Importance of monocarboxylate transporter 8 for the blood-brain barrier-dependent availability of 3,5,3'-triiodo-L-thyronine.
about
Scope and limitations of iodothyronine deiodinases in hypothyroidismBlood brain barrier: a challenge for effectual therapy of brain tumorsAn evo-devo approach to thyroid hormones in cerebral and cerebellar cortical development: etiological implications for autismThyroid hormones are associated with longitudinal cognitive change in an urban adult population.Cerebral cortex hyperthyroidism of newborn mct8-deficient mice transiently suppressed by lat2 inactivation.In vitro and mouse studies supporting therapeutic utility of triiodothyroacetic acid in MCT8 deficiencyMaternal thyroid hormones are essential for neural development in zebrafish.Minireview: thyroid hormone transporters: the knowns and the unknowns.Thyroid hormone-regulated mouse cerebral cortex genes are differentially dependent on the source of the hormone: a study in monocarboxylate transporter-8- and deiodinase-2-deficient mice.Mice deficient in MCT8 reveal a mechanism regulating thyroid hormone secretion.In vivo activity of the thyroid hormone receptor beta- and α-selective agonists GC-24 and CO23 on rat liver, heart, and brain.Hypothyroidism and brain developmental players.Parallel regulation of thyroid hormone transporters OATP1c1 and MCT8 during and after endotoxemia at the blood-brain barrier of male rodents.Choroid plexus transport: gene deletion studies.Endotoxin-induced inflammation down-regulates L-type amino acid transporter 1 (LAT1) expression at the blood-brain barrier of male rats and mice.Histological characterization of orphan transporter MCT14 (SLC16A14) shows abundant expression in mouse CNS and kidney.Longitudinal comparison of thyroxine pharmacokinetics between pregnant and nonpregnant women: a stable isotope study.Maternal thyroid hormones are transcriptionally active during embryo-foetal development: results from a novel transgenic mouse model.A thyroid hormone analog with reduced dependence on the monocarboxylate transporter 8 for tissue transport.Pharmacological treatment and BBB-targeted genetic therapy for MCT8-dependent hypomyelination in zebrafish.MCT8 expression in human fetal cerebral cortex is reduced in severe intrauterine growth restriction.Thyroid hormone and seasonal rhythmicity.Thyroid hormones, t3 and t4, in the brain.Transporters MCT8 and OATP1C1 maintain murine brain thyroid hormone homeostasisThyroid hormone action: astrocyte-neuron communication.Thyroid hormone and the neuroglia: both source and target.Thyroid hormone transporters--functions and clinical implications.The role of tanycytes in hypothalamic glucosensing.Role of the Thyroid System in Myelination and Neural Connectivity.Thyroid Hormone Economy in the Perinatal Mouse Brain: Implications for Cerebral Cortex Development.Hypomyelinating leukodystrophies - a molecular insight into the white matter pathology.Blood-brain barrier transport machineries and targeted therapy of brain diseases.Defects of Thyroid Hormone Synthesis and Action.The expression of thyroid hormone transporters in the human fetal cerebral cortex during early development and in N-Tera-2 neurodifferentiation.Expression pattern of thyroid hormone transporters in the postnatal mouse brain.Age-Dependent Changes of Monocarboxylate Transporter 8 Availability in the Postnatal Murine Retina.Thyroid Hormone Availability and Action during Brain Development in Rodents.Transcriptional profiling of fibroblasts from patients with mutations in MCT8 and comparative analysis with the human brain transcriptome.Understanding the hypothalamus-pituitary-thyroid axis in mct8 deficiency.MCT8 Deficiency in Male Mice Mitigates the Phenotypic Abnormalities Associated With the Absence of a Functional Type 3 Deiodinase
P2860
Q26785400-024A221A-103B-4C71-A5E1-A2AD11754141Q28081947-73B76B8C-F06A-4D1C-B1B3-7C70625C333CQ28655923-B52ED954-20A9-488C-AD03-B08979D7DAD0Q30668962-8BCFDB02-768C-477B-8180-EC824B21973FQ33599996-92B77AF7-DF13-4C5E-B004-96C098581420Q33631892-470514F9-BC7C-44DC-8EF6-DFE872A9C31AQ33632027-99F127D6-A90B-473F-9375-E0C4408C3087Q33637022-A8F9D088-9A22-468E-B929-7BA8CF96DF2CQ33848231-D6E67221-885F-40FC-B437-CF2351473DDDQ34090117-4FE973E9-4F01-494A-A1A3-54199B0DBC85Q34578566-34FDDF64-A59D-4643-A722-9D2695FD6BD2Q35427151-9EBA20DE-295E-4B93-8B79-D590FAE6F098Q35442273-ED546752-4BD4-4DAA-B0F1-DA1F83557193Q35596169-11A4CC06-6BCB-4ED3-8BE4-C1EC2F1A1787Q36024407-6CA6662A-9538-485A-9A44-789C64167091Q36065407-A8F0C78B-2BE6-4C4E-809A-FDEE861D52F6Q36756434-4BEDF21D-2CC1-4806-85B1-707527028AC8Q37295374-E4AA6179-A04C-4E7F-86D1-F74457CDCFDFQ37328831-B63513F3-7821-47BB-AF68-BBCE05F9D1F8Q37425989-612C468D-2078-4BE7-A5CA-1545194A3D76Q37579015-B437487C-E342-411D-81C2-703FCE4A2FC3Q37604490-82C4E71F-F518-42DC-9318-C8DF86B2113DQ37689365-DF709FB0-BD9C-47A3-8A8F-BDE516267C33Q37726622-65C5EB9D-3FDD-421F-8F4C-584C7E066815Q38218670-1F6B5A96-7ACD-4AA4-948E-53207DB365C3Q38266872-3D111B32-A295-4421-A23F-9AA033858C11Q38460012-F5BCCE4C-9103-4BFE-B114-52F999C15901Q38529653-728CEB54-B444-4014-BE47-2DD7E617A6A2Q38542460-32E21C12-91CA-4B2A-AB4F-268A6FBDA729Q38838315-DADF70C8-5B2A-44DC-B6E6-7635C06CCDE0Q38846368-4A525426-C84F-46C8-A6C1-95994DC2A07DQ39164804-441460C8-3AE3-4C78-89F9-42978BCC5F62Q39286318-7340053C-BD6F-4E1B-98D4-D8B751B76CEDQ39559831-8E83E59D-5C38-4DC7-82FB-321F8816C51DQ40825263-8DA73278-F50C-4D8A-A3A9-A42D1B5DC20AQ41121269-EA4FA583-741F-4F65-B4A9-77C56D40F3BEQ41418267-6E94C90D-A967-4666-B303-FEE289D3CCA4Q41860765-0DDBE630-FFA9-4770-B0C3-F99081CBFF91Q41865221-11E09250-8F03-49E2-8D83-964821FB5F1EQ42392460-1D4AD7B9-A50C-43A5-99F6-0F6C43D4C300
P2860
Importance of monocarboxylate transporter 8 for the blood-brain barrier-dependent availability of 3,5,3'-triiodo-L-thyronine.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 15 January 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Importance of monocarboxylate ...... of 3,5,3'-triiodo-L-thyronine.
@en
Importance of monocarboxylate ...... of 3,5,3'-triiodo-L-thyronine.
@nl
type
label
Importance of monocarboxylate ...... of 3,5,3'-triiodo-L-thyronine.
@en
Importance of monocarboxylate ...... of 3,5,3'-triiodo-L-thyronine.
@nl
prefLabel
Importance of monocarboxylate ...... of 3,5,3'-triiodo-L-thyronine.
@en
Importance of monocarboxylate ...... of 3,5,3'-triiodo-L-thyronine.
@nl
P2093
P2860
P50
P356
P1433
P1476
Importance of monocarboxylate ...... of 3,5,3'-triiodo-L-thyronine.
@en
P2093
Ainhoa Ceballos
Alexandra M Dumitrescu
Eduardo Sanchez-Mendoza
Monica M Belinchon
Samuel Refetoff
P2860
P304
P356
10.1210/EN.2008-1616
P407
P577
2009-01-15T00:00:00Z