognitive and behavioral functions were evaluated before and after treatments using the Neuropsychiatric Inventory (NPI), the Japanese version of Zarit Caregiver Burden interview (J-ZBI), and the Alzheimer's Disease Assessment Scale-cognitive subscale (ADAS-cog). A significant improvement was observed in the NPI score and J-ZBI in the intervention group compared to the control group at 4 and 8 weeks. On the other hand, there was no significant difference in the score of ADAS-cog. Exposure to cedar fragrance improved behavioral and psychological symptoms of dementia (BPSD) in Alzheimer type dementia and may reduce the burden of nursing care. In addition to its effectiveness, the procedure is simple and minimally invasive and would be a valuable non-pharmaceutical treatment.

Entrenamiento olfatorio: revisión de literatura / Olfactory training: review of literature

RESUMEN La disfunción olfatoria es una patología frecuente que trae consigo una disminución importante en la calidad de vida de los pacientes y que incluso conlleva una mortalidad aumentada respecto a la población general. Sin embargo, es una condición subdiagnosticada, ya sea por desconocimiento de los profesionales o por falta de un método diagnóstico adecuado. A la fecha no existe un tratamiento efectivo para estos pacientes y generalmente se les deja sin tratar. Una alternativa para este gran problema es el entrenamiento olfatorio, tratamiento propuesto recientemente con resultados promisorios.

ABSTRACT Olfactory dysfunction is a frequent pathology associated with an important decrease in the quality of life of patients and an increased mortality respect to the general population. However, it is an underdiagnosed condition, either due to lack of knowledge of the professionals or due to the lack of an adequate diagnostic method. To date there is no effective treatment for these patients and they are usually left untreated. An alternative to this problem is olfactory training, a treatment recently proposed with promising results.

Prognostic value of olfactory nerve damage measured with thallium-based olfactory imaging in patients with idiopathic olfactory dysfunction.

Idiopathic olfactory disorder is resistant to treatment, and the recovery time is long. This study investigated the prognostic value of the migration of nasally administered thallium-201 to the olfactory bulb (thallium migration to the OB), a measure of olfactory nerve damage, in patients with idiopathic olfactory disorders. Twenty-four patients with idiopathic olfactory disorders were enrolled in the study (7 women and 17 men; aged 23-73 years). We retrospectively analyzed potential prognostic markers in subjects who underwent thallium-based olfactory imaging with the nasal administration of thallium-201 before conventional treatment with the Japanese herbal medicine tokishakuyakusan and compared those data with the prognosis. Log-rank tests were performed to assess the relationship between thallium migration to the OB (<4.6% [low] vs. ≥4.6% [high]; data dichotomized at the optimal cutoff value) and the duration until recovery of the odor recognition threshold determined by a standard olfactory function test (T&T olfactometry) after the treatment. Upon statistical analysis, we found that high thallium migration to the OB was significantly correlated with better prognosis in patients. Our results suggest that patients with intact olfactory nerve fibers could be selected using thallium-based imaging for the long-term follow-up of olfactory dysfunction.

[Effect of electro-acupuncture combined with olfactory ensheathing cell transplantation on spinal cord injury axonal regeneration and direction].

OBJECTIVE: To explore the impact and mechanism of electro-acupuncture (EA) on olfactory ensheathing cells (OECs) transplantation of spinal cord injury (SCI) axonal regeneration. METHODS: In the experiment, 72 adult Sprague Dawley male rats weighted (220±20) g underwent contusion and transection method to cause the T9 model of spinal cord injury, were randomly divided into four groups involving model group, EA group,OECs group,and EA+OECs group. 5% fluorescein gold (FG) solution of 0.5 µl was injected into rats' spinal cord at 4 weeks and 8 weeks after SCI, a series of tests were performed including fluorescein gold(FG) retrograde tagging, BBB scores. RESULTS: (1)The BBB scores level among four groups had no differences from the 1st day to the 1st week after the SCI (P>0.05). From the 3rd week after the SCI, the BBB scores level in EA+ OECs group were obviously higher than that of other groups (P<0.05). (2)The result of the fluorescein gold (FG) retrograde tagging showed at 4 weeks and 8 weeks after treatment FG positive nerve fibers were observed in SCI region. In EA+OECs group the number of FG positive nerve fibers was more than other three groups, and the fibers were more regularly arranged than other three groups. CONCLUSION: The combination of electro-acupuncture and OECs transplantation can recover the pathway of nerve conduction and promote nerve fibers regeneration and hind limb function recovery for SCI rat, and can guide the trend of the axonal regeneration.

Effect of electro-acupuncture combined with olfactory ensheathing cell transplantation on spinal cord injury axonal regeneration and direction / 中国骨伤

<p><b>OBJECTIVE</b>To explore the impact and mechanism of electro-acupuncture (EA) on olfactory ensheathing cells (OECs) transplantation of spinal cord injury (SCI) axonal regeneration.</p><p><b>METHODS</b>In the experiment, 72 adult Sprague Dawley male rats weighted (220±20) g underwent contusion and transection method to cause the T9 model of spinal cord injury, were randomly divided into four groups involving model group, EA group,OECs group,and EA+OECs group. 5% fluorescein gold (FG) solution of 0.5 µl was injected into rats' spinal cord at 4 weeks and 8 weeks after SCI, a series of tests were performed including fluorescein gold(FG) retrograde tagging, BBB scores.</p><p><b>RESULTS</b>(1)The BBB scores level among four groups had no differences from the 1st day to the 1st week after the SCI (P>0.05). From the 3rd week after the SCI, the BBB scores level in EA+ OECs group were obviously higher than that of other groups (P<0.05). (2)The result of the fluorescein gold (FG) retrograde tagging showed at 4 weeks and 8 weeks after treatment FG positive nerve fibers were observed in SCI region. In EA+OECs group the number of FG positive nerve fibers was more than other three groups, and the fibers were more regularly arranged than other three groups.</p><p><b>CONCLUSION</b>The combination of electro-acupuncture and OECs transplantation can recover the pathway of nerve conduction and promote nerve fibers regeneration and hind limb function recovery for SCI rat, and can guide the trend of the axonal regeneration.</p>

Brain responses to olfactory and trigeminal exposure in idiopathic environmental illness (IEI) attributed to smells -- an fMRI study.

OBJECTIVE: Idiopathic environmental intolerance (IEI) to smells is a prevalent medically unexplained illness. Sufferers attribute severe symptoms to low doses of non-toxic chemicals. Despite the label, IEI is not characterized by acute chemical senses. Theoretical models suggest that sensitized responses in the limbic system of the brain constitute an important mechanism behind the symptoms. The aim was to investigate whether and how brain reactions to low-levels of olfactory and trigeminal stimuli differ in individuals with and without IEI. METHODS: Brain responses to intranasally delivered isoamyl acetate and carbon dioxide were assessed in 25 women with IEI and 26 non-ill controls using functional magnetic resonance imaging. RESULTS: The IEI group had higher blood-oxygenated-level-dependent (BOLD) signal than controls in the thalamus and a number of, mainly, parietal areas, and lower BOLD signal in the superior frontal gyrus. The IEI group did not rate the exposures as more intense than the control group did, and there were no BOLD signal differences between groups in the piriform cortex or olfactory regions of the orbitofrontal cortex. CONCLUSIONS: The IEI reactions were not characterized by hyper-responsiveness in sensory areas. The results can be interpreted as a limbic hyperreactivity and speculatively as an inability to inhibit salient external stimuli.

Intranasal exposure to uranium results in direct transfer to the brain along olfactory nerve bundles.

AIMS: Uranium olfactory uptake after intranasal exposure raises some concerns for people potentially exposed to airborne radionuclide contamination as the brain could be a direct target for these contaminants. A model of nasal instillation was used to elucidate the transport mechanisms of uranium to the brain and to map its localization. METHODS: Increasing concentrations of depleted uranium containing solutions were instilled in the nasal cavity of adult male rats. Uranium concentrations were measured using inductively coupled plasma-mass spectrometry (ICP-MS) 4 h after instillation. Olfactory neuroepithelium cytoarchitecture was studied using immunohistochemistry experiments. Secondary ion mass spectrometry (SIMS) microscopy was performed to localize uranium in the olfactory system. RESULTS: ICP-MS analyses showed a frontal accumulation of uranium in the olfactory bulbs associated with a smaller increase in more caudal brain regions (frontal cortex, hippocampus and cerebellum). Uranium concentrations in the olfactory bulbs do not reach a saturation point. Olfactory nerve bundle integrity is not affected by uranium as revealed by immunohistochemistry. SIMS microscopy allowed us to show that uranium localization is mainly restricted to the olfactory neuroepithelium and around olfactory nerve bundles. It is subsequently detected in the olfactory nerve layer of the olfactory bulb. DISCUSSION: These results suggest the existence of a transcellular passage from the mucosa to the perineural space around axon bundles. Uranium bypasses the blood brain barrier and is conveyed to the brain via the cerebrospinal fluid along the olfactory nerve. Future studies might need to integrate this new contamination route to assess uranium neurotoxicity after nasal exposure.

Effects of combined acupuncture and eugenol on learning-memory ability and antioxidation system of hippocampus in Alzheimer disease rats via olfactory system stimulation.

OBJECTIVE: To investigate the effects of combined acupuncture and eugenol on learning-memory ability and the antioxidation system of the hippocampus in Alzheimer disease (AD) rats. METHODS: Sixty Sprague Dawley rats, weighing (300 +/- 10) g, were randomly divided with 10 rats per group into a normal control group, AD model group, AD with cut olfactory nerve group, Xiu three-needle group, eugenol group, and combined acupuncture and eugenol group. The AD model was established by injection of amyloid beta1-40 (Abeta 1-40). Morris maze tests were conducted for evaluating the learning-memory ability. Content of malondialdehyde (MDA) and activities of superoxide dismutase (SOD) and glutathione peroxidase (GSH-Px) in the hippocampus were detected. RESULTS: The average escape latency and the mean swimming distance in the normal control group, the Xiu three-needle group, the eugenol group, and the combined acupuncture and eugenol group were significantly shorter than those in the AD model group (all P < 0.01). The combined acupuncture and eugenol group had shorter escape latency and mean swimming distance than those in the Xiu three-needle group and the eugenol group. There were no significant differences between the Xiu three-needle group and the eugenol group and between the AD group and the AD with cut olfactory nerve group (P > 0.05). Compared with the normal control group, the MDA content in the hippocampus significantly increased (P < 0.05) and GSH-Px and SOD activities significantly decreased in the AD model group (P < 0.01). Compared with the AD model group, significantly decreased (P < 0.01) and SOD and GSH-Px activities significantly increased in the Xiu three-needle group, eugenol group, and combined acupuncture and eugenol group (P < 0.05). Compared with the Xiu three-needle group and eugenol group, the MDA content significantly decreased (P < 0.05) and SOD and GSH-Px activities increased (P < 0.05) in the combined acupuncture and eugenol group. There were no significant differences among the three indices between the Xiu three-needle group and the eugenol group and between the AD model group and the AD with cut olfactory nerve group (P > 0.05). CONCLUSION: Both Xiu three-needle and eugenol can increase learning-memory ability, decrease MDA content, and increase SOD and GSH-Px activities in the hippocampus in AD rats. The combination of acupuncture with eugenol has stronger effects, and the effects depend on the olfactory pathway.

Kisspeptin: a new neuronal target of primer pheromones in the control of reproductive function in mammals.

Pheromones are known to trigger either short-term behavioral responses, usually referred to as "releaser effects", or more long-term physiological changes, known as "primer effects", which especially affect reproductive function at the level of the gonadotrope axis. The precise mechanisms through which pheromones interact with the gonadotrope axis in the hypothalamus is not fully known. We propose that the neuropeptide Kisspeptin, could be a specific target of primer pheromones, allowing these pheromones to modulate the gonadotrope axis and GnRH activity. This emerging hypothesis is discussed in the context of puberty acceleration in female mice and the male effect in female ungulates (sheep or goat). These examples have been chosen to illustrate the diversity of the reproductive contexts in mammals and potential mechanisms affected by primer effects at the level of the gonadotrope axis.

Immunohistochemical distribution of calretinin and calbindin (D-28k) in the brain of the cladistian Polypterus senegalus.

Polypteriform fishes are believed to be basal to other living ray-finned bony fishes, and they may be useful for providing information of the neural organization that existed in the brain of the earliest ray-finned fishes. The calcium-binding proteins calretinin (CR) and calbindin-D28k (CB) have been widely used to characterize neuronal populations in vertebrate brains. Here, the distribution of the immunoreactivity against CR and CB was investigated in the olfactory organ and brain of Polypterus senegalus and compared to the distribution of these molecules in other ray-finned fishes. In general, CB-immunoreactive (ir) neurons were less abundant than CR-ir cells. CR immunohistochemistry revealed segregation of CR-ir olfactory receptor neurons in the olfactory mucosa and their bulbar projections. Our results confirmed important differences between pallial regions in terms of CR immunoreactivity of cell populations and afferent fibers. In the habenula, these calcium-binding proteins revealed right-left asymmetry of habenular subpopulations and segregation of their interpeduncular projections. CR immunohistochemistry distinguished among some thalamic, pretectal, and posterior tubercle-derived populations. Abundant CR-ir populations were observed in the midbrain, including the tectum. CR immunoreactivity was also useful for characterizing a putative secondary gustatory/visceral nucleus in the isthmus, and for distinguishing territories in the primary viscerosensory column and octavolateral region. Comparison of the data obtained within a segmental neuromeric context indicates that some CB-ir and CR-ir populations in polypteriform fishes are shared with other ray-finned fishes, but other positive structures appear to have evolved following the separation between polypterids and other ray-finned fishes.

¿Cómo se conecta la olfacción? Mecanismos celulares y moleculares que dirigen el desarrollo de las conexiones sinápticas desde la nariz a la corteza (I) / How is the sense of smell connected? Cellular and molecular mechanisms guiding the development

Resumen. Dentro del conjunto del sistema nervioso central, el sistema olfativo resulta fascinante por sus particularidades fisiológicas durante el desarrollo, siendo uno de los modelos más estudiados para entender los mecanismos relacionados con la guía y el crecimiento axonal hacia sus objetivos apropiados. Se conoce una constelación de mecanismos, unos mediados por contacto (lamininas, moléculas de adhesión celular, efrinas, etc.) y otros secretables (semaforinas, slits, factores de crecimiento, etc.), por desempeñar diversas funciones en el establecimiento de las interacciones sinápticas entre el epitelio olfativo, el bulbo olfativo y la corteza olfativa. También se han propuesto al respecto otros mecanismos específicos de este sistema, incluida la increíble familia de cerca de 1.000 receptores olfativos distintos. En los últimos años, diferentes revisiones se han concentrado en los elementos parciales de este sistema, sobre todo en los mecanismos implicados en la formación del nervio olfativo, echándose en falta una revisión detallada de aquellos relacionados con el desarrollo de las conexiones entre las distintas estructuras olfativas (epitelio, bulbo y corteza). En esta primera parte de la revisión, abordamos este tema desde el siguiente enfoque: los diversos mecanismos celulares y moleculares que dirigen la formación del nervio olfativo y el tracto olfativo lateral (AU)

Summary. The physiological particularities that occur during the development of the olfactory system make it one of the most fascinating parts of the central nervous system and one of models that has been most widely studied in order to understand the mechanisms related with axonal growth and guidance towards the right targets. A variety of mechanisms are known, some mediated by contact (laminins, cell adhesion molecules, ephrins, etc.) and others that are secreted (semaphorins, slits, growth factors, etc.), to play diverse roles in establishing the synaptic interactions among the olfactory epithelium, the olfactory bulb and the olfactory cortex. In relation to this, other specific mechanisms for this system have also been proposed, including the incredible family of close to 1000 different olfactory receptors. In recent years, different reviews have focused on the partial elements of this system, especially on the mechanisms involved in the formation of the olfactory nerve. However, no detailed review of those related with the development of the connections between the different olfactory structures (epithelium, bulb and cortex) has been put forward to date. In this first part of the review, we address this topic from the following perspective: the different cellular and molecular mechanisms that guide the formation of the olfactory nerve and the lateral olfactory tract (AU)

Polyethylene glycol-conjugated immunoliposomes specific for olfactory ensheathing glial cells.

A novel immunoliposome delivery system was developed for directed transport into cultured olfactory epithelium cells. Monoclonal antibodies against glial fibrillary acidic protein (GFAP) served as a vector. Fluorescence microscopy showed that the target cells are specifically stained with Dil dye incorporated into liposomal membranes. This transport system holds promise for the delivery of bioactive substances to olfactory epithelial cells and modulation of their capacity to stimulate axonal regeneration.

Effect of ginkgo biloba and dexamethasone in the treatment of 3-methylindole-induced anosmia mouse model.

BACKGROUND: Olfactory loss is a challenging disease. Although glucocorticoid is sometimes used for the treatment of anosmia, it has been reported that it potentiated neural damage in the early phase of treatment. This study is designed to identify the effect of ginkgo biloba, an antioxidant that acts as a free radical scavenger, in the treatment of olfactory injury aggravated by dexamethasone. METHODS: Anosmia mouse model was induced by i.p. injection of 3-methylindole (3-MI). Twenty-five mice were divided into one control group without anosmia and four anosmia treatment groups (given treatments of dexamethasone and/or ginkgo biloba). The effects of treatment were evaluated by behavioral test, Western blot, and immunohistochemistry 2 weeks after 3-MI injection. RESULTS: Induction of anosmia was confirmed by behavioral tests. The thickness and cell number of olfactory neuroepithelium were decreased more significantly in the dexamethasone treatment group than in the combination treatment group. The expression of olfactory marker protein (OMP) in olfactory epithelium was more decreased also in the dexamethasone treatment group than in the combination treatment group. The expression of OMP was decreased significantly in the olfactory bulbs of anosmia groups but there were no differences between the anosmia treatment groups. CONCLUSION: Dexamethasone treatment was associated with further deterioration of olfactory injury by 3-MI and it was recovered by combination treatment of dexamethasone and ginkgo biloba. The antioxidant effect of ginkgo biloba might play a role in restoration of olfactory loss and it was effective only when oxidative stress is maximized by dexamethasone.

Effect of Ninjin-yoei-to (Rensheng-Yangrong-Tang) on olfactory behavior after olfactory nerve transection.

Ninjin-yoei-to (NYT), a Japanese traditional medicine, is used to treat athrepsia due to surgery, anorexia, cold constitution, and anemia. There are reports of the effects of NYT on the nervous system; however, there have been no behavioral studies of the effect of NYT on olfactory function. The olfactory system undergoes continuous replacement of sensory neurons. Morphologic and behavioral studies have shown that the olfactory system recovers after bilateral olfactory nerve transection (BNX). However, in the humans, olfactory function does not always recover. In this study, we examined the effect of oral NYT on behavioral recovery after BNX. Fourteen mice were subjected to BNX. The regular diet was mixed with 2% NYT (NYT diet). Mice were separated into two groups; seven mice were fed the regular diet (control group), and seven mice were fed the NYT diet (NYT group). NYT was administered beginning 7 days prior to BNX and continuing for 35 days after BNX. Mice in both groups had free access to food and water. Olfactory function was evaluated by testing each mouse's ability to avoid cotton balls treated with acetic acid. After BNX, mice lost their ability to avoid cotton balls treated with acetic acid. In the control group, the time for behavioral recovery after BNX was 28 days. In the NYT group, the time for behavioral recovery after BNX was 21 days. NYT hastened behavioral recovery after BNX. NYT may have therapeutic benefits for patients with olfactory disorders.

Role of transcription factors in motoneuron differentiation of adult human olfactory neuroepithelial-derived progenitors.

Neurosphereforming cell (NSFC) lines have been established from cultures of human adult olfactory neuroepithelium. Few of these cells ever express mature neuronal or glial markers in minimal essential medium supplemented with 10% fetal bovine serum or defined medium. However, these neural progenitors have the potential to differentiate along glial or neuronal lineages. To evaluate the potential of NSFCs to form motoneurons, transcription factors Olig2, Ngn2, and HB9 were introduced into NSFCs to determine if their expression is sufficient for motoneuron specification and differentiation, as has been shown in the early development of the avian and murine central nervous systems in vivo. NSFCs transfected with Olig2, Ngn2, and HB9 alone exhibited no phenotypic lineage restriction. In contrast, simultaneous transfection of Ngn2 and HB9 cDNA increased the expression of Isl1/2, a motoneuron marker, when the cells were maintained in medium supplemented with retinoic acid, forskolin, and sonic hedgehog. Furthermore, a population of Olig2-expressing NSFCs also expressed Ngn2. Cotransfection of NSFCs with Olig2 and HB9, but not Olig2 and Ngn2, increased Isl1/2 expression. Coculture of NSFCs trans-fected with Ngn2-HB92 or Olig2 and HB9 with purified chicken skeletal muscle demonstrated frequent contacts that resembled neuromuscular junctions. These studies demonstrate that transcription factors governing the early development of chick and mouse motoneuron formation are able to drive human adult olfactory neuroepithelial progenitors to differentiate into motoneurons in vitro. Our long-term goal is to develop cell populations for future studies of the therapeutic utility of these olfactory-derived NSFCs for autologous cell replacement strategies for central nervous system trauma and neurodegenerative diseases.

Immunolocalization of retinoic acid receptors in the mammalian olfactory system and the effects of olfactory denervation on receptor distribution.

All-trans retinoic acid (ATRA), a metabolite of vitamin A, binds to retinoic acid receptors (RARs) to mediate gene transcription in target cells. We previously found that an ATRA supplement enhanced olfactory recovery rate in adult mice after olfactory bulb deafferentation. In this study, we examined the cellular localization of RARalpha, RARbeta, and RARgamma and the effects of surgery and ATRA treatment using immunocytochemistry. Mice received a left olfactory nerve transection with the right side serving as internal control. One day after surgery, the mice were given either ATRA mixed with sesame oil or just sesame oil. In the unoperated olfactory bulb, only RARalpha immunoreactivity (ir) was observed. In the unoperated right olfactory epithelium, RARalpha-ir was found in flask-shaped cells located in the supporting cell layer, in cell clusters above the basal cell layer, in cells in the lamina propria, in some respiratory cells and in the olfactory bulb. The flask-shaped cells did not immunostain for either neurons or sustentacular cells. RARbeta-ir was localized only in the respiratory cells while no RARgamma-ir was observed in the olfactory epithelium. The density of RARalpha-ir cells was higher in the operated left olfactory epithelium and highest after ATRA treatment. This study demonstrates the presence of RARs in the olfactory system, provides additional support that the ATRA-signaling pathway may be involved in the recovery of the olfactory epithelium after injury, and suggests a role for an unstudied cell type in that process.

Antifeedant compounds from three species of Apiaceae active against the field slug, Deroceras reticulatum (Muller).

Extracts of volatiles from foliage of three plants in the Apiaceae, Conium maculatum L. (hemlock), Coriandrum sativum L. (coriander), and Petroselinum crispum Mill. (Nym.) (parsley), previously shown to exhibit antifeedant activity in assays with the field slug, Deroceras reticulatum (Muller) (Limacidae: Pulmonata), were studied further to identify the active components. Coupled gas chromatography-mass spectrometry (GC-MS) and neurophysiological assays using tentacle nerve preparations resulted in the identification of 11 active compounds from the three extracts. Wheat flour feeding bioassays were used to determine which of these compounds had the highest antifeedant activity. One of the most active compounds was the alkaloid gamma-coniceine, from C. maculatum. The role of potentially toxic alkaloids as semiochemicals and the potential for using such compounds as crop protection agents to prevent slug feeding damage is discussed.

Imaging of olfaction and gustation.

Positron emission tomographic (PET) scanning can be used to assess the cortical processing of responses to different odorants in man. The olfactory bulb receives the first projections on an ipsilateral basis from the nose, but then the cortex and the limbic system respond bilaterally. More irritating, burning odors (e.g., acetone) project via the trigeminal rather than the olfactory nerve and induce changes in the brain stem and the cortex. Sweet and salty tastes are readily distinguishable, but a bitter or painful stimulus leads to a deactivation of the primary gustatory cortex, which is in keeping with the need to focus on an avoidance response. The complex discrimination of odors, however, seems to involve the insula cortex, cerebellum, and hypothalamus, with pheromones seemingly sensed via the olfactory system in humans.