Organization and evolutionary relatedness of OR37 olfactory receptor genes in mouse and human

We report a comprehensive comparative analysis of human and mouse olfactory receptor (OR) genes encoding OR37 subtypes to determine the repertoire, chromosomal organization, and relatedness of these genes. Two OR37 clusters were found in both mouse (chromosome 4) and human (chromosome 9); with five genes in cluster I and three (mouse) and seven genes (human) in cluster II. The pronounced diversity of noncoding sequence regions in both genomic loci indicates a long-term coexistence of the two clusters and the genes within the clusters. In contrast, the coding regions, particularly of genes in cluster I, showed remarkably high sequence identity, a feature quite unique for OR genes. The conservation of only the coding sequences indicates that OR37 may be under negative selection pressure and suggests that the OR37 receptor family may be tuned to recognize distinct sets of signaling molecules. A comparison of mouse and human OR37 gene clusters revealed that genes in cluster I are highly related within each species whereas genes in cluster II are highly related across species. These data reflect a unique and complex evolutionary history of the OR37 family.     

Decline and recovery of olfactory receptor expression following unilateral bulbectomy

The effects of unilateral olfactory bulb ablation upon the odorant receptor expression were studied during the degeneration/regeneration process in the olfactory epithelium of adult rats. Using the in situ hybridization approach, we compared the time course of decay and recovery of expression for three different receptor subtypes (OR14, OR5, OR124). The number of neurons expressing receptor subtypes dramatically decreased in the olfactory epithelium on the lesioned side and reached a minimum at day 5 postsurgery. A progressive recovery was then observed from day 5 to day 15 postlesion, when a plateau was reached. Noticeable differences in the recovery level of receptor expression were observed according to the zonal patterning: the recovery level for neurons located in the lateral zone reached 70% of the control side value while the recovery levels in the dorsal and medial zones represented 35% and 53% of this value, respectively. Axotomy experiments suggest that zone-specific differences in receptor reexpression reported after bulbectomy might be related to the trophic influence of the olfactory bulb.     

Untypical connectivity from olfactory sensory neurons expressing OR37 into higher brain centers visualized by genetic tracing

The OR37 subfamily of odorant receptors (ORs) exists exclusively in mammals. In contrast to ORs in general, they are highly conserved within and across species. These unique features raise the question, whether olfactory information gathered by the OR37 sensory cells is processed in specially designated brain areas. To elucidate the wiring of projection neurons from OR37 glomeruli into higher brain areas, tracing experiments were performed. The application of DiI onto the ventral area of the olfactory bulb, which harbors the OR37 glomeruli, led to the labeling of fibers not only in the typical olfactory cortical regions, but also in the medial amygdala and the hypothalamus. To visualize the projections from a defined OR37 glomerulus more precisely, transgenic mice were studied in which olfactory sensory neurons co-express the receptor subtype OR37C and the transsynaptic tracer wheat germ agglutinin (WGA). WGA became visible not only in the OR37C sensory neurons and the corresponding OR37C glomerulus, but also in cell somata located in the mitral/tufted cell layer adjacent to the OR37C glomerulus, indicating a transfer of WGA onto projection neurons. In the brain, WGA immunoreactivity was not detectable in typical olfactory cortical areas, but instead in distinct areas of the medial amygdala. Detailed mapping revealed that the WGA immunoreactivity was restricted to the posterior-dorsal subnucleus of the medial amygdala. In addition, WGA immunoreactivity was visible in some well-circumscribed areas of the hypothalamus. These results are indicative for a unique connectivity from OR37C sensory cells into higher brain centers.     

Evolution of the “OR37” Subfamily of Olfactory Receptors: A Cross-Species Comparison

Genes encoding the olfactory receptors of the “OR37” subfamily of the mouse are characterized by special features including a clustered expression pattern, assembly in two distinct gene clusters, and highly conserved putative promoter motifs. Mining the rat and dog databases revealed that these two species possess highly conserved clusters of OR37 genes at two syntenic genomic loci. In a prototherian mammal, the platypus (Ornithorhynchus anatinus), none of the characteristic OR37 genes were found. Examination of a metatherian mammal, the gray short-tailed opossum (Monodelphis domestica) revealed seven canonical OR37 genes, all phylogenetically related to cluster II genes and also organized similar to cluster II of eutherian species. In addition, their 5′ upstream regions comprised sequence motifs related to the putative regulatory sequences of cluster II genes. Typical cluster I OR37 genes were identified only in the eutherian mammals examined, including the evolutionary ancient anteater, wherein OR37 genes related to both clusters were present. Together, these results reveal novel information concerning the phylogenetic origin and important evolutionary steps of the mammalian-specific OR37 olfactory receptor family. [Reviewing Editor: Dr. Lauren Ancel Meyers] Reiner Hoppe and Thomas D. Lambert are contributed equally to this work.     

Small subfamily of olfactory receptor genes: structural features, expression pattern and genomic organization.

Olfactory receptors of the OR37 subfamily are characterized by distinct sequence features and are expressed in neurons segregated in a restricted area of the olfactory epithelium. In the present study, we have characterized the complement of OR37-like genes in the mouse. Five OR37-like genes were identified. They reside within only 60kb of DNA on chromosome 4. About 70kb distant from this cluster, two additional olfactory receptor genes are located, which are members of distinct receptor subfamilies. Phylogenetic analysis demonstrated that the two physically linked receptors are closely related to the OR37 subfamily. Studies of gene expression showed that both genes are also expressed in clustered neuron populations located in the typical OR37 region of the epithelium. These data suggest the involvement of locus-dependent mechanisms for the spatial control of OR gene expression.     

Rostro-caudal patterning of receptor-expressing olfactory neurones in the rat nasal cavity

The rostro-caudal extent of odorant receptor expression zones in the rat olfactory epithelium was analysed by means of in situ hybridization. Three broad non-overlapping zones were identified that extended along almost the entire anterior-posterior axis; each zone was composed of several separate bands running anterior to posterior throughout the olfactory epithelium. Superimposed onto these broad zones was the expression area of a particular receptor subtype (OR37); it was restricted to a small region of the epithelial sheet with a high density of reactive neurones in the centre and declining numbers towards the periphery of the region. A quantitative evaluation of the reactive cells revealed that, despite their diferent distribution patterns, all receptor subtypes were expressed in an equal number of neurones.     

Subfamily of Olfactory Receptors Characterized by Unique Structural Features and Expression Patterns

Abstract: The complex chemospecificity of the olfactory system is probably due to the large family of short-looped, heptahelical receptor proteins expressed in neurons widely distributed throughout one of the several zones within the nasal neuroepithelium. In this study, a subfamily of olfactory receptors has been identified that is characterized by distinct structural features as well as a unique expression pattern. Members of this receptor family are found in mammals, such as rodents and opossum, but not in lower vertebrates. All identified subtypes comprise an extended third extracellular loop that exhibits amphiphilic properties and contains numerous charged amino acids in conserved positions. Olfactory sensory neurons expressing these receptor types are segregated in small clusters on the tip of central turbinates, thus representing a novel pattern of expression for olfactory receptors. In mouse, genes encoding the new subfamily of receptors were found to be harbored within a small contiguous segment of genomic DNA. Based on species specificity as well as the unique structural properties and expression pattern, it is conceivable that the novel receptor subfamily may serve a special function in the olfactory system of mammals.     

Golgi study of the anterior dorsal ventricular ridge in a lizard. I. neuronal typology in the adult

Using Golgi techniques we have studied neuronal cell types in the anterior dorsal ventricular ridge (ADVR) of the adult lizard Gallotia galloti. Multipolar, bitufted, and juxtaependymal neuronal forms were found. The multipolar and bitufted neurons are present in both the periventricular and central ADVR zones. Multipolar neurons can be subdivided into multipolar neurons with polygonal somata and four to six main dendritic trunks and multipolar neurons with pyramidal somata and three or more dendritic trunks. The former are the cells most frequently impregnated in the ADVR. In the population of bitufted neurons, we distinguish subtypes I, II, and III according to the number of dendritic trunks that emerge from the somata. Juxtaependymal neurons are restricted to a cell-poor zone, adjacent to ependymal cells. Their dendrites either are orientated parallel to the ventricular surface or extend into the periventricular zone. The dendrites of ADVR neurons have pedunculated spines with knob-like tips. However, such spines do not appear on the somata or on the primary dendritic trunks. The number of spines is scarce or moderate. The periventricular neuronal clusters contain two to five cells. The morphology of these neurons is mainly multipolar, but we also found some bitufted neurons.     

Purinergic receptor-mediated Ca<Superscript>2+</Superscript> signaling in the olfactory bulb and the neurogenic area of the lateral ventricles

Like in other vertebrates, the anterior part of the telencephalon of amphibians mainly consists of the olfactory bulb (OB), but different from higher vertebrates, the lateral telencephalic ventricles of larval Xenopus laevis expand deep into the anterior telencephalon. The neurogenic periventricular zone (PVZ) of the lateral ventricles generates new OB neurons throughout the animal’s lifetime. We investigated the ultrastructural organization of the PVZ and found that within a time period of 24 h, 42.54 ± 6.65% of all PVZ cells were actively proliferating. Functional purinergic receptors are widespread in the central nervous system and their activation has been associated with many critical physiological processes, including the regulation of cell proliferation. In the present study we identified and characterized the purinergic system of the OB and the PVZ. ATP and 2MeSATP induced strong [Ca²⁺]_i increases in cells of both regions, which could be attenuated by purinergic antagonists. However, a more thorough pharmacological investigation revealed clear differences between the two brain regions. Cells of the OB almost exclusively express ionotropic P2X purinergic receptor subtypes, whereas PVZ cells express both ionotropic P2X and metabotropic P1 and P2Y receptor subtypes. The P2X receptors expressed in the OB are evidently not involved in the immediate processing of olfactory information.     

Metabotropic glutamate receptor expression in olfactory receptor neurons from the channel catfish,Ictalurus punctatus

Metabotropic glutamate receptors (mGluRs) were identified in olfactory receptor neurons of the channel catfish, Ictalurus punctatus, by polymerase chain reaction. DNA sequence analysis confirmed the presence of two subtypes, mGluR1 and mGluR3, that were coexpressed with each other and with the putative odorant receptors within single olfactory receptor neurons. Immunocytochemical data showed that both mGluR subtypes were expressed in the apical dendrites and some cilia of olfactory neurons. Pharmacological analysis showed that antagonists to each mGluR subtype significantly decreased the electrophysiological response to odorant amino acids. α-Methyl-L -CCG1/(2S,3S,4S)-2-methyl-2-(carboxycyclopropyl)glycine (MCCG), a known antagonist to mGluR3, and (S)-4-carboxyphenylglycine (S-4CPG), a specific antagonist to mGluR1, each significantly reduced olfactory receptor responses to L -glutamate. S-4CPG and MCCG reduced the glutamate response to 54% and 56% of control, respectively, which was significantly greater than their effect on a neutral amino acid odorant, methionine. These significant reductions of odorant response by the antagonists, taken with the expression of these receptors throughout the dendritic and ciliated portions of some olfactory receptor neurons, suggest that these mGluRs may be involved in olfactory reception and signal transduction. © 1998 John Wiley & Sons, Inc. J Neurobiol 35: 94–104, 1998     

Esterase Variants in Four Species of the Paramecium aurelia Complex1

One hundred eighty-eight stocks of Paramecium primaurelia, P. biaurelia, P. tetraurelia, and P. octaurelia were grown axenically and tested for five esterases, visualized by starch gel electrophoresis, in a search for variant stocks. The five esterases can be distinguished on the bases of their substrate specificity, sensitivity to an inhibitor, and response to different growth conditions. This paper addresses the nature of the electrophoretic change in mobility of the variant stocks in order that species relationships can be more accurately assessed. Crosses carried out in all four species show that single genes determine the differences in mobility between variant and common subtypes. Extracts of variant stocks that gave similar patterns were run against each other, tested for their sensitivity to the inhibitor, and the pattern was compared to that found in extracts of stocks with variant and common subtypes in other species. The majority of the variants in P. primaurelia, P. tetraurelia, and P. octaurelia show an electrophoretic mobility characteristic of a common subtype, or a variant, in another species. The same proportion of variant subtypes as common subtypes have mobilities similar to esterase subtypes found in other species. Of the four species examined in this paper, P. tetraurelia and P. octaurelia appear to be most closely related on the basis of shared esterase subtypes. In P. biaurelia the mobilities of most of the variants are unique, as are the common esterase subtypes in this species. P. biaurelia stands out as having the greatest number of esterase subtypes, with very few of them homologous to subtypes found in other species. This observation supports the idea of greater diversification of stocks within P. biaurelia than for the other three species.     

大鼠新鲜分离DRG神经元胞体膜谷氨酸受体亚型及其分布

本文目的是研究ＤＲＧ神经元膜谷氨酸受体亚型的分布及其共存情况。实验在ＤＲＧ分离细胞上应用膜片带技术记录ＮＭＤＡ－,ＫＡ－和ＱＡ／ＡＭＰＡ－激活电流。在受检的３７个细胞中７０．３％的细胞对ＮＭＤＡ敏感;１８．９％的细胞对ＫＡ敏感;５６．８％的细胞对ＱＡ敏感。其分布的情况是：单独存在一种受体的细胞为１５个;二种受体共存的细胞为１３个;三种受体共存的细胞为４个．另外有４个细胞三种受体均无。     

The zoogeography of algae-associated peracarids along the Pacific coast of Chile

Abstract Aim To describe the zoogeography of the algae‐associated peracarid crustaceans from exposed rocky shores along the SE‐Pacific. Location Chile, 18° S to 42° S. Methods A standardized sampling programme was used at all sites. Samples of macroalgae were taken at twenty sites distributed along the entire study area. Quantitative samples (n = 6 replicates of 8 cm^?2 surface area each) of calcareous and non‐calcareous red algae were taken in the low intertidal, preserved immediately in 4%‐formalin and washed over a 0.2‐mm mesh before sorting. All peracarid individuals were sorted, identified to the species level and then categorized in separate functional groups according to their feeding habits. Graphical representations of species replacement within each functional group along the latitudinal gradient are provided. A classification analysis employing the unweighted paired group method using arithmetic average (UPGMA) was conducted in order to reveal the main zoogeographical zones. Results A total of forty epifaunal peracarid species was found. A gradual replacement of species within different functional groups (grazing and suspension‐feeding species) was observed in the central region (c. 26° S?37° S). In this central region, species with northern and those with southern distribution overlapped, while other species were only found here, resulting in high species richness. The number of species/site/algal species in the northern (north of c. 25.5° S) and southern region (south of c. 38.5° S) was considerably lower than in the central region. The distribution of most grazing peracarids showed a more continuous pattern than that of suspension‐feeding amphipods. The distribution of the remaining species (predators, scavengers, deposit‐feeders, unknowns) was scattered along the examined sites. The cluster analysis for the epifaunal peracarid assemblage confirmed the separation of a northern and southern zone connected by a central (transitional) zone between c. 26° S and c. 37° S. Similar zonation patterns have been found by most other studies on the zoogeography of the Chilean coast, although little agreement exists about the exact limits of this transitional zone. It is discussed that the distribution limits of algae‐associated peracarids (and other macroinvertebrates) – particularly in the transitional zone – may show interannual variations as a result of varying oceanographic conditions. The large affinity of the algae‐associated peracarid fauna from the central and southern Chilean coast to those of other regions indicates that dispersal may be facilitated by rafting with floating algae transported in the Antarctic Circumpolar Current. Main conclusions The zoogeographical analysis of algae‐associated peracarids confirms the existence of a northern and a southern zone connected by an extensive transitional zone. General biology, habitat use and the abundant presence of dispersal vectors such as floating macroalgae may affect the zoogeography of species living in transitional zones with strong interannual variations in current regimes. In these areas, species associated with substrata of high dispersal potential may show different distribution patterns than species inhabiting other substrata.     

Comparison of the Esterases and Acid Phosphatases in Paramecium multimicronucleatum,Syngens 1–5, P. jenningsi,P. caudatum,and the P. aurelia Complex1

ABSTRACT. Forty-eight stocks in Paramecium jenningsi, syngens 1–5 of P. multimicronucleatum, P. caudatum, P. primaurelia, P. biaurelia, and P. tetraurelia were grown axenically and tested for their esterases and acid phosphatases using starch gel electrophoresis. The five esterases and the acid phosphatases previously characterized in species of the P. aurelia complex were also found in P. jenningsi, and three to four of the esterases and the acid phosphatases were found in the P. multimicronucleatum species complex and in P. caudatum. Additional subtypes were observed for each of the enzyme phenotypes in these new (though here unnamed) species of Paramecium. Two of the new acid phosphatase subtypes, which depart radically in mobility and in pattern, were found in syngen 3 of P. multimicronucleatum and in P. caudatum. Except for syngens 1 and 5 in P. multimicronucleatum, the degree of similarity between syngens 1, 5 and 2, 3, and 4 appears to be very low—perhaps even lower than that seen for species in the aurelia complex. More realistically, the syngens of P. multimicronucleatum should be considered as separate species although they are not here given separate taxonomic names. Limited sharing of subtypes occurred between species in different species complexes. This observation suggests that the molecular distances between species complexes may be even greater than between species within a complex.     

Ultrastructural characterization of antennal sensilla and immunocytochemical localization of a chemosensory protein in Carausius morosus Brünner (Phasmida: Phasmatidae)

The aim of this work was to investigate the olfactory system of the walking stick insect, Carausius morosus. Morphological, ultrastructural and immunocytochemical studies of adult female antennae were conducted by scanning and transmission electron microscopy. Extensive cross-section series were made through the last antennal segment to define the cuticular apparatus, wall pore distribution and the number of innervating receptor neurons of each sensillum type. Single-walled wall pore sensilla occur in three subtypes: (i) with 27 or 28 branched receptor neurons, (ii) with two branched neurons and (iii) with one or two unbranched neurons, respectively. Double-walled wall pore sensilla were found in two subtypes with spoke channels, one with four unbranched neurons, the other with two unbranched neurons. One terminal pore sensillum was found, showing two cavities within the hair and being innervated by six sensory cells. Immunocytochemical experiments were performed to show the localization of a 19 kDa soluble protein found in the chemosensory organs of C. morosus. This protein shows an amino acid sequence homologous to the family of chemosensory proteins (CSP). The polyclonal antibody raised against the purified protein (CSP-cmA) showed, for the first time in CSPs, a strong labeling in olfactory sensilla, specifically in the sensillum lymph surrounding the dendritic branches of SW-WP sensilla and in the uninnervated lumen between the two concentric walls of DW-WP type 1 sensilla.     

Central projections of olfactory receptor neurons from single antennal and palpal sensilla in mosquitoes

In insects, olfactory receptor neurons (ORNs) are located in cuticular sensilla, that are present on the antennae and on the maxillary palps. Their axons project into spherical neuropil, the glomeruli, which are characteristic structures in the primary olfactory center throughout the animal kingdom. ORNs in insects often respond specifically to single odor compounds. The projection patterns of these neurons within the primary olfactory center, the antennal lobe, are, however, largely unknown.We developed a method to stain central projections of intact receptor neurons known to respond to host odor compounds in the malaria mosquito, Anopheles gambiae. Terminal arborizations from ORNs from antennal sensilla had only a few branches apparently restricted to a single glomerulus. Axonal arborizations of the different neurons originating from the same sensillum did not overlap.ORNs originating from maxillary palp sensilla all projected into a dorso-medial area in both the ipsi- and contralateral antennal lobe, which received in no case axon terminals from antennal receptor neurons. Staining of maxillary palp receptor neurons in a second mosquito species (Aedes aegypti) revealed unilateral arborizations in an area at a similar position as in An. gambiae.     

Evolution and cell biology of dopamine receptors in vertebrates

Dopamine, one of main modulatory neurotransmitters of the nervous system acts on target cells through two classes of G protein-coupled receptors, D1 and D2. The two dopamine receptor classes display different structures, interact with different regulatory partners (including heterotrimeric G proteins) and, accordingly, have independent evolutionary origins. In vertebrates, each of these receptor classes comprises several subtypes, generated by two steps of gene duplications, early in vertebrate evolution. In the D1 receptor class, the D1A, D1B, D1C and D1D subtypes, and in the D2 class, the D2, D3 and D4 receptor subtypes have been conserved in most vertebrate groups. This conservation has been driven by the acquisition, by each receptor subtype, of a small number of specific properties, which were selected for adaptive purpose in vertebrates. Among these properties, affinity for dopamine, the natural ligand, intrinsic receptor activity, and agonist-induced desensitization clearly distinguish the receptor subtypes. In addition, each dopamine receptor subtype is addressed to a specific location within neuronal networks, although detailed information is lacking for several receptor subtypes. Receptors localization at diverse subcellular places in neurons may also differ from one subtype to another, resulting in different ways of regulating cell signalisation. One challenge for future research on dopamine and its receptors would be to identify the nature of the protein partners and the molecular mechanisms involved in localizing receptors to the neuronal plasma membrane. In this respect, the evolutionary approach we have undertaken suggests that, due to gene duplications, a reasonable degree of freedom exists in the tight organisation of dopamine receptors in neurons. This "evolvability" of dopamine systems has been instrumental to adapt the vertebrate species to nearly all the possible environments.     

Structural modifications of astrocytes in the hippocampus after experimental cerebral ischemia in gerbils

We studied reactions of astrocytes in the CA1 hippocampal zone of the mongolian gerbil (Meriones unguiculatus) after experimental short-lasting (7 min) cerebral ischemia resulting from bilateral occlusion of the carotid arteries. Immunocytochemical staining of hippocampal sections with antibodies against an astrocytes marker, glial fibrillary acidic protein (GFAP), was used. We measured the density of labelled cells in the layers of the CA1 zone at different time intervals (from 1 to 30 days) after cerebral ischemization. The number of labelled astrocytes within this period increased, and the dynamics of their density in different layers demonstrated significant dissimilarities. The earliest manifestations of reactive astrogliosis were observed in the hilus. The greatest rise in the number of astrocytes was found in the str. lacunosum-moleculare and str. moleculare on the 7th day, while in the str. pyramidale the maximum was reached only on the 14th day, which corresponded to the period of the highest intensity of delayed postischemic neuronal death. Thus, the intensity of morphological changes of the neurons and the level of reactivity of the astrocytes demonstrate a rather clear correlation; this fact can be one of the aspects of the dynamics of postischemic damage to the hippocampal neurons. Neirofiziologiya/Neurophysiology, Vol. 37, Nos. 5/6, pp. 410–415, September–December, 2005.     

Plasticity of Glutamate and GABAA Receptors in the Hippocampus of Patients with Alzheimer's Disease

1. Aim: In Alzheimer's disease (AD) it is well known that specific regions of the brain are particularly vulnerable to the pathologic insults of the disease. In particular, the hippocampus is affected very early in the disease and by end stage AD is ravaged by neurofibrillary tangles and senile plaques (i.e., the pathologic hallmarks of AD). Throughout the past several years our laboratory has sought to determine the molecular mechanisms underlying the selective vulnerability of neurons in AD.2. Methods: To this end, we employed immunohistochemical, biochemical, and in situ hybrization methods to examine glutamate and -aminobutyric acid (GABA_A) receptor subtypes in the hippocampus of patients displaying the full spectrum of AD pathology.3. Results: Despite the fact that the hippocampus is characterized by a marked loss of neurons in the late stages of the disease, our data demonstrate a rather remarkable preservation among some glutamate and GABA_A receptor subtypes.4. Conclusions: Collectively, our data support the view that the relatively constant levels of selected receptor subtypes represent a compensatory up-regulation of these receptors subunits in surviving neurons. The demonstration that glutamate and GABA receptor subunits are comparably unaffected implies that even in the terminal stages of the disease the brain is attempting to maintain a balance in excitatory and inhibitory tone. Our data also support the concept that receptor subunits are differentially affected in AD with some subunits displaying no change while others display alterations in protein and mRNA levels within selected regions of the hippocampus. Although many of these changes are modest, they do suggest that the subunit composition of these receptors may be altered and hence affect the pharmacokinetic and physiological properties of the receptor. The latter findings stress the importance of understanding the subunit composition of individual glutamate/GABA receptors in the diseased brain prior to the development of drugs targeted towards those receptors.