Applying medicinal chemistry principles to the Olfactory Code

Tahirova, Narmin Tahir

January 2019

The mammalian olfactory system is capable of decoding complex mixtures of volatile chemical odorants into identifiable percepts. While the general mode of peripheral signal transduction is largely known, the mechanism relies on a rather complicated combinatorial “olfactory code”, where each of the hundreds of expressed odorant receptors (ORs) detects multiple odorants, and a given odorant in turn activates multiple ORs (Malnic, Hirono et al. 1999). Since the first identification of mammalian ORs in 1991, the deorphanization, i.e. solving of the substrate, of ORs has proven to be a challenge. Many attempts at systematic monitoring of the olfactory code have seen marginal successes for a number of reasons. First of all, there are still no solved structures of mammalian ORs to be used for high throughput computational modeling. Second, experimental validation methods such as heterologous expression still face considerable challenges. Lastly, primary chemical features of odors that allow for OR tuning are not yet defined. The traditional organic chemistry-based classification of odorants fails to predict biological activity, while percept-based computational analyses isolate esoteric descriptors that are difficult to chemically manipulate. Receptor level structure-activity analysis can provide a missing context to the odorant discrimination in the peripheral olfactory system. A critical finding by Manic et al (1999) indicates that each mature olfactory sensory neuron (OSN) only expresses one type of OR, allowing for high throughput screening of carefully crafted odorant panels using dissociated OSN calcium imaging. A few bioisosteric substitutions widely utilized in medicinal chemistry were used to construct odorant panels, showing greater success in defining odorant-OR interaction than previously used organic chemistry-based clustering methods. Among classical substitutions used by medicinal chemists, heteroaromatic ring exchanges are especially well tolerated when heteroatoms with a similar topological polar surface area (TPSA) are used as replacements. Among odorants with differing TPSA, it is likely that an OR activated by analogous odorants at two extremes of the TPSA spectrum will be activated by an odorant with an intermediate TPSA. Flipping of a polar functional group, which is often used with amides in drug target replacements, is well tolerated by the ORs in esters. Furthermore, there is a predictable activation pattern relative to number of carbons in a hydrophobic chain uninterrupted by polar epitopes. Using binary mixtures, the OR activity can be further surveyed through enhancement or inhibition of OSN activation signals. Odorants activating a smaller subset of an OR population may also be binding to a larger subset of ORs, resulting in mixture inhibition. Specifically, this work indicates that extracted odorant fragments may be binding but not activating some of the OR repertoire of the original odorant. The concept of non-classical bioisosteres is applied to the OR repertoire using aliphatic and aromatic aldehydes. It appears that the specialized electronics of a fully conjugated benzene ring can in fact be dispensable, only acting as conformational restrictor of the odorant in most cases. Not only do analogous non-conjugated systems substitute well for benzaldehyde, but so do non-cyclic odorants possessing tiglic moieties. Conformationally restricted extractions act as more faithful replacements for larger molecules in a subset of ORs. While the dissociated OSN results alone have broad implications for binding patterns of GPCRs in general, simple behavioral tests in mice using the same odorant panels indicate concrete perceptual links to medicinal chemistry-based odorant discrimination. The results from the behavioral data suggest that there may be a maximum constraint for percent OSN activation for two sequentially presented odors to be interpreted as the “same”. The results open a window to exploring other medicinal chemistry-based substitutions. Furthermore, many methodological improvements have been made over the past decade to allow for increased efficiency of deorphanization and validation of ORs.

Biology

Neurosciences

Chemistry

Olfactory receptors

Pharmaceutical chemistry

Environnement socio-olfactif et choix alimentaires chez la souris domestique, Mus musculus domesticus / Socio-olfactory world and food selection in the house mouse, Mus musculus domesticus

Forestier, Tatiana

08 March 2018

Le succès écologique de la souris domestique, Mus musculus domesticus, repose en partie par sa capacité à adapter son régime alimentaire aux ressources disponibles. La transmission sociale des préférences alimentaires (TSPA) est un apprentissage observé chez les rongeurs, leur permettant d’élargir leur répertoire alimentaire à moindre risque en obtenant des informations olfactives surde nouveaux aliments à partir des congénères. Cet apprentissage social s’observe directement,lors d’une rencontre avec un congénère ou indirectement, via des marques odorantes. Ce travail a pour but de déterminer comment les souris utilisent leur environnement socio-olfactif pour réaliser des choix alimentaires. Nos résultats ont révélé que l’absence du congénère lors de laTSPA indirecte réduit les contraintes sociales associées à une rencontre et permet l’acquisition de la TSPA entre femelles inconnues. Cependant, certaines contraintes physiques associées à la perception des informations dans les fèces peuvent réduire la disponibilité des informations alimentaires. Enfin, nous avons montré que les différentes préoccupations sexuelles des individus affectent la hiérarchisation des informations présentes dans les fèces et limitent, chez les mâles,l’acquisition de la TSPA. Nos résultats suggèrent que l’utilisation d’informations alimentaires chez les souris varie selon leur contexte social et écologique et implique différents processus tels que l’émotion et l’attention. En conditions naturelles, les voies directe et indirecte de la TSPA pourraient être complémentaires, chacune élargissant les conditions de transmission de l’information alimentaire chez les rongeurs. / The ecological success of the house mouse, Mus musculus domesticus, implies a great capacity to adapt its diet to available food resources. The social transmission of food preference (STFP) is an adaptive type of learning observed in rodents allowing them to enlarge their food repertoire at lower risk by getting olfactory information on novel food sources from conspecifics. This social learning takes place directly, during an encounter with a conspecific or indirectly, via olfactory marks. The objective of this thesis work was to determine how mice use their socio-olfactory environment to make food choices. Our results revealed that the absence of the conspecific during the indirect STFP reduces the social constraints associated with an encounter and allows the acquisition of STFP between unfamiliar conspecifics. However, some physical constraints associated with the perception of information in feces may reduce the availability of food information. We also showed that different sex concerns of individuals may affect the prioritization of information present in feces and limit, in males, the acquisition of STFP. Our results suggest that the use of food information in mice varies according to their social and ecological context and involves different processes such as emotion and attention. Under natural conditions, the direct and indirect STFP could be complementary, each of them extending the conditions for the transmission of food information in rodents.

Environnement socio-olfactif

Socio-olfactory environment

Olfactory Stem Cells From Adult Rats

Wetzig, Andrew R, n/a

January 2007

The formation of neurospheres was important in demonstrating that neurogenesis in the adult brain may be fuelled by a stem cell population. The olfactory mucosa is another site of neurogenesis which, in humans, has been observed to contain a stem cell population through the formation of neurospheres (Murrell et al., 2005). Stem cells can be defined as cells capable of self-renewal and multipotency. The aim of this study was to investigate the potential of rat olfactory stem cells growing as neurospheres. The hypothesis is that the rat olfactory mucosa contains a 'true' stem cell population that can be cultured as neurospheres and that will demonstrate multipotency by differentiating into 'non-olfactory' cell types and possess the capacity for self-renewal, if provided with the appropriate environmental niche. Here it was found that adult rat olfactory mucosa is capable of generating neurospheres when cultured in EGF and bFGF. Evidence of self-renewal was provided by the formation of six generations of neurospheres, the formation of neurospheres from single cells and the expression of markers associated with self-renewal by neurosphere cells. The multipotency of olfactory neurosphere cells was demonstrated through manipulation of the stem cell niche. In defined culture conditions, extracellular matrix molecules and growth factors were able to induce the differentiation of neurosphere cells down the dopaminergic lineage pathway. When co-cultured with differentiating cells, neonatal myoblasts and 3T3-L1 cells, olfactory neurosphere cells were able to differentiate and incorporate into a skeletal muscle myotube and differentiate into adipocytes, respectively. In conclusion it was found that the adult rat olfactory mucosa is capable of generating neurospheres. When presented with an appropriate niche neurosphere cells are able to self-renew and demonstrate multipotency.

Olfactory stem cells

neurospheres

neurogenesis

multipotency

Olfactory images and creation of meaning in Gogol's "The Nose" and Rushdie's Midnight's Children

Vintrova, Magdalena

15 November 2004

In my thesis I argue that Gogol's "The Nose" and Rushdie's Midnight's Children are texts in which both authors are acutely aware of the fact that they write within a larger discursive framework, supported and developed by the privileged and ruling class of both societies. These grand narratives are in fact selected interpretations of reality, which circulate in the public sphere, designating the desired 'readings' of various sociocultural phenomena. By means of reiteration and enforcement through governmental powers, the privileged narratives produce and inscribe meaning onto objects and events, turning them into icons with very specific and restricted signification. In this way, truth and meaning are under control of select individuals and interest groups. I propose that Gogol in "The Nose" and Rushdie in Midnight's Children use nasal discourse to discern the manipulative process of ideological intervention, which selectively labels specific discourse and interpretation as the truth, and imposes it upon the life and history of the governed community. To utilize the olfactory in a manner challenging the dominant narratives, the authors construct nasal images as essentially ambiguous. In this way they point out to the fluid and unstable nature of reality. In the world of their fiction, reality does not have a singular meaning; every sign is open to interpretation, producing a new meaning, depending on the circumstances of the interpretative act. The nose itself is chosen for this symbolic function for two reasons: the physiognomic tradition of reading faces nests moral ambiguity in the nose, and scent is the most ambiguous of sensory stimuli. Chapter I focuses on the structural role of the olfactory, in Chapters III and IV I discuss how Rushdie and Gogol employ and adapt physiognomic theory to constitute the olfactory as ambiguous images. In Chapters V and VI show that both authors install the olfactory-introduced ambiguity into the very foundations of their texts.

Rushdie

Gogol

olfactory

nose

midnight's children

The effects of cadmium on the olfactory system of larval zebrafish

Matz, Carlyn Janel

05 June 2008

Cadmium (Cd) is a toxic metal known to accumulate in and have adverse effects on the olfactory systems of fish. The objective of this project was to investigate the effect of cadmium on zebrafish larvae, specifically the effects on the olfactory system at cellular and functional levels. Zebrafish larvae (72 hours post fertilization) were exposed to sublethal concentrations of cadmium (0.5, 1, 5, and 10 µM) for 96 h. Whole-body cadmium accumulation during this exposure period as quantified using GFAAS (graphite furnace atomic absorption spectroscopy) was found to increase with both exposure length and concentration. Using a transgenic strain of hsp70/eGFP (heat shock protein 70/enhanced green fluorescent protein reporter gene) zebrafish, dose-dependent induction of the heat shock response was observed in the olfactory epithelium. Expression of hsp70/eGFP in the olfactory epithelium was a highly sensitive biomarker for the effects of cadmium in the olfactory system with a lowest observed effects concentration (LOEC) of 0.5 µM Cd. Strong induction of the transgenic reporter gene correlated closely with cell death (LOEC of 5 µM Cd) and histological alterations (LOEC of 1 µM Cd) in the olfactory epithelium of zebrafish larvae following cadmium exposure. Additionally, loss of sensory cilia from the surface of the olfactory epithelium was observed in larvae exposed to 5 and 10 µM Cd. Furthermore, behaviour tests to assess olfactory function revealed sensory deficits, likely due in part to the cadmium-induced degeneration of the olfactory epithelium (p<0.05 for 1 µM; p<0.001 for 5 and 10 µM Cd). <p>To determine if cadmium was entering the cells of the olfactory epithelium by acting as a calcium (Ca) antagonist, zebrafish larvae were co-exposed to 1, 5, or 10 µM Cd with 1 or 5 mM Ca for 96 h. Whole-body cadmium accumulation as quantified using ICP-MS (inductively coupled plasma mass spectrometry) was decreased in larvae co-exposed to cadmium and calcium. Additionally, induction of the heat shock response was reduced in the presence of increasing calcium co-treatment. These ameliorating effects of calcium were further revealed in cell death and histological analyses of the olfactory epithelium. Also, larvae co-exposed to cadmium and calcium exhibited greater olfactory sensory function compared to larvae exposed to cadmium only. Significant increases in aversion response were observed in larvae exposed to 5 µM Cd with 1 and 5 mM Ca (p<0.05). These results indicate that cadmium gains entry to the olfactory epithelium via calcium uptake systems, wherein it causes damage to the olfactory system and can lead to sensory impairment.

zebrafish larvae

olfactory

cadmium

calcium

transgenic

hsp70

Brain lipid binding protein expression in lamina-propria olfactory ensheathing cells is regulated by delta/notch-like epidermal growth factor-related receptor

Westendorf, Kathryn A

05 1900

The olfactory system exhibits remarkable regenerative ability in it’s neuronal population. The success of continuous neurogenesis is thought to be due, at least in part, to its unique glia – olfactory ensheathing cells (OECs). OECs bear characteristics of both peripheral and central glia, and serve to ensheath, guide and promote growth of olfactory receptor neurons (ORNs) throughout both development and adult life. Brain lipid binding protein (BLBP) is most highly expressed by radial glia during embryonic development. It is largely down-regulated in the adult CNS, but BLBP expression is retained in the adult by special subpopulations of glia, including OECs. BLBP expression is induced in radial glia via Notch signaling, but it is not known if these same mechanisms regulate BLBP expression in the adult CNS. Axonal-glial signaling is a dynamic process whereby closely apposed neuronal and glial cells regulate the growth, maintenance and plasticity of one another through direct cell-cell signaling. Delta/Notch-like EGF-related receptor (DNER) is a transmembrane protein expressed by Purkinje cells which has been implicated in the regulation of BLBP in Bergmann glia during cerebellum development through Notch1 deltex-dependent non-canonical signaling. We have found that DNER is expressed in more mature ORNs, and other exclusive subpopulations of cells within the CNS. OECs in close apposition with DNER-expressing ORNs in vivo appear to maintain the highest BLBP expression found in the nervous system through development and adulthood. Immunofluorescence shows that this close relationship between BLBP expressing cells and DNER expressing cells also appears to be retained in specialized areas such as the hippocampus, retina and spinal cord, throughout mouse CNS development as well as in the mature system. Removing DNER or axonal input in vivo decreases the robustness of OEC BLBP expression, and the number of cells in OEC culture expressing BLBP decreases rapidly with time. OEC co-culture with a DNER expressing monolayer increases the number of OECs in vitro which express BLBP, providing evidence for the regulation of BLBP expression in OECs by DNER expression in apposing ORNs.

Notch

Olfactory

Ensheathing

Glia

BLBP

DNER

The effects of cadmium on the olfactory system of larval zebrafish

Matz, Carlyn Janel

05 June 2008

Cadmium (Cd) is a toxic metal known to accumulate in and have adverse effects on the olfactory systems of fish. The objective of this project was to investigate the effect of cadmium on zebrafish larvae, specifically the effects on the olfactory system at cellular and functional levels. Zebrafish larvae (72 hours post fertilization) were exposed to sublethal concentrations of cadmium (0.5, 1, 5, and 10 µM) for 96 h. Whole-body cadmium accumulation during this exposure period as quantified using GFAAS (graphite furnace atomic absorption spectroscopy) was found to increase with both exposure length and concentration. Using a transgenic strain of hsp70/eGFP (heat shock protein 70/enhanced green fluorescent protein reporter gene) zebrafish, dose-dependent induction of the heat shock response was observed in the olfactory epithelium. Expression of hsp70/eGFP in the olfactory epithelium was a highly sensitive biomarker for the effects of cadmium in the olfactory system with a lowest observed effects concentration (LOEC) of 0.5 µM Cd. Strong induction of the transgenic reporter gene correlated closely with cell death (LOEC of 5 µM Cd) and histological alterations (LOEC of 1 µM Cd) in the olfactory epithelium of zebrafish larvae following cadmium exposure. Additionally, loss of sensory cilia from the surface of the olfactory epithelium was observed in larvae exposed to 5 and 10 µM Cd. Furthermore, behaviour tests to assess olfactory function revealed sensory deficits, likely due in part to the cadmium-induced degeneration of the olfactory epithelium (p<0.05 for 1 µM; p<0.001 for 5 and 10 µM Cd). <p>To determine if cadmium was entering the cells of the olfactory epithelium by acting as a calcium (Ca) antagonist, zebrafish larvae were co-exposed to 1, 5, or 10 µM Cd with 1 or 5 mM Ca for 96 h. Whole-body cadmium accumulation as quantified using ICP-MS (inductively coupled plasma mass spectrometry) was decreased in larvae co-exposed to cadmium and calcium. Additionally, induction of the heat shock response was reduced in the presence of increasing calcium co-treatment. These ameliorating effects of calcium were further revealed in cell death and histological analyses of the olfactory epithelium. Also, larvae co-exposed to cadmium and calcium exhibited greater olfactory sensory function compared to larvae exposed to cadmium only. Significant increases in aversion response were observed in larvae exposed to 5 µM Cd with 1 and 5 mM Ca (p<0.05). These results indicate that cadmium gains entry to the olfactory epithelium via calcium uptake systems, wherein it causes damage to the olfactory system and can lead to sensory impairment.

zebrafish larvae

olfactory

cadmium

calcium

transgenic

hsp70

Olfactory images and creation of meaning in Gogol's "The Nose" and Rushdie's Midnight's Children

Vintrova, Magdalena

15 November 2004

In my thesis I argue that Gogol's "The Nose" and Rushdie's Midnight's Children are texts in which both authors are acutely aware of the fact that they write within a larger discursive framework, supported and developed by the privileged and ruling class of both societies. These grand narratives are in fact selected interpretations of reality, which circulate in the public sphere, designating the desired 'readings' of various sociocultural phenomena. By means of reiteration and enforcement through governmental powers, the privileged narratives produce and inscribe meaning onto objects and events, turning them into icons with very specific and restricted signification. In this way, truth and meaning are under control of select individuals and interest groups. I propose that Gogol in "The Nose" and Rushdie in Midnight's Children use nasal discourse to discern the manipulative process of ideological intervention, which selectively labels specific discourse and interpretation as the truth, and imposes it upon the life and history of the governed community. To utilize the olfactory in a manner challenging the dominant narratives, the authors construct nasal images as essentially ambiguous. In this way they point out to the fluid and unstable nature of reality. In the world of their fiction, reality does not have a singular meaning; every sign is open to interpretation, producing a new meaning, depending on the circumstances of the interpretative act. The nose itself is chosen for this symbolic function for two reasons: the physiognomic tradition of reading faces nests moral ambiguity in the nose, and scent is the most ambiguous of sensory stimuli. Chapter I focuses on the structural role of the olfactory, in Chapters III and IV I discuss how Rushdie and Gogol employ and adapt physiognomic theory to constitute the olfactory as ambiguous images. In Chapters V and VI show that both authors install the olfactory-introduced ambiguity into the very foundations of their texts.

Rushdie

Gogol

olfactory

nose

midnight's children

Characerization of dopamine and kainate receptors in olfactory bulb neurons and their effects on glutamatergic transmission

Davila, Nestor Gabriel. Trombley Paul.

January 2003

Thesis (Ph. D.)--Florida State University, 2003. / Advisor: Dr. Paul Trombley, Florida State University, School of Arts and Sciences, Dept. of Biological Science. Title and description from dissertation home page (viewed Feb. 26, 2004). Includes bibliographical references.

Morphological Development of Uniglomerular Projection Neurons in the Olfactory Lobe of the Moth, Manduca sexta

Chandler, Larry

January 2008

The moth Manduca sexta has been a common model for the study of the insect olfactory systems. The neuronal architecture in the antennal lobes (ALs) of insects and in the olfactory lobes of vertebrates is similar in structure and development. In Manduca, as in other olfactory systems, sensory receptor neurons send axons into the AL where they form synapses with local interneurons (LNs) and projection neurons (PNs) within the structural units of glomeruli. Here, I present the morphological development of one type of interneuron, the uniglomerular projection neuron (uPN), in normal AL development and in AL development in the absence of olfactory receptor neurons (ORNs). Using fluorescent-dye labeling of uPNs and confocal microscopy, my results show that in the absence of ORNs, uPN dendritic arborization is uncharacteristic of that in normally developing ALs, reinforcing the concept that afferent input guides the development of architecture in sensory areas of the brain.

projection neurons

olfactory lobe

Manduca sexta