Cloning and Expression of a Complementary DNA Encoding a Molluscan Octopamine Receptor That Couples to Chloride Channels in HEK293 Cells

Gerhardt, C.C.; Lodder, Hans C.; Vincent, Maxence S.; Bakker, Remko A.; Planta, Rudi J.; Vreugdenhil, Erno; Kits, Karel S.; Heerikhuizen, Harm van

doi:10.1074/jbc.272.10.6201

Cited by 48 publications

(35 citation statements)

References 26 publications

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“…These include activation and inhibition of adenylate cyclase, leading to an increase or decrease in cAMP, and activation of an inositol phosphate pathway, leading to increase in intracellular Ca 2ϩ (for review, see Roeder, 1999). Some receptors also activate Cl Ϫ channels (Gerhardt et al, 1997b). Here, we investigated the most common of these pathways, activation of adenylate cyclase leading to increased cAMP concentration.…”

Section: Second-messenger Pathway Of the Spider Octopamine Receptormentioning

confidence: 99%

Spider Peripheral Mechanosensory Neurons Are Directly Innervated and Modulated by Octopaminergic Efferents

Widmer

Höger²,

Meisner³

et al. 2005

J. Neurosci.

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Octopamine is a chemical relative of noradrenaline providing analogous neurohumoral control of diverse invertebrate physiological processes. There is also evidence for direct octopaminergic innervation of some insect peripheral tissues. Here, we show that spider peripheral mechanoreceptors are innervated by octopamine-containing efferents. The mechanosensory neurons have octopamine receptors colocalized with synapsin labeling in the efferent fibers. In addition, octopamine enhances the electrical response of the sensory neurons to mechanical stimulation.Spider peripheral mechanosensilla receive extensive efferent innervation. Many efferent fibers in the legs of Cupiennius salei are GABAergic, providing inhibitory control of sensory neurons, but there is also evidence for other neurotransmitters. We used antibody labeling to show that some efferents contain octopamine and that octopamine receptors are concentrated on the axon hillocks and proximal soma regions of all mechanosensory neurons in the spider leg. Synaptic vesicles in efferent neurons were concentrated in similar areas.Octopamine, or its precursor tyramine, increased responses of mechanically stimulated filiform (trichobothria) leg hairs. This effect was blocked by the octopamine antagonist phentolamine. The octopamine-induced modulation was mimicked by 8-Br-cAMP, a cAMP analog, and blocked by Rp-cAMPS, a protein kinase A inhibitor, indicating that spider octopamine receptors activate adenylate cyclase and increase cAMP concentration.Frequency response analysis showed that octopamine increased the sensitivity of the trichobothria neurons over a broad frequency range. Thus, the major effect of octopamine is to increase its overall sensitivity to wind-borne signals from sources such as flying insect prey or predators.

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Section: Second-messenger Pathway Of the Spider Octopamine Receptormentioning

confidence: 99%

Spider Peripheral Mechanosensory Neurons Are Directly Innervated and Modulated by Octopaminergic Efferents

Widmer

Höger²,

Meisner³

et al. 2005

J. Neurosci.

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“…Cloning studies have identified three molluscan G protein-coupled OA receptors (Gerhardt et al, 1997a;Gerhardt et al, 1997b;Chang et al, 2000). These receptors are coupled to distinct second messenger systems and are activated over broadly ranging OA concentrations.…”

Section: Actions Of Oa On the Buccal Ganglionmentioning

confidence: 99%

“…One OA receptor that is expressed in the Aplysia CNS (designated Ap oa 1 ) had an EC 50 of 30 nmol l -1 for production of cAMP (Chang et al, 2000). By contrast, the activation of second messenger systems by two Lymnaea OA receptors (Lym oa 1 and Lym oa 2 ) required micromolar or higher agonist concentrations (Gerhardt et al, 1997a;Gerhardt et al, 1997b). It is likely, therefore, that the network effects observed at high (mmol l -1 ) OA concentrations and the cellular effects observed with lower (mmol l -1 ) doses in this study both reflect the activation of multiple receptor types and second messenger cascades.…”

Section: Actions Of Oa On the Buccal Ganglionmentioning

confidence: 99%

Octopamine promotes rhythmicity but not synchrony in a bilateral pair of bursting motor neurons in the feeding circuit of Aplysia

Martinez-Rubio

Serrano

2010

Journal of Experimental Biology

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) modulatory actions on the spontaneous burst activity of the bilaterally paired B67 pharyngeal motor neurons (MNs). OA increased B67's burst duration and the number of impulses per burst. These effects reflected actions of OA on the intrinsic tetrodotoxin-resistant driver potential (DP) that underlies B67 bursting. In addition to its effects on B67's burst parameters, OA also increased the rate and regularity of burst timing. Although the bilaterally paired B67 MNs both exhibited rhythmic bursting in the presence of OA, they did not become synchronized. In this respect, the response to OA differed from that of dopamine, another modulator of the feeding motor network, which produces both rhythmicity and synchrony of bursting in the paired B67 neurons. It is proposed that modulators can regulate burst synchrony of MNs by exerting a dual control over their intrinsic rhythmicity and their reciprocal capacity to generate membrane potential perturbations. In this simple system, dopaminergic and octopaminergic modulation could influence whether pharyngeal contractions occur in a bilaterally synchronous or asynchronous fashion.

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“…Clearly, TA and OA signaling is complex and is mediated by at least 5 different G-protein coupled receptors expressed at different levels throughout the nervous system [1,6,9,35,36]. Based on studies in insects and C. elegans, TA receptors generally appear to couple to an inhibition of adenyl cyclase activity through Gα o and OA receptors to a stimulation of adenyl cyclase activity, presumably through Gα s , although few studies demonstrating direct G-protein coupling are available [1,22,27,37]. Most importantly, OA receptors have been useful targets for pesticide development and, presumably, TA and OA receptors, might serve a similar role in parasitic nematodes.…”

Section: Discussionmentioning

confidence: 99%

“…The G-protein coupling of 18 of the 34 receptors is known or strongly suggested through experimentation [18][19][20][21][22][23][24][25][26][27][28][29][30][31][32]. An unrooted phylogenetic tree of annotated TA/OA receptors using maximal parsimony was compiled using PAUP (Figure 2).…”

Section: Cloning and Sequence Analysis Of Bm4mentioning

confidence: 99%

Are Caenorhabditis elegans receptors useful targets for drug discovery: Pharmacological comparison of tyramine receptors with high identity from C. elegans (TYRA-2) and Brugia malayi (Bm4)

Smith

Rex

Komuniecki

2007

Molecular and Biochemical Parasitology

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The biogenic amine, tyramine (TA), modulates a number of key processes in nematodes and a number of TA-specific receptors have been identified. In the present study we have identified a putative TA receptor (Bm4) in the recently completed Brugia malayi genome and compared its pharmacology to its putative C. elegans orthologue, TYRA-2, under identical expression and assay conditions. TYRA-2 and Bm4 are the most closely related C. elegans and B. malayi BA receptors and differ by only 14 aa in the TM regions directly involved in ligand binding. Membranes from HEK-293 cells stably expressing Bm4 exhibited specific, saturable, high-affinity, [ 3 H]LSD and [ 3 H]TA binding with K d s of 18.1 ± 0.93 nM and 15.1 ± 0.2 nM, respectively. More importantly, both TYRA-2 and Bm4 TA exhibited similar rank orders of potencies for a number of potential tyraminergic ligands. However, some significant differences were noted. For example, chloropromazine exhibited an order of magnitude higher affinity for Bm4 than TYRA-2 (pK i s of 7.6 ± 0.2 and 6.49 ± 0.1, respectively). In contrast, TYRA-2 had significantly higher affinity for phentolamine than Bm4. These results highlight the utility of the nearly completed B. malayi genome and the importance of using receptors from individual parasitic nematodes for drug discovery.

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Cloning and Expression of a Complementary DNA Encoding a Molluscan Octopamine Receptor That Couples to Chloride Channels in HEK293 Cells

Cited by 48 publications

References 26 publications

Spider Peripheral Mechanosensory Neurons Are Directly Innervated and Modulated by Octopaminergic Efferents

Spider Peripheral Mechanosensory Neurons Are Directly Innervated and Modulated by Octopaminergic Efferents

Octopamine promotes rhythmicity but not synchrony in a bilateral pair of bursting motor neurons in the feeding circuit of Aplysia

Are Caenorhabditis elegans receptors useful targets for drug discovery: Pharmacological comparison of tyramine receptors with high identity from C. elegans (TYRA-2) and Brugia malayi (Bm4)

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