Alteração na representação de subpopulações de neurônios no epitélio olfatório de camundongos Ric8b cKO / Altered representation of neuronal sub-populations in the olfactory epithelium of Ric8b conditional knock-out mice

O objetivo desse trabalho foi identificar as consequências moleculares e funcionais da falta da proteína Ric8b no epitélio olfatório de camundongos. Para esse fim, comparamos o transcriptoma de epitélio olfatório de camundongos knock-out tecido específico para a proteína RIC8B (Ric8b cKO) com o dos seus irmãos tipo selvagem (WT). Identificamos muitos genes que apresentaram expressão reduzida no epitélio olfatório do camundongo Ric8b cKO, mas também vários genes que apresentaram a sua expressão aumentada. A maioria dos genes com expressão reduzida corresponde a genes normalmente expressos em neurônios olfatórios maduros, como por exemplo os genes de receptores olfatórios, o que é compatível com o fato já conhecido de que os camundongos Ric8b cKO apresentam um menor número desses neurônios. Inesperadamente, apesar de a maioria dos genes de receptores olfatórios ter a sua expressão diminuída no camundongo Ric8b cKO, observamos que um grupo destes genes de receptores teve a sua expressão aumentada. Os camundongos Ric8b cKO apresentaram também genes marcadores de outros tipos celulares que não neurônios canônicos com expressão aumentada no seu epitélio olfatório. Dentre eles, os mais significativamente alterados foram os genes marcadores de neurônios Trpc2+ tipo B (que expressam a guanilato ciclase solúvel Gucy1b2). Sabe-se que este tipo de neurônio é responsável pela sensibilidade a diferentes gases, e concordantemente, observamos que os camundongos Ric8b cKO apresentaram um aumento da sensibilidade a gás carbônico. Como o olfato apresenta um papel importante na regulação de ingestão alimentar, analisamos como os camundongos Ric8b cKO se comportam frente a diferentes dietas. Interessantemente, observamos que esses animais não apresentam preferência por alimento rico em gorduras quando comparado aos seus irmãos tipo selvagem. Nossos resultados sugerem, portanto, que a ausência da proteína RIC8B resulta na alteração de representatividade de neurônios canônicos e não canônicos no epitélio olfatório de camundongos, o que por sua vez leva a alterações funcionais e comportamentais

The objective of this work was to identify the molecular and functional consequences of the lack of the RIC8B protein in the main olfactory epithelium of mice. To this end, we compared the olfactory epithelium transcriptome of Ric8b tissue-specific knock-out mice (Ric8b cKO) with that of their wild-type littermates (WT). We identified many genes with differential expression, many of which were downregulated and also some which were upregulated in the olfactory epithelium of the Ric8b cKO mice. Most of the downregulated genes correspond to genes normally expressed in mature olfactory sensory neurons, such as olfactory receptor genes. This is compatible with the already known fact that the Ric8b cKO mice have less of this kind of neuron. Unexpectedly, even though most of the olfactory receptor genes were downregulated, we observed a subset of these genes that had their expression upregulated in the Ric8b cKO mice. The Ric8b cKO mice also showed upregulation for genes that are markers for cell types other than canonic neurons in their olfactory epithelium. Among these, the most significantly altered were the markers for neurons Trpc2+ type B (that express the soluble guanylate cyclase Gucy1b2). It is known that this kind of neuron is responsible for sensitivity to different gases. Accordingly, we observed that the Ric8b cKO mice presented a higher sensitivity to carbon dioxide. Since olfaction has an important role in food intake, we analyzed how the Ric8b cKO mice behaved with different diets. Interestingly, we observed that the Ric8b cKO mice lack preference for high fat diet when compared to their wild-type littermates. Our results indicate, therefore, that the lack of the RIC8B protein results in altered representativity of canonic and non-canonic neurons in the olfactory epithelium of mice, which then leads to altered function and behavior

Fetal head anomaly restricted to the eye, the mandible, and the pterygoid process of the sphenoid: a histological study.

A report on an unusual combination of anomalies in the head of a female fetus. The authors examined whole body semiserial paraffin sections of a female fetus (155 mm CRL; ∼18 weeks of gestation), with a particular focus on the head region. Cranial autonomic ganglia, nasal olfactory cells, and the orbital muscle were investigated using immunohistochemistry for tyrosine hydroxylase, vasoactive intestinal peptide, calretinin, and smooth muscle actin expression. The surface gross anatomy of the fetus appeared normal. The left eyeball lacked a lens (the eyeballs were otherwise normal). The orbital muscle was very thick and located in the anterolateral side of the extraocular muscles. Conversely, the extraocular muscles made a cluster in the superoposterior side of the orbit. The infratemporal fossa was small due to the bulky, transversely extended lateral pterygoid process in contrast to the small coronoid process of the mandible. The bilateral mandibular bases overlapped at the midline symphysis. The thin orbitosphenoid and thick alisphenoid provided an almost flat, anterior cranial base. Nasal olfactory cells and cranial autonomic ganglia appeared to be normal. No major anomaly was observed in the brain. Because of the changes in topographical anatomy, the orbital muscle probably lost its normal bony attachment and appeared to push the extraocular muscles superoposteriorly. A gene function redundancy rather than mutation may explain the present restricted anomalies in the mandible and pterygoid process.

Decreased olfactory mucus secretion and nasal abnormality in mice lacking type 2 and type 3 IP3 receptors.

Although nasal mucus is thought to play important roles in the mammalian olfactory system, the mechanisms of secretion of it and its physiological roles are poorly understood. Here we show that type 2 and type 3 IP3 receptors (IP3R2 and IP3R3) play critical roles in olfactory mucus secretion. Histological studies showed that IP3R2 and IP3R3 are predominantly expressed in two types of nasal glands, the anterior glands of the nasal septum and the lateral nasal glands (LNG), which contain mucosal proteins secreted to the main olfactory epithelium. We therefore examined LNG acinar cells, and found that acetylcholine-mediated calcium responses and fluid- and protein- secretion in the acinar cells were markedly decreased in IP3R2-R3 double-knockout (KO) mice. We also found nasal inflammation and a decrease in olfactory capacity in IP3R2-R3 KO mice. Despite intact signal transduction in the olfactory epithelium, IP3R2-R3 KO mice exhibited elevated threshold sensitivity to odorants on in vivo imaging of olfactory glomerular responses and behavioral tests. Our findings suggest that IP3R2 and IP3R3 mediate nasal mucus secretion, which is important for the maintenance of nasal tissue as well as the perception of odors.

Reproductive and developmental toxicity of inhaled 2,3-dichloro-1,3-butadiene in rats.

Inhalation developmental and reproductive toxicity studies were conducted with 2,3-dichloro-1,3-butadiene (DCBD), a monomer used in the production of synthetic rubber. In the reproductive toxicity study, Crl:CD(SD)IGS BR rats (24/sex/group) were exposed whole body by inhalation to 0, 1, 5, or 50 ppm DCBD (6 h/day) for approximately 10-11 weeks total, through premating (8 weeks; 5 days/week), cohabitation of mating pairs (up to 2 weeks, 7 days/week), post-cohabitation for males (approximately 7 days) and from conception to implantation (gestation days 0-7 [GD 0-7]), followed by a recovery period (GD 8-21) for presumed pregnant females. Estrous cyclicity was evaluated during premating (last 3 weeks) and cohabitation. Reproductive organs and potential target organs, sperm parameters, and GD 21 fetuses (viability, weight, external alterations) were evaluated. In the developmental study, pregnant Crl:CD(SD)IGS BR rats (22/group) were exposed whole body by inhalation to 0, 1, 10, or 50 ppm DCBD (6 h/day) on GD 6-20; dams were necropsied on GD 21 (gross post-mortem only) and fetuses were evaluated (viability, weight, and external, visceral and skeletal exams). During the in-life portion of the studies, body weight, food consumption, and clinical observation data were collected. At 50 ppm, gasping and labored breathing occurred in both studies during the first few exposures; body weight and food consumption parameters were affected in parental animals from both studies, but were more severely affected in the developmental study. Fetal weight was decreased in the developmental study at 50 ppm. Degeneration of the nasal olfactory epithelium was observed in the reproduction study at 50 ppm. There were no effects on reproductive function, embryo-fetal viability, or increases in fetal structural alterations in either study. The no-observed-adverse-effect level (NOAEL) for reproductive toxicity was 50 ppm. The NOAEL for systemic toxicity in the reproduction study was 5 ppm based on adverse effects on body weight and food consumption parameters and nasal olfactory epithelial toxicity at 50 ppm in parental rats. The NOAEL for maternal and developmental toxicity was 10 ppm based on reduced maternal weight gain and food consumption and reduced fetal weight at 50 ppm in the developmental toxicity study.

[Congenital anosmia]. / Kongenit anosmi.

A 72-year-old woman with congenital familiar lack of smell is described. General ENT and otoneurological examination were normal. The ability to smell was totally absent. By MR scan normal conditions were found in the nose, paranasal sinuses, the cribriform plate in the anterior cranial fossa and in the brain especially in the olfactory bulbs. Microscopic examinations of biopsy specimens from the olfactory region showed no signs of olfactory epithelium.

Widespread defects in the primary olfactory pathway caused by loss of Mash1 function.

MASH1, a basic helix-loop-helix transcription factor, is widely expressed by neuronal progenitors in the CNS and PNS, suggesting that it plays a role in the development of many neural regions. However, in mice lacking a functional Mash1 gene, major alterations have been reported in only a few neuronal populations; among these is a generalized loss of olfactory receptor neurons of the olfactory epithelium. Here, we use a transgenic reporter mouse line, in which the cell bodies and growing axons of subsets of central and peripheral neurons are marked by expression of a tau-lacZ reporter gene (the Tattler-4 allele), to look both more broadly and deeply at defects in the nervous system of Mash1-/- mice. In addition to the expected lack of olfactory receptor neurons in the main olfactory epithelium, developing Mash1-/-;Tattler-4+/- mice exhibited reductions in neuronal cell number in the vomeronasal organ and in the olfactory bulb; the morphology of the rostral migratory stream, which gives rise to olfactory bulb interneurons, was also abnormal. Further examination of cell proliferation, cell death, and cell type-specific markers in Mash1-/- animals uncovered parallels between the main olfactory epithelium and the vomeronasal organ in the regulation of sensory neuron development. Interestingly, this analysis also revealed that, in the olfactory epithelium of Mash1-/- animals, there is an overproduction of proliferating cells that co-express markers of both neuronal progenitors and supporting cells. This finding suggests that olfactory receptor neurons and olfactory epithelium supporting cells may share a common progenitor, and that expression of Mash1 may be an important factor in determining whether these progenitors ultimately generate neurons or glia.

Primary olfactory axons form ectopic glomeruli in mice lacking p75NTR.

The restricted expression of the low affinity nerve growth factor receptor p75NTR by olfactory ensheathing cells suggests that this molecule is involved in the development of the olfactory nerve pathway. To begin to understand the role of p75NTR, we examined the development of the primary olfactory system in p75NTR(-/-) and wild-type mice. Our results demonstrate that, although p75NTR is not essential for the initial assembly of the olfactory nerve, it plays an important role in the postnatal maturation of the olfactory bulb. In the absence of p75NTR, there is exuberant growth of some primary olfactory axons into the olfactory bulb. These axons either aberrantly bypass the glomerular layer and project into deeper lamina or grow into an abnormal bleb of tissue protruding from the medial surface of the dorsocaudal olfactory bulb. These blebs become apparent in neonatal mice and contain axons expressing olfactory marker protein that form ectopic glomerular-like tufts. Histochemical staining with the plant lectin Dolichos biflorus agglutinin revealed that axons sorted out and selectively converged on glomeruli within these blebs. Our results suggest that p75NTR indirectly influences axon growth but not glomerular targeting and plays a role in the postnatal maturation of laminar cytoarchitecture in the olfactory bulb.

Targeted deletion of a cyclic nucleotide-gated channel subunit (OCNC1): biochemical and morphological consequences in adult mice.

The olfactory cyclic nucleotide-gated channel subunit 1 (OCNC1) is required for signal transduction in olfactory receptor cells. To further investigate the role of this channel in the olfactory system, the biochemical and morphological consequences of targeted disruption of OCNC1 were investigated in adult mice. Null as compared to wild-type mice had smaller olfactory bulbs, suggesting compromised development of the central target of the receptor cells. Ectopic olfactory marker protein (OMP)-stained fibers localized to the external plexiform layer reflected the relative immaturity of the olfactory bulb in the null mice. The olfactory epithelium of the knock-out mouse was thinner and showed lower expression of olfactory marker protein and growth-associated protein 43, indicating decreases in both generation and maturation of receptor cells. Tyrosine hydroxylase (TH) expression in the olfactory bulb, examined as a reflection of afferent activity, was reduced in the majority of periglomerular neurons but retained in atypical or "necklace" glomeruli localized to posterior aspects of the olfactory bulb. Double label studies demonstrated that the remaining TH-immunostained neurons received their innervation from a subset of receptor cells previously shown to express a phosphodiesterase that differs from that found in most receptor cells. These data indicate that expression of OCNC1 is required for normal development of the olfactory epithelium and olfactory bulb. The robust expression of TH in some periglomerular cells in the OCNC1-null mice suggests that receptor cells innervating these glomeruli may use an alternate signal transduction pathway.

Development of the olfactory nerve: its relationship to the craniofacies.

Although absence of the olfactory bulbs is a relatively common occurrence seen in holoprosencephaly, in Kallman syndrome, and in a number of malformation syndromes, the extent to which it determines olfactory nerve development, as well as the part it plays in the morphogenesis of the nasal structures, is unknown. Cases of arhinencephaly ascertained at autopsy were studied in an effort to better understand the relationships between the olfactory nerve, bulb, and facies. Based on these studies, it is concluded that both olfactory receptor cells and olfactory nerves are present in arhinencephaly, that the olfactory nerves did not make contact with the brain in these cases, that the presence of olfactory nerves is independent of the severity of the central nervous system malformation, and that the shape of the nasal structures is not dependent on the presence of the olfactory nerve.

Mammalian achaete-scute homolog 1 is required for the early development of olfactory and autonomic neurons.

The mouse Mash-1 gene, like its Drosophila homologs of the achaete-scute complex (AS-C), encodes a transcription factor expressed in neural precursors. We created a null allele of this gene by homologous recombination in embryonic stem cells. Mice homozygous for the mutation die at birth with apparent breathing and feeding defects. The brain and spinal cord of the mutants appear normal, but their olfactory epithelium and sympathetic, parasympathetic, and enteric ganglia are severely affected. In the olfactory epithelium, neuronal progenitors die at an early stage, whereas the nonneuronal supporting cells are present. In sympathetic ganglia, the mutation arrests the development of neuronal precursors, preventing the generation of sympathetic neurons, but does not affect glial precursor cells. These observations suggest that Mash-1, like its Drosophila homologs of the AS-C, controls a basic operation in development of neuronal progenitors in distinct neural lineages.

Ultrastructural histopathology of human olfactory dysfunction.

This paper presents electron-microscopic observations on biopsies of the olfactory mucosae of several classes of patients with smell disorders: 1) patients with loss of smell function following head injury (post-traumatic anosmics or hyposmics); 2) patients with loss of smell function following severe head colds and/or sinus infections (post-viral olfactory dysfunction, or PVOD); and 3) patients that have lacked smell function since birth (congenital anosmics). Of these, the traumatic anosmics' olfactory epithelia were quite disorganized; the orderly arrangement of supporting cells, ciliated olfactory receptor neurons, microvillar cells, and basal cells was disrupted. Although many somata of ciliated olfactory receptors were present, few of their dendrites reached the epithelial surface. The few olfactory vesicles present usually lacked olfactory cilia. The post-viral anosmics, too, had a greatly reduced number of intact ciliated olfactory receptor neurons, and most of those present were aciliate. The post-viral hyposmics had a larger population of intact, ciliated olfactory receptor cells. In the seven cases of congenital anosmia studied, no biopsies of olfactory epithelium were obtained, indicating the olfactory epithelium is either absent--or greatly reduced in area--in these individuals.