Differential expression of five prosomatostatin genes in the central nervous system of the catshark Scyliorhinus canicula

Differential expression of five prosomatostatin genes in the central nervous system of the catshark Scyliorhinus canicula

Five prosomatostatin genes (PSST1, PSST2, PSST3, PSST5, and PSST6) have been recently identified in elasmobranchs (Tostivint et al., General and Comparative Endocrinology, 2019, 279, 139–147). In order to gain insight into the contribution of each somatostatin to specific nervous systems circuits an...

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Veröffentlicht in:Journal of comparative neurology (1911) 2020-10, Vol.528 (14), p.2333-2360
Hauptverfasser: Sobrido‐Cameán, Daniel, Tostivint, Hervé, Mazan, Sylvie, Rodicio, María Celina, Rodríguez‐Moldes, Isabel, Candal, Eva, Anadón, Ramón, Barreiro‐Iglesias, Antón
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brain
Central nervous system
Cerebrospinal fluid
Diencephalon
differential gene expression
elasmobranchs
Endocrinology
Hindbrain
Hybridization
Hydroxylase
Hypothalamus
Immunoreactivity
Life Sciences
Mesencephalon
Nervous system
Neurons
Neurons and Cognition
Pallium
Scyliorhinus canicula
shark
Somatostatin
somatostatin precursors
Spinal cord
Superior colliculus
Tectum
Tegmentum
Tyrosine 3-monooxygenase
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container_end_page 2360
container_issue 14
container_start_page 2333
container_title Journal of comparative neurology (1911)
container_volume 528
creator Sobrido‐Cameán, Daniel
Tostivint, Hervé
Mazan, Sylvie
Rodicio, María Celina
Rodríguez‐Moldes, Isabel
Candal, Eva
Anadón, Ramón
Barreiro‐Iglesias, Antón
description Five prosomatostatin genes (PSST1, PSST2, PSST3, PSST5, and PSST6) have been recently identified in elasmobranchs (Tostivint et al., General and Comparative Endocrinology, 2019, 279, 139–147). In order to gain insight into the contribution of each somatostatin to specific nervous systems circuits and behaviors in this important jawed vertebrate group, we studied the distribution of neurons expressing PSST mRNAs in the central nervous system (CNS) of Scyliorhinus canicula using in situ hybridization. Additionally, we combined in situ hybridization with tyrosine hydroxylase (TH) immunochemistry for better characterization of PSST1 and PSST6 expressing populations. We observed differential expression of PSST1 and PSST6, which are the most widely expressed PSST transcripts, in cell populations of many CNS regions, including the pallium, subpallium, hypothalamus, diencephalon, optic tectum, midbrain tegmentum, and rhombencephalon. Interestingly, numerous small pallial neurons express PSST1 and PSST6, although in different populations judging from the colocalization of TH immunoreactivity and PSST6 expression but not with PSST1. We observed expression of PSST1 in cerebrospinal fluid‐contacting (CSF‐c) neurons of the hypothalamic paraventricular organ and the central canal of the spinal cord. Unlike PSST1 and PSST6, PSST2, and PSST3 are only expressed in cells of the hypothalamus and in some hindbrain lateral reticular neurons, and PSST5 in cells of the region of the entopeduncular nucleus. Comparative data of brain expression of PSST genes indicate that the somatostatinergic system of sharks is the most complex reported in any fish. We studied the distribution of neurons expressing the five prosomatostatins (PSSTs) transcripts in the brain of the catshark using in situ hybridization. Differential expression of PSST1 and PSST6 was observed in cell populations of many brain regions, including the pallium. Combination of in situ hybridization with tyrosine hydroxylase (TH) immunochemistry showed wide colocalization in PSST6 cells of the pallium, but not in most other brain regions. PSST1 cells do not TH coexpression in pallial cells, indicating that they represent different populations.
doi_str_mv 10.1002/cne.24898
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In order to gain insight into the contribution of each somatostatin to specific nervous systems circuits and behaviors in this important jawed vertebrate group, we studied the distribution of neurons expressing PSST mRNAs in the central nervous system (CNS) of Scyliorhinus canicula using in situ hybridization. Additionally, we combined in situ hybridization with tyrosine hydroxylase (TH) immunochemistry for better characterization of PSST1 and PSST6 expressing populations. We observed differential expression of PSST1 and PSST6, which are the most widely expressed PSST transcripts, in cell populations of many CNS regions, including the pallium, subpallium, hypothalamus, diencephalon, optic tectum, midbrain tegmentum, and rhombencephalon. Interestingly, numerous small pallial neurons express PSST1 and PSST6, although in different populations judging from the colocalization of TH immunoreactivity and PSST6 expression but not with PSST1. We observed expression of PSST1 in cerebrospinal fluid‐contacting (CSF‐c) neurons of the hypothalamic paraventricular organ and the central canal of the spinal cord. Unlike PSST1 and PSST6, PSST2, and PSST3 are only expressed in cells of the hypothalamus and in some hindbrain lateral reticular neurons, and PSST5 in cells of the region of the entopeduncular nucleus. Comparative data of brain expression of PSST genes indicate that the somatostatinergic system of sharks is the most complex reported in any fish. We studied the distribution of neurons expressing the five prosomatostatins (PSSTs) transcripts in the brain of the catshark using in situ hybridization. Differential expression of PSST1 and PSST6 was observed in cell populations of many brain regions, including the pallium. Combination of in situ hybridization with tyrosine hydroxylase (TH) immunochemistry showed wide colocalization in PSST6 cells of the pallium, but not in most other brain regions. 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In order to gain insight into the contribution of each somatostatin to specific nervous systems circuits and behaviors in this important jawed vertebrate group, we studied the distribution of neurons expressing PSST mRNAs in the central nervous system (CNS) of Scyliorhinus canicula using in situ hybridization. Additionally, we combined in situ hybridization with tyrosine hydroxylase (TH) immunochemistry for better characterization of PSST1 and PSST6 expressing populations. We observed differential expression of PSST1 and PSST6, which are the most widely expressed PSST transcripts, in cell populations of many CNS regions, including the pallium, subpallium, hypothalamus, diencephalon, optic tectum, midbrain tegmentum, and rhombencephalon. Interestingly, numerous small pallial neurons express PSST1 and PSST6, although in different populations judging from the colocalization of TH immunoreactivity and PSST6 expression but not with PSST1. We observed expression of PSST1 in cerebrospinal fluid‐contacting (CSF‐c) neurons of the hypothalamic paraventricular organ and the central canal of the spinal cord. Unlike PSST1 and PSST6, PSST2, and PSST3 are only expressed in cells of the hypothalamus and in some hindbrain lateral reticular neurons, and PSST5 in cells of the region of the entopeduncular nucleus. Comparative data of brain expression of PSST genes indicate that the somatostatinergic system of sharks is the most complex reported in any fish. We studied the distribution of neurons expressing the five prosomatostatins (PSSTs) transcripts in the brain of the catshark using in situ hybridization. Differential expression of PSST1 and PSST6 was observed in cell populations of many brain regions, including the pallium. Combination of in situ hybridization with tyrosine hydroxylase (TH) immunochemistry showed wide colocalization in PSST6 cells of the pallium, but not in most other brain regions. 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In order to gain insight into the contribution of each somatostatin to specific nervous systems circuits and behaviors in this important jawed vertebrate group, we studied the distribution of neurons expressing PSST mRNAs in the central nervous system (CNS) of Scyliorhinus canicula using in situ hybridization. Additionally, we combined in situ hybridization with tyrosine hydroxylase (TH) immunochemistry for better characterization of PSST1 and PSST6 expressing populations. We observed differential expression of PSST1 and PSST6, which are the most widely expressed PSST transcripts, in cell populations of many CNS regions, including the pallium, subpallium, hypothalamus, diencephalon, optic tectum, midbrain tegmentum, and rhombencephalon. Interestingly, numerous small pallial neurons express PSST1 and PSST6, although in different populations judging from the colocalization of TH immunoreactivity and PSST6 expression but not with PSST1. We observed expression of PSST1 in cerebrospinal fluid‐contacting (CSF‐c) neurons of the hypothalamic paraventricular organ and the central canal of the spinal cord. Unlike PSST1 and PSST6, PSST2, and PSST3 are only expressed in cells of the hypothalamus and in some hindbrain lateral reticular neurons, and PSST5 in cells of the region of the entopeduncular nucleus. Comparative data of brain expression of PSST genes indicate that the somatostatinergic system of sharks is the most complex reported in any fish. We studied the distribution of neurons expressing the five prosomatostatins (PSSTs) transcripts in the brain of the catshark using in situ hybridization. Differential expression of PSST1 and PSST6 was observed in cell populations of many brain regions, including the pallium. Combination of in situ hybridization with tyrosine hydroxylase (TH) immunochemistry showed wide colocalization in PSST6 cells of the pallium, but not in most other brain regions. 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subjects brain
Central nervous system
Cerebrospinal fluid
Diencephalon
differential gene expression
elasmobranchs
Endocrinology
Hindbrain
Hybridization
Hydroxylase
Hypothalamus
Immunoreactivity
Life Sciences
Mesencephalon
Nervous system
Neurons
Neurons and Cognition
Pallium
Scyliorhinus canicula
shark
Somatostatin
somatostatin precursors
Spinal cord
Superior colliculus
Tectum
Tegmentum
Tyrosine 3-monooxygenase
title Differential expression of five prosomatostatin genes in the central nervous system of the catshark Scyliorhinus canicula
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