FMRFamide regulates oscillatory activity of the olfactory center in the slug

In the olfactory center of terrestrial animals, changes in the oscillatory frequency of the local field potential (LFP) are thought to be involved in olfaction‐based behavior and olfactory memory. The terrestrial slug Limax has a highly developed olfactory center, the procerebrum, in which the LFP s...

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Published inThe European journal of neuroscience Vol. 32; no. 7; pp. 1180 - 1192
Main Authors Kobayashi, Suguru, Hattori, Mariko, Elekes, Károly, Ito, Etsuro, Matsuo, Ryota
Format Journal Article
LanguageEnglish
Published Oxford, UK Blackwell Publishing Ltd 01.10.2010
Subjects
Amputation
Analysis of Variance
Animals
Biological Clocks - drug effects
Biological Clocks - genetics
Biological Clocks - physiology
Cells, Cultured
DNA, Recombinant - genetics
Dose-Response Relationship, Drug
Enzyme Inhibitors - pharmacology
FMRFamide
FMRFamide - genetics
FMRFamide - metabolism
FMRFamide - pharmacology
Ganglia, Invertebrate
Gastropoda - anatomy & histology
Membrane Potentials - drug effects
Membrane Potentials - physiology
Membrane Transport Modulators - metabolism
Membrane Transport Modulators - pharmacology
mollusk
Neurons - physiology
olfaction
Olfactory Pathways - cytology
Olfactory Pathways - drug effects
oscillation
Patch-Clamp Techniques - methods
procerebrum
Serotonin - metabolism
Serotonin - pharmacology
Smell - drug effects
Smell - physiology
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Abstract In the olfactory center of terrestrial animals, changes in the oscillatory frequency of the local field potential (LFP) are thought to be involved in olfaction‐based behavior and olfactory memory. The terrestrial slug Limax has a highly developed olfactory center, the procerebrum, in which the LFP spontaneously oscillates. Although changes in the oscillatory frequency are thought to correspond to the preference for specific odors, our knowledge about the mechanism of this frequency regulation is limited. To clarify the mechanism of the bidirectional frequency changes in the procerebrum, we focused on the neuropeptide Phe‐Met‐Arg‐Phe‐NH2 (FMRFamide), which is known to have neuromodulatory functions in invertebrate nervous systems. Application of FMRFamide decreased the oscillatory frequency via G‐protein‐mediated cascades. Immunohistochemistry showed that FMRFamide‐like‐immunoreactive neuronal cell bodies are located in the cell mass layer of the procerebrum, projecting their neurites to the neuropile layers. The procerebrum was shown to also receive innervation from other regions of the cerebral ganglion. Furthermore, according to their morphological and projection characteristics, FMRFamide‐containing neurons belong to the subpopulations of both bursting and nonbursting neurons in the procerebrum. The mRNA splice variant encoding multiple copies of canonical FMRFamide was specifically expressed in the procerebrum. Taking into account previous results showing that serotonin increases the oscillatory frequency, our results indicate that FMRFamide and serotonin both regulate the LFP frequency but in exactly the opposite direction in the olfactory center of the terrestrial slug.
AbstractList In the olfactory center of terrestrial animals, changes in the oscillatory frequency of the local field potential (LFP) are thought to be involved in olfaction-based behavior and olfactory memory. The terrestrial slug Limax has a highly developed olfactory center, the procerebrum, in which the LFP spontaneously oscillates. Although changes in the oscillatory frequency are thought to correspond to the preference for specific odors, our knowledge about the mechanism of this frequency regulation is limited. To clarify the mechanism of the bidirectional frequency changes in the procerebrum, we focused on the neuropeptide Phe-Met-Arg-Phe-NH₂ (FMRFamide), which is known to have neuromodulatory functions in invertebrate nervous systems. Application of FMRFamide decreased the oscillatory frequency via G-protein-mediated cascades. Immunohistochemistry showed that FMRFamide-like-immunoreactive neuronal cell bodies are located in the cell mass layer of the procerebrum, projecting their neurites to the neuropile layers. The procerebrum was shown to also receive innervation from other regions of the cerebral ganglion. Furthermore, according to their morphological and projection characteristics, FMRFamide-containing neurons belong to the subpopulations of both bursting and nonbursting neurons in the procerebrum. The mRNA splice variant encoding multiple copies of canonical FMRFamide was specifically expressed in the procerebrum. Taking into account previous results showing that serotonin increases the oscillatory frequency, our results indicate that FMRFamide and serotonin both regulate the LFP frequency but in exactly the opposite direction in the olfactory center of the terrestrial slug.
In the olfactory center of terrestrial animals, changes in the oscillatory frequency of the local field potential (LFP) are thought to be involved in olfaction‐based behavior and olfactory memory. The terrestrial slug Limax has a highly developed olfactory center, the procerebrum, in which the LFP spontaneously oscillates. Although changes in the oscillatory frequency are thought to correspond to the preference for specific odors, our knowledge about the mechanism of this frequency regulation is limited. To clarify the mechanism of the bidirectional frequency changes in the procerebrum, we focused on the neuropeptide Phe‐Met‐Arg‐Phe‐NH2 (FMRFamide), which is known to have neuromodulatory functions in invertebrate nervous systems. Application of FMRFamide decreased the oscillatory frequency via G‐protein‐mediated cascades. Immunohistochemistry showed that FMRFamide‐like‐immunoreactive neuronal cell bodies are located in the cell mass layer of the procerebrum, projecting their neurites to the neuropile layers. The procerebrum was shown to also receive innervation from other regions of the cerebral ganglion. Furthermore, according to their morphological and projection characteristics, FMRFamide‐containing neurons belong to the subpopulations of both bursting and nonbursting neurons in the procerebrum. The mRNA splice variant encoding multiple copies of canonical FMRFamide was specifically expressed in the procerebrum. Taking into account previous results showing that serotonin increases the oscillatory frequency, our results indicate that FMRFamide and serotonin both regulate the LFP frequency but in exactly the opposite direction in the olfactory center of the terrestrial slug.
Abstract In the olfactory center of terrestrial animals, changes in the oscillatory frequency of the local field potential (LFP) are thought to be involved in olfaction‐based behavior and olfactory memory. The terrestrial slug Limax has a highly developed olfactory center, the procerebrum, in which the LFP spontaneously oscillates. Although changes in the oscillatory frequency are thought to correspond to the preference for specific odors, our knowledge about the mechanism of this frequency regulation is limited. To clarify the mechanism of the bidirectional frequency changes in the procerebrum, we focused on the neuropeptide Phe‐Met‐Arg‐Phe‐NH 2 (FMRFamide), which is known to have neuromodulatory functions in invertebrate nervous systems. Application of FMRFamide decreased the oscillatory frequency via G‐protein‐mediated cascades. Immunohistochemistry showed that FMRFamide‐like‐immunoreactive neuronal cell bodies are located in the cell mass layer of the procerebrum, projecting their neurites to the neuropile layers. The procerebrum was shown to also receive innervation from other regions of the cerebral ganglion. Furthermore, according to their morphological and projection characteristics, FMRFamide‐containing neurons belong to the subpopulations of both bursting and nonbursting neurons in the procerebrum. The mRNA splice variant encoding multiple copies of canonical FMRFamide was specifically expressed in the procerebrum. Taking into account previous results showing that serotonin increases the oscillatory frequency, our results indicate that FMRFamide and serotonin both regulate the LFP frequency but in exactly the opposite direction in the olfactory center of the terrestrial slug.
Author Hattori, Mariko
Ito, Etsuro
Kobayashi, Suguru
Elekes, Károly
Matsuo, Ryota
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  surname: Kobayashi
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  surname: Ito
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  organization: Laboratory of Functional Biology, Kagawa School of Pharmaceutical Sciences, Tokushima Bunri University, 1314-1 Shido, Sanuki, Kagawa 769-2193, Japan
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  givenname: Ryota
  surname: Matsuo
  fullname: Matsuo, Ryota
  organization: Laboratory of Functional Biology, Kagawa School of Pharmaceutical Sciences, Tokushima Bunri University, 1314-1 Shido, Sanuki, Kagawa 769-2193, Japan
BackLink https://www.ncbi.nlm.nih.gov/pubmed/20796020$$D View this record in MEDLINE/PubMed
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1990; 345
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1997; 110
2002; 111
2005; 21
1995; 378
1998; 112
1990; 262
2005; 22
2001; 85
1983; 304
1992; 9
1990; 416
2003; 90
1999; 19
2006; 66
1989; 342
2010; 1326
1988; 333
1988; 253
1998a; 4
1988; 85
1994; 72
1998; 201
2001; 896
1992; 3
2010a; 93
1997; 777
2006; 95
1987; 325
2000; 25
2006; 13
2004; 89
1987; 328
2008; 59
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1999; 184
1998b; 4
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2010b; 5
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2006; 84
1988; 9
1925; 6
2007; 192
1997; 78
1965
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2009; 386
2010c
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1994; 16
1971; 112
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2008; 211
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2003; 23
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Snippet In the olfactory center of terrestrial animals, changes in the oscillatory frequency of the local field potential (LFP) are thought to be involved in...
Abstract In the olfactory center of terrestrial animals, changes in the oscillatory frequency of the local field potential (LFP) are thought to be involved in...
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SubjectTerms Amputation
Analysis of Variance
Animals
Biological Clocks - drug effects
Biological Clocks - genetics
Biological Clocks - physiology
Cells, Cultured
DNA, Recombinant - genetics
Dose-Response Relationship, Drug
Enzyme Inhibitors - pharmacology
FMRFamide
FMRFamide - genetics
FMRFamide - metabolism
FMRFamide - pharmacology
Ganglia, Invertebrate
Gastropoda - anatomy & histology
Membrane Potentials - drug effects
Membrane Potentials - physiology
Membrane Transport Modulators - metabolism
Membrane Transport Modulators - pharmacology
mollusk
Neurons - physiology
olfaction
Olfactory Pathways - cytology
Olfactory Pathways - drug effects
oscillation
Patch-Clamp Techniques - methods
procerebrum
Serotonin - metabolism
Serotonin - pharmacology
Smell - drug effects
Smell - physiology
Title FMRFamide regulates oscillatory activity of the olfactory center in the slug
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Volume 32
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