3,5-T2 and 3,3′,5-T3 Regulate Cerebellar Thyroid Hormone Signalling and Myelin Molecular Dynamics in Tilapia

In contrast to mammalian adults, myelination in teleosts occurs throughout their lifespan and most of the progenitor cells are originated in the cerebellum. To understand the role that thyroid hormones (THs) play in juvenile cerebellar myelination in teleosts, we identified and localised the express...

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Veröffentlicht in:	Scientific reports 2019-05, Vol.9 (1), p.7359-7359, Article 7359
Hauptverfasser:	Hernández-Linares, Y., Olvera, A., Villalobos, P., Lozano-Flores, C., Varela-Echavarría, A., Luna, M., Orozco, A.
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Sprache:	eng
Schlagworte:	13/1 13/106 14/19 14/32 38/77 38/90 38/91 631/136 631/337 631/378 Animals Cell Culture Techniques - methods Cerebellum Cerebellum - growth & development Cerebellum - metabolism Cichlids - growth & development Cichlids - metabolism Diiodothyronines - metabolism Fibers Gene Expression Regulation - physiology Gene regulation Hormones Humanities and Social Sciences Immunofluorescence Life span Male Models, Animal multidisciplinary Myelin Sheath - metabolism Myelination Progenitor cells Science Science (multidisciplinary) Signal transduction Signal Transduction - physiology Stem cells Thyroid Thyroid gland Thyroid Gland - metabolism Thyroid hormones Triiodothyronine Triiodothyronine - metabolism
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description	In contrast to mammalian adults, myelination in teleosts occurs throughout their lifespan and most of the progenitor cells are originated in the cerebellum. To understand the role that thyroid hormones (THs) play in juvenile cerebellar myelination in teleosts, we identified and localised the expression of genes involved in TH signalling (mct8, oatp1c1, dio2, dio3, thraa and l-thrb1) and analysed the effects of the two bioactive THs, T2 and T3, upon their regulation, as well as upon some structural components of the myelination process. Ex vivo approaches using organotypic cerebellar cultures followed by FISH and qPCR showed gene-specific localisation and regulation of TH signalling genes in the cerebellar nuclei. In vivo approaches using methimazole (MMI)-treated juvenile tilapias replaced with low doses of T3 and T2 showed by immunofluorescence that myelin fibres in the cerebellum are more abundant in the granular layer and that their visible size is reduced after MMI treatment but partially restored with TH replacement, suggesting that low doses of TH promote the re-myelination process in an altered condition. Together, our data support the idea that T2 and T3 promote myelination via different pathways and prompt T2 as a target for further analysis as a promising therapy for hypomyelination.
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To understand the role that thyroid hormones (THs) play in juvenile cerebellar myelination in teleosts, we identified and localised the expression of genes involved in TH signalling (mct8, oatp1c1, dio2, dio3, thraa and l-thrb1) and analysed the effects of the two bioactive THs, T2 and T3, upon their regulation, as well as upon some structural components of the myelination process. Ex vivo approaches using organotypic cerebellar cultures followed by FISH and qPCR showed gene-specific localisation and regulation of TH signalling genes in the cerebellar nuclei. In vivo approaches using methimazole (MMI)-treated juvenile tilapias replaced with low doses of T3 and T2 showed by immunofluorescence that myelin fibres in the cerebellum are more abundant in the granular layer and that their visible size is reduced after MMI treatment but partially restored with TH replacement, suggesting that low doses of TH promote the re-myelination process in an altered condition. 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Academic</collection><collection>PubMed Central (Full Participant titles)</collection><jtitle>Scientific reports</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Hernández-Linares, Y.</au><au>Olvera, A.</au><au>Villalobos, P.</au><au>Lozano-Flores, C.</au><au>Varela-Echavarría, A.</au><au>Luna, M.</au><au>Orozco, A.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>3,5-T2 and 3,3′,5-T3 Regulate Cerebellar Thyroid Hormone Signalling and Myelin Molecular Dynamics in Tilapia</atitle><jtitle>Scientific reports</jtitle><stitle>Sci Rep</stitle><addtitle>Sci Rep</addtitle><date>2019-05-14</date><risdate>2019</risdate><volume>9</volume><issue>1</issue><spage>7359</spage><epage>7359</epage><pages>7359-7359</pages><artnum>7359</artnum><issn>2045-2322</issn><eissn>2045-2322</eissn><abstract>In contrast to mammalian adults, myelination in teleosts occurs throughout their lifespan and most of the progenitor cells are originated in the cerebellum. To understand the role that thyroid hormones (THs) play in juvenile cerebellar myelination in teleosts, we identified and localised the expression of genes involved in TH signalling (mct8, oatp1c1, dio2, dio3, thraa and l-thrb1) and analysed the effects of the two bioactive THs, T2 and T3, upon their regulation, as well as upon some structural components of the myelination process. Ex vivo approaches using organotypic cerebellar cultures followed by FISH and qPCR showed gene-specific localisation and regulation of TH signalling genes in the cerebellar nuclei. In vivo approaches using methimazole (MMI)-treated juvenile tilapias replaced with low doses of T3 and T2 showed by immunofluorescence that myelin fibres in the cerebellum are more abundant in the granular layer and that their visible size is reduced after MMI treatment but partially restored with TH replacement, suggesting that low doses of TH promote the re-myelination process in an altered condition. Together, our data support the idea that T2 and T3 promote myelination via different pathways and prompt T2 as a target for further analysis as a promising therapy for hypomyelination.</abstract><cop>London</cop><pub>Nature Publishing Group UK</pub><pmid>31089165</pmid><doi>10.1038/s41598-019-43701-w</doi><tpages>1</tpages><orcidid>https://orcid.org/0000-0001-8719-4511</orcidid><oa>free_for_read</oa></addata></record>
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subjects	13/1 13/106 14/19 14/32 38/77 38/90 38/91 631/136 631/337 631/378 Animals Cell Culture Techniques - methods Cerebellum Cerebellum - growth & development Cerebellum - metabolism Cichlids - growth & development Cichlids - metabolism Diiodothyronines - metabolism Fibers Gene Expression Regulation - physiology Gene regulation Hormones Humanities and Social Sciences Immunofluorescence Life span Male Models, Animal multidisciplinary Myelin Sheath - metabolism Myelination Progenitor cells Science Science (multidisciplinary) Signal transduction Signal Transduction - physiology Stem cells Thyroid Thyroid gland Thyroid Gland - metabolism Thyroid hormones Triiodothyronine Triiodothyronine - metabolism
title	3,5-T2 and 3,3′,5-T3 Regulate Cerebellar Thyroid Hormone Signalling and Myelin Molecular Dynamics in Tilapia
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