Ric-8B, um provável GEF para Galpha-olf, promove expressão funcional de receptores olfatórios / Ric-8B, a putative GEF for Galpha-olf, promotes functional expression of odorant receptors

Dannecker, Luiz Eduardo Cabral Von

07 August 2006

Os odores são detectados por uma grande família de receptores olfatórios (ORs) que são expressos nos neurônios olfatórios localizados no nariz. Os ORs ativados por um determinado odor acoplam-se à proteína Galfaolf que irá promover a ativação da adenilil ciclase III, resultando na produção de AMPc. O aumento da concentração de AMPc irá ativar canais iônicos dependentes de AMPc, tendo como consequência a despolarização do neurônio olfatório. A informação desencadeada pela ativação de determinados ORs é então transmitida para regiões específicas do cérebro promovendo a percepção do odor. A determinação da especificidade dos ORs para diferentes odores irá contribuir para o entendimento de como os odores são discriminados pelo sistema olfatório, entretanto, poucos ORs tiveram seus ligantes definidos devido a dificuldade de expressão funcional de ORs em sistema heterólogo. Em nosso trabalho, utilizamos o sistema de duplo-híbrido em levedura a fim de determinar potenciais novos reguladores para Galfaolf. Deste experimento, identificamos que Ric-8B (Ric, abreviatura de Resistant to Inhibitors of Cholinesterase), um provável GEF (GTP Exchange Factor), é capaz de interagir com Gaolf. Assim como Gaolf, Ric-8B é predominantemente expresso nos neurônios olfatórios maduros e em regiões específicas do cérebro. A restrita co-localização de Gaolf e Ric-8B fortemente indica que Ric-8B é uma proteína que participa da via de transdução de sinal de Galfaolf. Através de nossos ensaios, utilizando células HEK-293, foi possível mostrar que Ric-8B é capaz de potencializar a atividade de Galfaolf, tendo como consequência o aumento da produção de AMPc em sistema heterólogo. Por fim, nós mostramos que Ric-8B é capaz de promover a expressão funcional de ORs em sistema heterólogo. Nossos resultados demonstram que a expressão de Ric-8B é capaz de aumentar o acúmulo de Galfaolf na periferia de células HEK-293T, indicando que Ric-8B promove a expressão funcional de ORs provavelmente através da melhora da eficiência do acoplamento dos ORs com Galfaolf. Nossos resultados demonstram que o uso de Ric-8B em um sistema em larga escala irá permitir a expressão funcional de diversos ORs, permitindo a identificação de seus respectivos ligantes. Tal análise irá contribuir para o melhor entendimento do mecanismo de percepção dos odores. / Odorants are detected by a large family of odorant receptors (ORs) expressed in the olfactory neurons in the nose. The activated receptors couple to an olfactory-specific G-protein (Galphaolf), which activates adenylyl cyclase III to produce cAMP. Increased cAMP levels activate cyclic nucleotide-gated channels, causing cell membrane depolarization. The information provided by the odorant receptors is transmitted to specific regions of the brain leading to odorant perception. The determination of the odorant specificities of the different ORs will contribute to the understanding of how odorants are discriminated by the olfactory system. However, only a few ORs have been linked to odorants they recognized to date because ORs are not efficiently expressed in heterologous cells since they are poorly expressed on the cell surface. Here we used yeast two-hybrid to search for potential regulators for Galphaolf. We found that Ric-8B (for Resistant to Inhibitors of Cholinesterase), a putative GTP exchange factor, is able to interact with Gaolf. Like Gaolf, Ric-8B is predominantly expressed in the mature olfactory sensory neurons and also in a few regions in the brain. The highly restricted and colocalized expression patterns of Ric-8B and Galphaolf strongly indicate that Ric-8B is a functional partner for Galphaolf. We show that Ric-8B is able to potentiate Galphaolf-dependent cAMP accumulation in human embryonic kidney 293 cells and therefore may be an important component for odorant signal transduction. Finally, we show that Ric-8B promotes efficient heterologous expression of ORs. Our results show that Ric-8B enhances accumulation of Galphaolf at the cell cortex, indicating that it promotes functional OR expression probably by improving the efficiency of OR coupling to Galphaolf. Our results demonstrate that the employment of Ric-8B in a high-throughput system will allow the functional screening of the OR family members and thereby provide further insight into the mechanisms of odor perception.

Odor perception

Olfaction

Olfactory receptors

Olfactory system

Olfato

Percepção de odores

Receptores olfatórios

Early Information Processing in the Vertebrate Olfactory System : A Computational Study

Sandström, Malin

January 2007

<p>The olfactory system is believed to be the oldest sensory system. It developed to detect and analyse chemical information in the form of odours, and its organisation follows the same principles in almost all living animals - insects as well as mammals. Likely, the similarities are due to parallel evolution - the same type of organisation has arisen more than once. Therefore, the olfactory system is often assumed to be close to optimally designed for its tasks. Paradoxically, the workings of the olfactory system are not yet well known, although several milestone discoveries have been made during the last decades. The most well-known is probably the disovery of the olfactory receptor gene family, announced in 1991 by Linda Buck and Richard Axel. For this and subsequent work, they were awarded a Nobel Prize Award in 2004. This achievement has been of immense value for both experimentalists and theorists, and forms the basis of the current understanding of olfaction. The olfactory system has long been a focus for scientific interest, both experimental and theoretical. Ever since the field of computational neuroscience was founded, the functions of the olfactory system have been investigated through computational modelling. In this thesis, I present the basis of a biologically realistic model of the olfactory system. Our goal is to be able to represent the whole olfactory system. We are not there yet, but we have some of the necessary building blocks; a model of the input from the olfactory receptor neuron population and a model of the olfactory bulb. Taking into account the reported variability of geometrical, electrical and receptor-dependent neuronal characteristics, we have been able to model the frequency response of a population of olfactory receptor neurons. By constructing several olfactory bulb models of different size, we have shown that the size of the bulb network has an impact on its ability to process noisy information. We have also, through biochemical modelling, investigated the behaviour of the enzyme CaMKII which is known to be critical for early olfactory adaptation (suppression of constant odour stimuli).</p> / <p>Luktsystemet anses allmänt vara det äldsta sensoriska systemet. Det utvecklades för att upptäcka och analysera kemisk information i form av lukter, och det är organiserat efter samma principer hos nästan alla djurarter: insekter så väl som däggdjur. Troligen beror likheterna på parallell evolution -- samma organisation har uppstått mer än en gång. Därför antas det ofta att luktsystemet är nära optimalt anpassat för sina arbetsuppgifter. Paradoxalt nog är luktsystemets arbetssätt ännu inte väl känt, även om flera banbrytande framsteg gjorts de senaste decennierna. Det mest välkända är nog upptäckten av genfamiljen av luktreceptorer, som tillkännagavs 1991 av Linda Buck och Rikard Axel. För detta och efterföljande arbete belönades de med Nobelpriset år 2004. Upptäckten har varit mycket värdefull för både experimentalister och teoretiker, och formar grunden för vår nuvarande förståelse av luktsystemet. Luktsystemet har länge varit ett fokus för vetenskapligt intresse, både experimentellt och teoretiskt. Ända sedan fältet beräkningsbiologi grundades har luktsystemet undersökts genom datormodellering. I denna avhandling presenterar jag grunden för en biologiskt realistisk modell av luktsystemet. Vårt mål är att kunna representera hela luktsystemet. Så långt har vi ännu inte nått, men vi har några av de nödvändiga byggstenarna: en modell av signalerna från populationen av luktreceptorceller, och en modell av luktbulben. Genom att ta hänsyn till nervcellernas rapporterade variationer i geometriska, elektriska och receptor-beroende karaktärsdrag har vi lyckats modellera svarsfrekvenserna från en population av luktreceptorceller. Genom att konstruera flera olika stora modeller av luktbulben har vi visat att storleken på luktbulbens cellnätverk påverkar dess förmåga att behandla brusig information. Vi har också, genom biokemisk modellering, undersökt beteendet hos enzymet CaMKII, som är kritiskt viktigt för adaptering (undertryckning av ständigt närvarande luktstimuli) i luktsystemet.</p>

olfaction

olfactory system

olfactory bulb

synchronisation

CaMKII

mathematical modelling

Computer science

Datavetenskap

Cellular and Synaptic Organization of the Human Olfactory Bulb

Maresh, Alison

04 March 2008

The distribution of cell types and synapses is well characterized in the rodent olfactory bulb (OB), and from that plausible models of odor processing have been constructed. Individual olfactory sensory neurons (OSNs) express only 1 of ~1000 odorant receptors (ORs) and send their axons to specific synaptic targets in the OB glomerular neuropil. Each glomerulus is innervated exclusively by OSN axons expressing the same OR. The distribution of these glomeruli is conserved across animals, as is the numerical relationship between number of expressed ORs and number of glomeruli in the OB. Our objective is to extend such results to the level of the human OB to determine how its cellular and synaptic organization, and more specifically how the number and distribution of its glomeruli, compare to what has been elucidated in mice. As there are ~2,000 glomeruli for ~1,000 ORs in mice, we predicted ~700 glomeruli in humans based on the ~350 intact OR genes identified in the human through genomic studies. Using immunohistochemistry, the organization of cells and synapses in human OBs was evaluated and quantified. While the laminar structure of the OB is broadly conserved between species, in the human OB the laminar organization as well as additional structural features suggest a less rigorously organized OB than in rodents, perhaps suggesting that odor processing in the human OB may be less efficient than in mice. Of particular note, the total number of glomeruli in the human OB differs significantly from predicted and demonstrates a high degree of variability amongst specimens, thus far ranging from approximately 3000 - 9000/OB. These results indicate that the principles of OR-homotypic axon convergence developed from mouse studies may not be readily applicable to the human, and that central processing of odor signals in the human may differ from those characterized in the mouse.

olfactory bulb

olfactory pathways

smell

odors

mice

otorhinolaryngology

human

receptors odorant

Clinical, immunological and olfactory aspects of sinusitis and nasal polyposis : with special reference to patients with cystic fibrosis /

Henriksson, Gert,

January 2004

Diss. (sammanfattning) Stockholm : Karol. inst., 2004. / Härtill 4 uppsatser.

Ric-8B, um provável GEF para Galpha-olf, promove expressão funcional de receptores olfatórios / Ric-8B, a putative GEF for Galpha-olf, promotes functional expression of odorant receptors

Luiz Eduardo Cabral Von Dannecker

07 August 2006

Os odores são detectados por uma grande família de receptores olfatórios (ORs) que são expressos nos neurônios olfatórios localizados no nariz. Os ORs ativados por um determinado odor acoplam-se à proteína Galfaolf que irá promover a ativação da adenilil ciclase III, resultando na produção de AMPc. O aumento da concentração de AMPc irá ativar canais iônicos dependentes de AMPc, tendo como consequência a despolarização do neurônio olfatório. A informação desencadeada pela ativação de determinados ORs é então transmitida para regiões específicas do cérebro promovendo a percepção do odor. A determinação da especificidade dos ORs para diferentes odores irá contribuir para o entendimento de como os odores são discriminados pelo sistema olfatório, entretanto, poucos ORs tiveram seus ligantes definidos devido a dificuldade de expressão funcional de ORs em sistema heterólogo. Em nosso trabalho, utilizamos o sistema de duplo-híbrido em levedura a fim de determinar potenciais novos reguladores para Galfaolf. Deste experimento, identificamos que Ric-8B (Ric, abreviatura de Resistant to Inhibitors of Cholinesterase), um provável GEF (GTP Exchange Factor), é capaz de interagir com Gaolf. Assim como Gaolf, Ric-8B é predominantemente expresso nos neurônios olfatórios maduros e em regiões específicas do cérebro. A restrita co-localização de Gaolf e Ric-8B fortemente indica que Ric-8B é uma proteína que participa da via de transdução de sinal de Galfaolf. Através de nossos ensaios, utilizando células HEK-293, foi possível mostrar que Ric-8B é capaz de potencializar a atividade de Galfaolf, tendo como consequência o aumento da produção de AMPc em sistema heterólogo. Por fim, nós mostramos que Ric-8B é capaz de promover a expressão funcional de ORs em sistema heterólogo. Nossos resultados demonstram que a expressão de Ric-8B é capaz de aumentar o acúmulo de Galfaolf na periferia de células HEK-293T, indicando que Ric-8B promove a expressão funcional de ORs provavelmente através da melhora da eficiência do acoplamento dos ORs com Galfaolf. Nossos resultados demonstram que o uso de Ric-8B em um sistema em larga escala irá permitir a expressão funcional de diversos ORs, permitindo a identificação de seus respectivos ligantes. Tal análise irá contribuir para o melhor entendimento do mecanismo de percepção dos odores. / Odorants are detected by a large family of odorant receptors (ORs) expressed in the olfactory neurons in the nose. The activated receptors couple to an olfactory-specific G-protein (Galphaolf), which activates adenylyl cyclase III to produce cAMP. Increased cAMP levels activate cyclic nucleotide-gated channels, causing cell membrane depolarization. The information provided by the odorant receptors is transmitted to specific regions of the brain leading to odorant perception. The determination of the odorant specificities of the different ORs will contribute to the understanding of how odorants are discriminated by the olfactory system. However, only a few ORs have been linked to odorants they recognized to date because ORs are not efficiently expressed in heterologous cells since they are poorly expressed on the cell surface. Here we used yeast two-hybrid to search for potential regulators for Galphaolf. We found that Ric-8B (for Resistant to Inhibitors of Cholinesterase), a putative GTP exchange factor, is able to interact with Gaolf. Like Gaolf, Ric-8B is predominantly expressed in the mature olfactory sensory neurons and also in a few regions in the brain. The highly restricted and colocalized expression patterns of Ric-8B and Galphaolf strongly indicate that Ric-8B is a functional partner for Galphaolf. We show that Ric-8B is able to potentiate Galphaolf-dependent cAMP accumulation in human embryonic kidney 293 cells and therefore may be an important component for odorant signal transduction. Finally, we show that Ric-8B promotes efficient heterologous expression of ORs. Our results show that Ric-8B enhances accumulation of Galphaolf at the cell cortex, indicating that it promotes functional OR expression probably by improving the efficiency of OR coupling to Galphaolf. Our results demonstrate that the employment of Ric-8B in a high-throughput system will allow the functional screening of the OR family members and thereby provide further insight into the mechanisms of odor perception.

Olfato

Percepção de odores

Receptores olfatórios

Odor perception

Olfaction

Olfactory receptors

Olfactory system

Roles of Calcium Ions and Cyclic AMP in Olfactory Transduction

Winegar, Bruce D. (Bruce David)

12 1900

The roles of Ca2 + and cAMP in olfactory transduction were explored using agents which affect calcium channels and second messenger systems. These agents were applied at certain calculated final concentrations onto olfactory epithelia of urethane-anesthetized frogs (Sana PiPlens) by two-sec aerosol spray. During extracellular recording, saturated vapors of isoamyl acetate were delivered every 100 sec in 0.3 sec pulses to produce an electroolfactogram (EOG). Inorganic cations that block inward calcium currents inhibit EOG responses with the following rank order: (La3+) > (Zn2+, Cd2+) > (Al3+, Ca2+, Sr2+) > (Co2+). Application of 7.5 mM La3+ eradicates £0G's, while Ba2+ (which can carry more current that Ca2+) initially produces significant enhancement (F=43.04, p<0.001, df=19). Magnesium ion has no effect on EOG's at 7.5 mM, while 1.5 X 10"4M Ca2+ is significantly inhibitory (F=5.74; p=0.0355; df=12). Control aerosol sprays of distilled water depress EOG's by an average of 5%. The organic calcium channel antagonists diltiazem and verapamil inhibit EOG's by 17% and 36X, respectively, at a concentration of 1.5 X 10~*M. Verapamil produces significant inhibition (F=17.17; p=0.002; df=ll) at 1.5 X 10" 5 M, while the 1,4-dihydropyridine calcium channel antagonists, nicardipine and nifedipine, do not inhibit beyond 1% DMSO controls. Several calmodulin antagonists decrease EOG's, but without correlation to their anti-calmodulin potency. Application of 1.5 X 10"*M chlorpromazine and N-(6-aminohexyl)-5-chloro-l-naphthalenesulfonamide inhibit EOG's by 31% and 27%, respectively, while trifluoperazine inhibits by 23%. Dibutyryl cAMP, a lipophilic mimic of cAMP, produces 54% inhibition at 1.5 X 10" *M. Dibutyryl cGMP, cGMP, cAMP, and adenosine all decrease EOG's by less than 15% compared to distilled water controls. Forskolin, a reversible activator of adenylate cyclase, inhibits EOG's by 57% at 1.5 X 10"5M, which is significant beyond the 1% DMSO controls (F=17.17; p=0.002; df=ll). These data support the hypothesis that Ca2+ participates in olfactory transduction. Calcium ions could serve as charge carriers, second messengers, or both. Cyclic AMP could be involved with the primary excitatory process or sensory adaptation, or both.

olfactory senses

calcium ions

intracellular signal transduction

Calcium ions -- Physiological effect.

Olfactometry.

Olfactory nerve.

Olfactory Dysfunction in SARS-CoV-2 Infection: Benefits of Including Smell Tests in COVID-19 Patients

Caviness, Dalton, Jia, Cuihong, Rodriguez-Gil, Diego

07 April 2022

Loss of olfactory function can readily be overlooked in a clinical setting. In most cases, symptomatic patients recover the sense of smell without any treatment due to the intrinsic neuroregenerative capacity in adult olfactory epithelium. The substantial prevalence of olfactory dysfunction following viral infection of the respiratory system leads many clinicians to consider this physical dysfunction as a subjective symptom rather than a diagnostic and pathologic sign amenable to analysis. Better understanding of the mechanisms behind olfactory dysfunction is expected to increase its clinical importance. Through analyzation of human and mouse specimens, one is able to gain insight into viral-induced olfactory dysfunction on a pathophysiologic level. These murine and human models provide a better understanding of mechanisms and reveal potential therapeutic targets. This is becoming increasingly useful considering the high prevalence of olfactory loss among COVID-19 patients. Here, we discuss the process of olfactory loss following viral infection, the possible mechanism of sudden olfactory dysfunction in COVID-19 infection, the possible benefits of clinical smell tests in COVID-19 patients, and a potentially overlooked consequence on olfactory function using dexamethasone in treating COVID-19 patients. We suggest that including smell tests in COVID-19 patients and studying the mechanism underlying olfactory dysfunction could provide potential strategy to prevent COVID-19 infection and spread and reveal potential therapeutic intervention to restore sense of smell. There are 18 sources used for this miniature literature review. All of our resources were chosen for up-to-date information regarding COVID-19 and it’s effect on the olfactory system. The sources were either found during a large PubMed search or recommendations sent from professors. This article just recently underwent a revision. After revision, our conclusions that smell tests would be beneficial in a clinical setting to prevent the spread and reveal therapeutic targets have been supported by the articles listed. This has been submitted and accepted by a peer-reviewed journal.

olfactory dysfunction

clinical olfactory function test

COVID-19

Dexamethasone

Viral Infections

Information processing in the olfactory system of different amphibian species

Weiss, Lukas

07 September 2020

No description available.

570

olfaction

anura

amphibians

evolution

sensory systems

olfactory receptor neurons

olfactory bulb

glomeruli

Biologie (PPN619462639)

Inhibition of Focal Adhesion Kinase Increases Adult Olfactory Stem Cell Self-Renewal and Neuroregeneration Through Ciliary Neurotrophic Factor

Jia, Cuihong, Oliver, Joe, Gilmer, Dustin, Lovins, Chiharu, Rodriguez-Gil, Diego J., Hagg, Theo

01 December 2020

Constant neuroregeneration in adult olfactory epithelium maintains olfactory function by basal stem cell proliferation and differentiation to replace lost olfactory sensory neurons (OSNs). Understanding the mechanisms regulating this process could reveal potential therapeutic targets for stimulating adult olfactory neurogenesis under pathological conditions and aging. Ciliary neurotrophic factor (CNTF) in astrocytes promotes forebrain neurogenesis but its function in the olfactory system is unknown. Here, we show in mouse olfactory epithelium that CNTF is expressed in horizontal basal cells, olfactory ensheathing cells (OECs) and a small subpopulation of OSNs. CNTF receptor alpha was expressed in Mash1-positive globose basal cells (GBCs) and OECs. Thus, CNTF may affect GBCs in a paracrine manner. CNTF−/− mice did not display altered GBC proliferation or olfactory function, suggesting that CNTF is not involved in basal olfactory renewal or that they developed compensatory mechanisms. Therefore, we tested the effect of increased CNTF in wild type mice. Intranasal instillation of a focal adhesion kinase (FAK) inhibitor, FAK14, upregulated CNTF expression. FAK14 also promoted GBC proliferation, neuronal differentiation and basal stem cell self-renewal but had no effective in CNTF−/− mice, suggesting that FAK inhibition promotes olfactory neuroregeneration through CNTF, making them potential targets to treat sensorineural anosmia due to OSN loss.

basal cell proliferation

neuronal differentiation

neuroregeneration

olfactory function

olfactory stem cell

Biomedical Sciences

Art Class Stinks : Exploring Olfactory Interaction Design and Its Potential to Enrich Learning in Art Education

Nikoli, Maria

January 2022

The sense of smell is crucial to everyday activities that make life pleasurable, such as eating, and it is also key to detecting danger, such as fire or rotten food. In addition, it is strongly linked with memory retrieval, it can induce affective states, and may even enhance the sense of presence in immersive environments. Furthermore, it is argued that olfaction holds promise as an art material. Despite all that, olfaction is often neglected, underestimated, or considered a lesser human sense in Western societies. In addition, the sense of smell is often overlooked in the fields of art education and HCI. Therefore, the field of olfactory interaction design could benefit from further inquiry, especially in relation to its potential to enrich learning in art education, a topic that has not been widely explored.   This thesis project aims to employ olfactory interaction design to enrich learning with smell in art education, all while helping art students become more aware of their sense of smell. The project is situated in the domains of embodied interaction and physical computing, and its final outcome is the prototype of an interactive system for learning with smell in art class while helping the users become more aware of their sense of smell. The prototype consists of two components: a mobile app and an olfactory display. It is targeted to art students, and more specifically, adults who attend art classes for leisure. This thesis project intends to contribute to the field of embodied interaction design, and more specifically, olfactory interaction design. In order to do that, a research-through-design approach is used in order to produce knowledge through an iterative process of design activities, and in order to develop a prototype that embodies this knowledge. Moreover, this project finds its theoretical grounding in the Constructivist theory of education, as well as in embodied interaction theory, phenomenology, and a contemporary view of the self as mind and body united into a whole.

embodied

olfactory interaction

physical computing

art

education

olfactory display

Design

Design