Yayın:
Tetraiodothyroacetic acid (Tetrac) and nanoparticulate tetrac arrest growth of medullary carcinoma of the thyroid

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dc.contributor.authorDyskin, Evgeny
dc.contributor.authorLansing, Lawrence S.
dc.contributor.authorBharali, Dhruba Jyoti
dc.contributor.authorMousa, Shaymaa S.
dc.contributor.authorBridoux, Alexandre
dc.contributor.authorHercbergs, Aleck A.
dc.contributor.authorLin, Hungyung
dc.contributor.authorDavis, Faith B.
dc.contributor.authorGlinsky, Gennadi Victor
dc.contributor.authorGlinskii, Anna B.
dc.contributor.authorMa, J.
dc.contributor.authorDavis, Paul J.
dc.contributor.authorMousa, S. A.
dc.contributor.buuauthorYalçın, Murat
dc.contributor.departmentVeterinerlik Fakültesi
dc.contributor.departmentTemel Bilimler Bölümü
dc.contributor.orcid0000-0002-5600-8162
dc.contributor.researcheridAAG-6956-2021
dc.contributor.scopusid57192959734
dc.date.accessioned2022-03-30T13:45:33Z
dc.date.available2022-03-30T13:45:33Z
dc.date.issued2010-04
dc.description.abstractContext: Tetraiodothyroacetic acid (tetrac) blocks angiogenic and tumor cell proliferation actions of thyroid hormone initiated at the cell surface hormone receptor on integrin alpha v beta 3. Tetrac also inhibits angiogenesis initiated by vascular endothelial growth factor and basic fibroblast growth factor. Objective: We tested antiangiogenic and antiproliferative efficacy of tetrac and tetrac nanoparticles (tetrac NP) against human medullary thyroid carcinoma (h-MTC) implants in the chick chorioallantoic membrane (CAM) and h-MTC xenografts in the nude mouse. Design: h-MTCcells were implanted in the CAM model (n = 8 per group); effects of tetrac and tetrac NP at 1 mu g/CAM were determined on tumor angiogenesis and tumor growth after 8 d. h-MTC cells were also implanted sc in nude mice (n = 6 animals per group), and actions on established tumor growth of unmodified tetrac and tetrac NP ip were determined. Results: In the CAM, tetrac and tetrac NP inhibited tumor growth and tumor-associated angiogenesis. In the nude mouse xenograft model, established 450-500 mm(3) h-MTC tumors were reduced in size over 21 d by both tetrac formulations to less than the initial cell mass (100 mm(3)). Tumor tissue hemoglobin content of xenografts decreased by 66% over the course of administration of each drug. RNA microarray and quantitative real-time PCR of tumor cell mRNAs revealed that both tetrac formulations significantly induced antiangiogenic thrombospondin 1 and apoptosis activator gene expression. Conclusions: Acting via a cell surface receptor, tetrac and tetrac NP inhibit growth of h-MTC cells and associated angiogenesis in CAM and mouse xenograft models.
dc.description.sponsorshipCharitable Leadership Foundation/Medical Technology Acceleration Program
dc.description.sponsorshipPharmaceutical Research Institute of Albany College of Pharmacy
dc.identifier.citationYalçın, M. vd. (2010). "Tetraiodothyroacetic acid (Tetrac) and nanoparticulate tetrac arrest growth of medullary carcinoma of the thyroid". Journal of Clinical Endocrinology and Metabolism, 95(4), 1972-1980.
dc.identifier.doi10.1210/jc.2009-1926
dc.identifier.endpage1980
dc.identifier.issn0021-972X
dc.identifier.issn1945-7197
dc.identifier.issue4
dc.identifier.pubmed20133461
dc.identifier.scopus2-s2.0-77951630790
dc.identifier.startpage1972
dc.identifier.urihttps://doi.org/10.1210/jc.2009-1926
dc.identifier.urihttps://academic.oup.com/jcem/article/95/4/1972/2597596?login=true
dc.identifier.urihttp://hdl.handle.net/11452/25463
dc.identifier.volume95
dc.identifier.wos000276402300060
dc.indexed.wosSCIE
dc.language.isoen
dc.publisherEndocrine
dc.relation.collaborationYurt dışı
dc.relation.collaborationSanayi
dc.relation.journalJournal of Clinical Endocrinology and Metabolism
dc.relation.publicationcategoryMakale - Uluslararası Hakemli Dergi
dc.rightsinfo:eu-repo/semantics/openAccess
dc.subjectActivated protein-kinase
dc.subjectCell-surface receptor
dc.subjectAlpha-catenin
dc.subjectProangiogenic action
dc.subjectMicroarray analysis
dc.subjectGamma-catenin
dc.subjectE-cadherin
dc.subjectHormone
dc.subjectExpression
dc.subjectIntegrin
dc.subjectEndocrinology & metabolism
dc.subjectAnimalia
dc.subjectMus musculus
dc.subject.emtreeAlpha catenin
dc.subject.emtreeAngiogenesis inhibitor
dc.subject.emtreeCaspase 2
dc.subject.emtreeCaspase 8 associated protein 2
dc.subject.emtreeDFFA protein
dc.subject.emtreeFas antigen
dc.subject.emtreeGlyceraldehyde 3 phosphate dehydrogenase
dc.subject.emtreeHemoglobin
dc.subject.emtreeMessenger RNA
dc.subject.emtreeNanoparticle
dc.subject.emtreeProtein
dc.subject.emtreeTetraiodothyroacetic acid
dc.subject.emtreeThrombospondin 1
dc.subject.emtreeUnclassified drug
dc.subject.emtreeVasculotropin A
dc.subject.emtreeAntineoplastic agent
dc.subject.emtreeDrug derivative
dc.subject.emtreeExcipient
dc.subject.emtreeHemoglobin
dc.subject.emtreeLactic acid
dc.subject.emtreeNanoparticle
dc.subject.emtreePolyglycolic acid
dc.subject.emtreePolylactic acid polyglycolic acid copolymer
dc.subject.emtreePolylactic acid-polyglycolic acid copolymer
dc.subject.emtreeRNA
dc.subject.emtreeTetraiodothyroacetic acid
dc.subject.emtreeThyroxine
dc.subject.emtreeAnimal experiment
dc.subject.emtreeAnimal tissue
dc.subject.emtreeAntiangiogenic activity
dc.subject.emtreeArticle
dc.subject.emtreeCancer cell culture
dc.subject.emtreeCancer inhibition
dc.subject.emtreeCancer size
dc.subject.emtreeCell cycle arrest
dc.subject.emtreeChorioallantois
dc.subject.emtreeControlled study
dc.subject.emtreeDrug distribution
dc.subject.emtreeDrug effect
dc.subject.emtreeDrug efficacy
dc.subject.emtreeFemale
dc.subject.emtreeGene expression
dc.subject.emtreeHuman
dc.subject.emtreeHuman cell
dc.subject.emtreeHuman cell culture
dc.subject.emtreeMicroarray analysis
dc.subject.emtreeMouse
dc.subject.emtreeNonhuman
dc.subject.emtreePriority journal
dc.subject.emtreeReal time polymerase chain reaction
dc.subject.emtreeThyroid medullary carcinoma
dc.subject.emtreeTissue level
dc.subject.emtreeAnimal
dc.subject.emtreeBiosynthesis
dc.subject.emtreeBody weight
dc.subject.emtreeCell culture
dc.subject.emtreeChick embryo
dc.subject.emtreeDNA microarray
dc.subject.emtreeDrug screening
dc.subject.emtreeGenetics
dc.subject.emtreeMedullary carcinoma
dc.subject.emtreeMetabolism
dc.subject.emtreeNeovascularization (pathology)
dc.subject.emtreeNude mouse
dc.subject.emtreePathology
dc.subject.emtreeReverse transcription polymerase chain reaction
dc.subject.emtreeThyroid tumor
dc.subject.meshAnimals
dc.subject.meshAntineoplastic agents
dc.subject.meshBody weight
dc.subject.meshCarcinoma, medullary
dc.subject.meshCells, cultured
dc.subject.meshChick embryo
dc.subject.meshChorioallantoic membrane
dc.subject.meshExcipients
dc.subject.meshFemale
dc.subject.meshHemoglobins
dc.subject.meshHumans
dc.subject.meshLactic acid
dc.subject.meshMice
dc.subject.meshMice, nude
dc.subject.meshNanoparticles
dc.subject.meshNeovascularization, pathologic
dc.subject.meshOligonucleotide array sequence analysis
dc.subject.meshPolyglycolic acid
dc.subject.meshReverse transcriptase polymerase chain reaction
dc.subject.meshRNA, neoplasm
dc.subject.meshThyroid neoplasms
dc.subject.meshThyroxine
dc.subject.meshXenograft model antitumor assays
dc.subject.scopusIntegrin; Thyroid Hormones; Nano-Diamino-Tetrac
dc.subject.wosEndocrinology & metabolism
dc.titleTetraiodothyroacetic acid (Tetrac) and nanoparticulate tetrac arrest growth of medullary carcinoma of the thyroid
dc.typeArticle
dc.wos.quartileQ1
dspace.entity.typePublication
local.contributor.departmentVeterinerlik Fakültesi/Temel Bilimler Bölümü
local.indexed.atScopus
local.indexed.atWOS

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