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4. A genetic survey of fluoxetine action on synaptic transmission in Caenorhabditis elegans

Author

Kullyev, Andrey, Dempsey, Catherine M., Miller, Sarah, Chih-Jen Kuan, Hapiak, Vera M., Komuniecki, Richard W., Griffin, Christine T., and Ji Ying Sze

Subjects
Drug targeting -- Research, Fluoxetine -- Dosage and administration, Nervous system diseases -- Drug therapy, Nervous system diseases -- Genetic aspects, Neurons -- Physiological aspects, Neural transmission -- Research, Dose-response relationship (Biochemistry), Biological sciences
Published
2010

5. Dual excitatory and inhibitory serotonergic inputs modulate egg laying in Caenorhabditis elegans

Author

Hapiak, Vera M., Hobson, Robert J., Hughes, Lindsay, Smith, Katherine, Harris, Gareth, Condon, Christina, Komuniecki, Patricia, and Komuniecki, Richard W.

Subjects
Caenorhabditis elegans -- Genetic aspects, Caenorhabditis elegans -- Physiological aspects, Serotonin -- Physiological aspects, Biological sciences
Abstract

Serotonin (5-HT) regulates key processes in both vertebrates and invertebrates. Previously, four 5-HT receptors that contributed to the 5-HT modulation of egg laying were identified in Caenorhabditis elegans. Therefore, to assess potential receptor interactions, we generated animals containing combinations of null alleles for each receptor, especially animals expressing only individual 5-HT receptors. 5-HT-stimulated egg laying and egg retention correlated well with different combinations of predicted excitatory and inhibitory serotonergic inputs. For example, 5-HT did not stimulate egg laying in ser-1, ser-7, or set-7 ser-1 null animals, and ser-7 ser-1 animals retained more eggs than wild-type animals. In contrast, 5-HT-stimulated egg laying in ser-4;mod-1 animals was greater than in wild-type animals, and ser-4;mod-1 animals retained fewer eggs than wild-type animals. Surprisingly, ser-4;mod-1;ser-7 set:1 animals retained the same number of eggs as wild-type animals and exhibited significant 5-HT-stimulated egg laying that was dependent on a previously uncharacterized receptor, SER-5. 5-HT-stimulated egg laying was absent in ser5;ser-4;mod-1;ser-7 set-1 animals, and these animals retained more eggs than either wild-type or ser-4;mod-1;ser-7 ser-1 animals. The 5-HT sensitivity of egg laying could be restored by ser-5 muscle expression. Together, these results highlight the dual excitatory/inhibitory serotonergic inputs that combine to modulate egg laying.

Published
2009

6. SER-1, a Caenorhabditis elegans 5-HT.sub.2-like receptor, and a multi-PDZ domain containing protein (MPZ-1) interact in vulval muscle to facilitate serotonin-stimulated egg-laying

Author

Xiao, Hong, Hapiak, Vera M., Smith, Katherine A., Lin, Li, Hobson, Robert J., Plenefisch, John, and Komuniecki, Richard

Subjects
Caenorhabditis elegans, Proteins, Biological sciences
Abstract

To link to full-text access for this article, visit this link: http://dx.doi.org/10.1016/j.ydbio.2006.06.044 Byline: Hong Xiao, Vera M. Hapiak, Katherine A. Smith, Li Lin, Robert J. Hobson, John Plenefisch, Richard Komuniecki Keywords: Caenorhabditis elegans; Egg-laying behavior; ser-1; mpz-1; PDZ domains; Scaffolding proteins Abstract: Serotonin (5-HT) stimulation of egg-laying in Caenorhabditis elegans is abolished in ser-1 (ok345) animals and is rescued by ser-1 expression in vulval muscle. A PDZ binding motif (ETFL) at the SER-1 C-terminus is not essential for rescue, but facilitates SER-1 signaling. SER-1 binds specifically to PDZ domain 10 of the multi-PDZ domain protein, MPZ-1, based on GST pulldown and co-immunoprecipitation. mpz-1 is expressed in about 60 neurons and body wall and vulval muscles. In neurons, GFP-tagged MPZ-1 is punctate and colocalizes with the synaptic marker, synaptobrevin. The expression patterns of ser-1 and mpz-1 overlap in 3 pairs of neurons and vulval muscle. In addition, MPZ-1 also interacts with other GPCRs with acidic amino acids in the -3 position of their PDZ binding motifs. mpz-1 RNAi reduces 5-HT stimulated egg-laying in wild type animals and in ser-1 mutants rescued by muscle expression of SER-1. In contrast, mpz-1 RNAi has no effect on 5-HT stimulated egg-laying in ser-1 mutants rescued by expression of a truncated SER-1 that lacks the C-terminal PDZ binding motif. The overexpression of MPZ-1 PDZ domain 10 also inhibits 5-HT stimulated egg-laying. These studies suggest that the SER-1/MPZ-1 interaction facilitates SER-1 mediated signaling. Author Affiliation: Department of Biological Sciences, University of Toledo, 2801 West Bancroft Street, Toledo, OH 43606, USA Article History: Received 10 May 2006; Revised 22 June 2006; Accepted 26 June 2006

Published
2006

7. SER-7, a Caenorhabditis elegans 5-[HT.sub.7]-like receptor, is essential for the 5-HT stimulation of pharyngeal pumping and egg laying

Author

Hobson, Robert J., Hapiak, Vera M., Xiao, Hong, Buehrer, Kara L., Komuniecki, Patricia R., and Komuniecki, Richard W.

Subjects
Caenorhabditis elegans -- Genetic aspects, Caenorhabditis elegans -- Research, Nucleotide sequence -- Research, Gene mutations -- Research, Phenotype -- Research, Gene expression -- Research, Biological sciences
Abstract

Serotonin (5-HT) stimulates both pharyngeal pumping and egg laying in Caenorhabditis elegans. Four distinct 5-HT receptors have been partially characterized, but little is known about their function in vivo. SER-7 exhibits most sequence identity to the mammalian 5-[HT.sub.7] receptors and couples to a stimulation of adenyl cyclase when expressed in COS-7 cells. However, many 5-[HT.sub.7]-specific agonists have low affinity for SER-7. 5-HT fails to stimulate pharyngeal pumping and the firing of the MC motorneurons in animals containing the putative ser-7(tm1325) and ser-7(tm1728) null alleles. In addition, although pumping on bacteria is upregulated in ser-7(tm1325) animals, pumping is more irregular. A similar failure to maintain 'fast pumping' on bacteria also was observed in ser-1(ok345) and tph-1(mg280) animals that contain putative null alleles of a 5-[HT.sub.2]-like receptor and tryptophan hydroxylase, respectively, suggesting that serotonergic signaling, although not essential for the upregulation of pumping on bacteria, 'fine runes' the process. 5-HT also fails to stimulate egg laying in ser-7(tm1325), ser-1(ok345), and ser-7(tm1325) ser-1-(ok345) animals, but only the set-7 ser-1 double mutants exhibit an Eg1 phenotype. All of the SER-7 mutant phenotypes are rescued by the expression of full-length ser-7::gfp translational fusions, ser-7::gfp is expressed in several pharyngeal neurons, including the MC, M2, M3, M4, and M5, and in vulval muscle. Interestingly, 5-HT inhibits egg laying and pharyngeal pumping in ser-7 null mutants and the 5-HT inhibition of egg laying, but not pumping, is abolished in ser-7(tm1325);ser-4(ok512) double mutants. Taken together, these results suggest that SER-7 is essential for the 5-HT stimulation of both egg laying and pharyngeal pumping, but that other signaling pathways can probably fulfill similar roles in vivo.

Published
2006

8. mua-6, a gene required for tissue integrity in Caenorhabditis elegans, encodes a cytoplasmic intermediate filament

Author

Hapiak, Vera, Hresko, Michelle Coutu, Schriefer, Lawrence A., Saiyasisongkhram, Kamlai, Bercher, Mark, and Plenefisch, John

Subjects
Allelomorphism -- Genetic aspects, Allelomorphism -- Physiological aspects, Caenorhabditis elegans -- Genetic aspects, Caenorhabditis elegans -- Physiological aspects, Cell adhesion -- Genetic aspects, Cell adhesion -- Physiological aspects, Developmental biology -- Genetic aspects, Developmental biology -- Research, Gene expression -- Physiological aspects, Locomotion -- Physiological aspects, Proteins -- Genetic aspects, Proteins -- Physiological aspects, Tissue culture -- Genetic aspects, Tissue culture -- Physiological aspects, Biological sciences
Abstract

Locomotion in Caenorhabditis elegans requires force transmission through a network of proteins linking the skeletal muscle, via an intervening basal lamina and epidermis (hypodermis), to the cuticle. Mutations in mua-6 result in hypodermal rupture, muscle detachment from the bodywall, and progressive paralysis. It is shown that mua-6 encodes the cytoplasmic intermediate filament (cIF) A2 protein and that a MUA-6/IFA-2::GFP fusion protein that rescues the presumptive mua-6 null allele localizes to hypodermal hemidesmosomes. This result is consistent with what is known about the function of cIFs in vertebrates. Although MUA-6/IFA-2 is expressed embryonically, and plays an essential postembryonic role in tissue integrity, it is not required for embryonic development of muscle-cuticle linkages nor for the localization of other cIFs or hemidesmosome-associated proteins in the embryo. Finally, the molecular lesion in the mua-6(rh85) allele suggests that the head domain of the MUA-6/IFA-2 is dispensable for its function. Keywords: C. elegans; Intermediate filaments; Cell adhesion; Tissue fragility; Hemidesmosomes

Published
2003

17. EphA2 organization and dynamics in cancer cells

Author

Bowman, Deanna Meredith, primary, Shi, Xiaojun, additional, Hapiak, Vera, additional, Zheng, Ji, additional, Muller‐Greven, Jeannine, additional, Lingerak, Ryan, additional, Buck, Matthias, additional, Wang, Bing‐Cheng, additional, and Smith, Adam, additional

Published
2017
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18. A role of the SAM domain in EphA2 receptor activation

Author

Shi, Xiaojun, primary, Hapiak, Vera, additional, Zheng, Ji, additional, Muller-Greven, Jeannine, additional, Bowman, Deanna, additional, Lingerak, Ryan, additional, Buck, Matthias, additional, Wang, Bing-Cheng, additional, and Smith, Adam W., additional

Published
2017
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22. A Genetic Survey of Fluoxetine Action on Synaptic Transmission in Caenorhabditis elegans

Author

Kullyev, Audrey, Dempsey, Catherine M., Miller, Sarah, Kuan, Chih-Jen, Hapiak, Vera M., Komuniecki, Richard W., Griffin, Christine, Sze, Ji Ying, Kullyev, Audrey, Dempsey, Catherine M., Miller, Sarah, Kuan, Chih-Jen, Hapiak, Vera M., Komuniecki, Richard W., Griffin, Christine, and Sze, Ji Ying

Abstract

Fluoxetine is one of the most commonly prescribed medications for many behavioral and neurological disorders. Fluoxetine acts primarily as an inhibitor of the serotonin reuptake transporter (SERT) to block the removal of serotonin from the synaptic cleft, thereby enhancing serotonin signals. While the effects of fluoxetine on behavior are firmly established, debate is ongoing whether inhibition of serotonin reuptake is a sufficient explanation for its therapeutic action. Here, we provide evidence of two additional aspects of fluoxetine action through genetic analyses in Caenorhabditis elegans. We show that fluoxetine treatment and null mutation in the sole SERT gene mod-5 eliminate serotonin in specific neurons. These neurons do not synthesize serotonin but import extracellular serotonin via MOD-5/SERT. Furthermore, we show that fluoxetine acts independently of MOD-5/SERT to regulate discrete properties of acetylcholine (Ach), gamma-aminobutyric acid (GABA), and glutamate neurotransmission in the locomotory circuit. We identified that two G-protein–coupled 5-HT receptors, SER-7 and SER-5, antagonistically regulate the effects of fluoxetine and that fluoxetine binds to SER-7. Epistatic analyses suggest that SER-7 and SER-5 act upstream of AMPA receptor GLR-1 signaling. Our work provides genetic evidence that fluoxetine may influence neuronal functions and behavior by directly targeting serotonin receptors.

Published
2010

26. Three Distinct Amine Receptors Operating at Different Levels within the Locomotory Circuit Are Each Essential for the Serotonergic Modulation of Chemosensation inCaenorhabditis elegans

Author

Harris, Gareth P., primary, Hapiak, Vera M., additional, Wragg, Rachel T., additional, Miller, Sarah B., additional, Hughes, Lindsay J., additional, Hobson, Robert J., additional, Steven, Robert, additional, Bamber, Bruce, additional, and Komuniecki, Richard W., additional

Published
2009
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27. Neuropeptides Amplify and Focus the Monoaminergic Inhibition of Nociception in Caenorhabditis elegans.

Author

Hapiak, Vera, Summers, Philip, Ortega, Amanda, Wen Jing Law, Stein, Andrew, and Komuniecki, Richard

Subjects
*CAENORHABDITIS elegans, *NEUROPEPTIDES, *AMINES in the body, *NEMATODES, *NEURONS, *CELLULAR signal transduction, *ANIMAL behavior
Abstract

Monoamines and neuropeptides interact to modulate most behaviors. To better understand these interactions, we have defined the roles of tyramine (TA), octopamine, and neuropeptides in the inhibition of aversive behavior in Caenorhabditis elegans. TA abolishes the serotonergic sensitization of aversive behavior mediated by the two nociceptive ASH sensory neurons and requires the expression of the adrenergic-like, Gɑq-coupled, TA receptor TYRA-3 on inhibitory monoaminergic and peptidergic neurons. For example, TA inhibition requires Gɑq and Gɑs signaling in the peptidergic ASI sensory neurons, with an array of ASI neuropeptides activating neuropeptide receptors on additional neurons involved in locomotory decision-making. The ASI neuropeptides required for tyraminergic inhibition are distinctfromthose required for octopaminergic inhibition, suggesting that individualmonoaminesstimulate the release of different subsets of ASI neuropeptides. Together, these results demonstrate that a complex humoral mix of monoamines is focused by more local, synaptic, neuropeptide release to modulate nociceptionandhighlight the similarities between the tyraminergic/octopaminergic inhibition of nociception in C. elegans and the noradrenergic inhibition of nociception in mammals that also involves inhibitory peptidergic signaling. [ABSTRACT FROM AUTHOR]

Published
2013
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28. The Monoaminergic Modulation of Sensory-Mediated Aversive Responses in Caenorhabditis elegans Requires Glutamatergic/Peptidergic Cotransmission.

Author

Harris, Gareth, Mills, Holly, Wragg, Rachel, Hapiak, Vera, Castelletto, Michelle, Korchnak, Amanda, and Komuniecki, Richard W.

Subjects
AMINES, NEUROPEPTIDES, NEURONS, PHENOTYPES, NEURAL circuitry
Abstract

Monoamines and neuropeptides interact to modulate behavioral plasticity in both vertebrates and invertebrates. In Caenorhabditis elegans behavioral state or "mood" is dependent on food availability and is translated by both monoaminergic and peptidergic signaling in the fine-tuning of most behaviors. In the present study, we have examined the interaction of monoamines and peptides on C. elegans aversive behavior mediated by a pair of polymodal, nociceptive, ASH sensory neurons. Food or serotonin sensitize the ASHs and stimulate aversive responses through a pathway requiring the release of nlp-3-encoded neuropeptides from the ASHs. Peptides encoded by nlp-3 appear to stimulate ASH-mediated aversive behavior through the neuropeptide receptor-17 (NPR-17) receptor. nlp-3- and npr-17-null animals exhibit identical phenotypes and animals overexpressing either nlp-3 or npr-17 exhibit elevated aversive responses off food that are absent when nlp-3 or npr-17 are overexpressed in npr-17- or nlp-3-null animals, respectively. ASH-mediated aversive responses are increased by activating either Gαq or Gαs in the ASHs, with Gαs signaling specifically stimulating the release of nlp-3-encoded peptides. In contrast, octopamine appears to inhibit 5-HT stimulation by activating Gαo signaling in the ASHs that, in turn, inhibits both Gαs and Gαq signaling and the release of nlp-3-encoded peptides. These results demonstrate that serotonin and octopamine reversibly modulate the activity of the ASHs, and highlight the utility of the C. elegans model for defining interactions between monoamines and peptides in individual neurons of complex sensory-mediated circuits. [ABSTRACT FROM AUTHOR]

Published
2010
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29. Three Distinct Amine Receptors Operating at Different Levels within the Locomotory Circuit Are Each Essential for the Serotonergic Modulation of Chemosensation in Caenorhabditis elegans.

Author

Harris, Gareth P., Hapiak, Vera M., Wragg, Rachel T., Miller, Sarah B., Hughes, Lindsay J., Hobson, Robert J., Steven, Robert, Bamber, Bruce, and Komuniecki, Richard W.

Subjects
*SEROTONIN, *VERTEBRATES, *INVERTEBRATE behavior, *CAENORHABDITIS elegans, *SEROTONINERGIC mechanisms, *SENSORY neurons, *CELL receptors, *BEHAVIOR, *ANIMAL behavior, *THERAPEUTICS
Abstract

Serotonin modulates behavioral plasticity in both vertebrates and invertebrates and in Caenorhabditis elegans regulates key behaviors, including locomotion, aversive learning and olfaction through at least four different 5-HT receptors. In the present study, we examined the serotonergic stimulation of aversive responses to dilute octanol in animals containing null alleles of these 5-HT receptors. Both ser-1 and mod-1 null animals failed to increase sensitivity to dilute octanol on food/5-HT, in contrast to wild-type, ser-4 or ser-7 null animals. 5-HT sensitivity was restored by the expression ofMOD-1and SER-1 in the AIB or potentially the AIY, and RIA interneurons of mod-1 and ser-1 null animals, respectively. Because none of these 5-HT receptors appear to be expressed in the ASH sensory neurons mediating octanol sensitivity, we identified a 5-HT6-like receptor, F16D3.7(SER-5), that was required for food/5-HT-dependent increases in octanol sensitivity. ser-5 null animals failed to increase octanol sensitivity in the presence of food/5-HT and sensitivity could be restored by expression of SER-5 in the ASHs. Similarly, the RNAi knockdown of ser-5 expression in the ASHs of wild-type animals also abolished 5-HT-dependent increases in octanol sensitivity, suggesting that SER-5 modulates the octanol responsiveness of the ASHs directly. Together, these results suggest that multiple amine receptors, functioning at different levels within the locomotory circuit, are each essential for the serotonergic modulation of ASH-mediated aversive responses. [ABSTRACT FROM AUTHOR]

Published
2009
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30. Tyramine and Octopamine Independently Inhibit Serotonin-Stimulated Aversive Behaviors in Caenorhabditis elegans through Two Novel Amine Receptors.

Author

Wragg, Rachel T., Hapiak, Vera, Miller, Sarah B., Harris, Gareth P., Gray, John, Komuniecki, Patricia R., and Komuniecki, Richard W.

Subjects
*TYRAMINE, *CAENORHABDITIS elegans, *AMINES, *CONDITIONED response, *NEURONS
Abstract

Biogenic amines modulate key behaviors in both vertebrates and invertebrates. In Caenorhabditis elegans, tyramine (TA) and octopamine (OA) inhibit aversive responses to 100%, but not dilute (30%) octanol. TA and OA also abolish food- and serotonin-dependent increases in responses to dilute octanol in wild-type but not tyra-3(ok325) and f14d12.6(ok371) null animals, respectively, suggesting that TA and OA modulated responses to dilute octanol are mediated by separate, previously uncharacterized, G-protein-coupled receptors. TA and OA are high-affinity ligands for TYRA-3 and F14D12.6, respectively, based on their pharmacological characterization after heterologous expression. f14d12.6::gfp is expressed in the ASHs, the neurons responsible for sensitivity to dilute octanol, and the sra-6-dependent expression of F14D12.6 in the ASHs is sufficient to rescue OA sensitivity in f14d12.6(ok371) null animals. In contrast, tyra-3::gfp appears not to be expressed in the ASHs, but instead in other neurons, including the dopaminergic CEP/ADEs. However, although dopamine (DA) also inhibits 5-HT-dependent responses to dilute octanol, TA still inhibits in dop-2; dop-1; dop-3 animals that do not respond to DA and cat-2(tm346) and Pdat-1::ICE animals that lack significant dopaminergic signaling, suggesting that DA is not an intermediate in TA inhibition. Finally, responses to TA and OA selectively desensitize after preexposure to the amines. Our data suggest that although tyraminergic and octopaminergic signaling yield identical phenotypes in these olfactory assays, they act independently through distinct receptors to modulate the ASH-mediated locomotory circuit and that C. elegans is a useful model to study the aminergic modulation of sensory-mediated locomotory behaviors. [ABSTRACT FROM AUTHOR]

Published
2007
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31. SER-1, a Caenorhabditis elegans 5-HT2-like receptor, and a multi-PDZ domain containing protein (MPZ-1) interact in vulval muscle to facilitate serotonin-stimulated egg-laying

Author

Xiao, Hong, Hapiak, Vera M., Smith, Katherine A., Lin, Li, Hobson, Robert J., Plenefisch, John, and Komuniecki, Richard

Subjects
*NERVOUS system, *VALUE-added tax, *AMINO acids, *ORGANIC acids
Abstract

Abstract: Serotonin (5-HT) stimulation of egg-laying in Caenorhabditis elegans is abolished in ser-1 (ok345) animals and is rescued by ser-1 expression in vulval muscle. A PDZ binding motif (ETFL) at the SER-1 C-terminus is not essential for rescue, but facilitates SER-1 signaling. SER-1 binds specifically to PDZ domain 10 of the multi-PDZ domain protein, MPZ-1, based on GST pulldown and co-immunoprecipitation. mpz-1 is expressed in about 60 neurons and body wall and vulval muscles. In neurons, GFP-tagged MPZ-1 is punctate and colocalizes with the synaptic marker, synaptobrevin. The expression patterns of ser-1 and mpz-1 overlap in 3 pairs of neurons and vulval muscle. In addition, MPZ-1 also interacts with other GPCRs with acidic amino acids in the −3 position of their PDZ binding motifs. mpz-1 RNAi reduces 5-HT stimulated egg-laying in wild type animals and in ser-1 mutants rescued by muscle expression of SER-1. In contrast, mpz-1 RNAi has no effect on 5-HT stimulated egg-laying in ser-1 mutants rescued by expression of a truncated SER-1 that lacks the C-terminal PDZ binding motif. The overexpression of MPZ-1 PDZ domain 10 also inhibits 5-HT stimulated egg-laying. These studies suggest that the SER-1/MPZ-1 interaction facilitates SER-1 mediated signaling. [Copyright &y& Elsevier]

Published
2006
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32. SER-7, a Caenorhabditis elegans 5-HT7-like Receptor, Is Essential for the 5-HT Stimulation of Pharyngeal Pumping and Egg Laying.

Author

Hobson, Robert J., Hapiak, Vera M., Hong Xiao, Buehrer, Kara L., Komuniecki, Patricia R., and Komuniecki, Richard W.

Subjects
*CAENORHABDITIS elegans, *SEROTONIN, *ADENYLATE cyclase, *BACTERIA, *PHENOTYPES, *NEURONS
Abstract

Serotonin (5-HT) stimulates both pharyngeal pumping and egg laying in Caenorhabditis elegans. Four distinct 5-HT receptors have been partially characterized, but little is known about their function in vivo. SER-7 exhibits most sequence identity to the mammalian 5-HT7 receptors and couples to a stimulation of adenyl cyclase when expressed in COS-7 cells. However, many 5-HT7-specific agonists have low affinity for SER-7. 5-HT fails to stimulate pharyngeal pumping and the firing of the MC motorneurons in animals containing the putative ser-7(tm1325) and ser-7(tm1728) null alleles. In addition, although pumping on bacteria is upregulated in ser-7(tm1325) animals, pumping is more irregular. A similar failure to maintain ‘fast pumping’ on bacteria also was observed in ser-1(ok345) and tph-1(mg280) animals that contain putative null alleles of a 5-HT2-like receptor and tryptophan hydroxylase, respectively, suggesting that serotonergic signaling, although not essential for the upregulation of pumping on bacteria, ‘fine tunes’ the process. 5-HT also fails to stimulate egg laying in ser-7(tm1325), ser-1(ok345), and ser-7(tm1325) ser-1(ok345) animals, but only the ser-7 ser-1 double mutants exhibit an Eg1 phenotype. All of the SER-7 mutant phenotypes are rescued by the expression of full-length ser-7::gfp translational fusions, ser-7::gfp is expressed in several pharyngeal neurons, including the MC, M2, M3, M4, and M5, and in vulval muscle. Interestingly, 5-HT inhibits egg laying and pharyngeal pumping in ser-7 null mutants and the 5-HT inhibition of egg laying, but not pumping, is abolished in ser-7(tm1325);ser-4(ok512) double mutants. Taken together, these results suggest that SER-7 is essential for the 5-HT stimulation of both egg laying and pharyngeal pumping, but that other signaling pathways can probably fulfill similar roles in vivo. [ABSTRACT FROM AUTHOR]

Published
2006
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33. Tyramine receptor (SER-2) isoforms are involved in the regulation of pharyngeal pumping and foraging behavior inCaenorhabditis elegans.

Author

Rex, Elizabeth, Molitor, Scott C., Hapiak, Vera, Hong Xiao, Henderson, Megan, and Komuniecki, Richard

Subjects
TYRAMINE, NEMATODES, CAENORHABDITIS elegans, LSD (Drug), PERTUSSIS toxin, AMINO acids
Abstract

Octopamine regulates essential processes in nematodes; however, little is known about the physiological role of its precursor, tyramine. In the present study, we have characterized alternatively splicedCaenorhabditis eleganstyramine receptor isoforms (SER-2 and SER-2A) that differ by 23 amino acids within the mid-region of the third intracellular loop. Membranes prepared from cells expressing either SER-2 or SER-2A bind[3H]lysergic acid diethylamide (LSD) in the low nanomolar range and exhibit highest affinity for tyramine. Similarly, both isoforms exhibit nearly identicalKi values for a number of antagonists. In contrast, SER-2A exhibits a significantly lower affinity than SER-2 for other physiologically relevant biogenic amines, including octopamine. Pertussis toxin treatment reduces affinity for both tyramine and octopamine, especially for octopamine in membranes from cells expressing SER-2, suggesting that the conformation of the mid-region of the third intracellular loop is dictated by G-protein interactions and is responsible for the differential tyramine/octopamine affinities of the two isoforms. Tyramine reduces forskolin-stimulated cAMP levels in HEK293 cells expressing either isoform with nearly identical IC50 values. Tyramine, but not octopamine, also elevates Ca2+ levels in cells expressing SER-2 and to a lesser extent SER-2A. Most importantly,ser-2null mutants (pk1357) fail to suppress head movements while reversing in response to nose-touch, suggesting a role for SER-2 in the regulation of foraging behavior, and fail to respond to tyramine in assays measuring serotonin-dependent pharyngeal pumping. These are the first reported functions for SER-2. These results suggest thatC. eleganscontains tyramine receptors, that individual SER-2 isoforms may differ significantly in their sensitivity to other physiologically relevant biogenic amines, such as octopamine (OA), and that tyraminergic signaling may be important in the regulation of key processes in nematodes. [ABSTRACT FROM AUTHOR]

Published
2004
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34. Neuropeptides Amplify and Focus the Monoaminergic Inhibition of Nociception in Caenorhabditis elegans

Author

Hapiak, Vera M.

Subjects
Neurobiology, neuropeptides monoamines nociception nutritional modulation
Abstract

Nutritional status can dramatically modulate olfaction and nociception. To better understand how food availability modulates olfactory responses, we examined the nutritionally-dependent, tyraminergic inhibition of aversive behavior mediated by the two nociceptive ASH sensory neurons in C. elegans. Tyramine (TA) and octopamine (OA) activate adrenergic-like signaling in invertebrates and are released during starvation. TA is released both synaptically and humorally and abolishes the food or 5-HT stimulation of ASH-mediated aversive responses through the Gαq-coupled TA receptor, TYRA-3. TA and TYRA-3 stimulate the release of a complex mix of “inhibitory” monoamines, including OA and dopamine (DA), and neuropeptides from an array of additional neurons. For example, TYRA-3 stimulates the release of neuropeptides encoded by nlp- 1, nlp-14 and nlp-18 from axons of the two ASI sensory neurons and both Gαq and Gαs signaling in the ASIs are required for TA inhibition. The ASI neuropeptides required for TA inhibition are distinct from the ASI neuropeptides required for OA inhibition, suggesting that individual monoamines can stimulate the release of distinct subsets of ASI neuropeptides. The ASI neuropeptides activate receptors on downstream post-synaptic partners of the ASIs located throughout the sensory-mediated locomotory circuit. For example, neuropeptides encoded by nlp-1 activate NPR-11 on the AIA and AIY interneurons and neuropeptides encoded by nlp-14 activate NPR-10 on the ADL and ASK sensory neurons, suggesting that ASI peptidergic signaling is largely synaptic (or perisynaptic), in contrast to tyraminergic signaling that appears to be humoral. Together, these studies highlight the complexity of TA inhibition, with TA activating widespread global signaling cascades, and suggest that signaling from a complex “humoral soup” of monoamines is amplified and focused by the more localized synaptic (perisynaptic) release of neuropeptides to define nutritional state in the modulation of a wide variety of behaviors, including sensory-mediated locomotory decision-making. On a more general level, these studies emphasize the potential for neuropeptides to focus the more widespread monoaminergic activation involved in resetting complex neuronal circuits in all organisms.

Published
2013

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