Your search keyword '"Giorgio Napolitano"' showing total 6 results

1. The Flavonoid Quercetin Regulates Growth and Gene Expression in Rat FRTL-5 Thyroid Cells

Author

Norikazu Harii, Ines Bucci, Dante Tatone, Leonard D. Kohn, Yoshihiko Noguchi, Mauro Piantelli, Cesidio Giuliani, F. Monaco, and Giorgio Napolitano

Subjects

endocrine system, medicine.medical_specialty, endocrine system diseases, Flavonoid, Drug Evaluation, Preclinical, Thyroid Gland, Thyrotropin, Endocrine Disruptors, Biology, chemistry.chemical_compound, Endocrinology, Antithyroid Agents, Internal medicine, Gene expression, medicine, Animals, heterocyclic compounds, Kinase activity, Protein kinase A, Cells, Cultured, Cell Proliferation, chemistry.chemical_classification, Symporters, Cell growth, Rats, Phospholipases A2, Gene Expression Regulation, chemistry, Biochemistry, Quercetin, Signal transduction, Thyroid function, Iodine, Signal Transduction

Abstract

Quercetin is the most consumed flavonoid present in fruits and vegetables. There has been increased interest in the possible health benefits of quercetin and other flavonoids. Because it is reported that these compounds have some antithyroid properties, we were interested whether, and by what mechanism, quercetin might regulate thyroid cell growth and function. In this report we show that quercetin inhibits thyroid cell growth in association with inhibition of insulin-modulated phosphatidylinositol 3-kinase-Akt kinase activity. Furthermore, quercetin decreases TSH-modulated RNA levels of the thyroid-restricted gene sodium/iodide symporter (NIS). We associated down-regulation of NIS RNA levels with inhibition of iodide uptake at comparable quercetin concentrations and could show that the inhibitory effect of quercetin on NIS RNA levels and iodide uptake is reproduced by inhibitors of the phospholipase-A(2)/lipoxygenase pathway. The specific inhibitor of protein kinase A, H89, only partially inhibited TSH-increased NIS expression and did not reproduce the quercetin effect. The quercetin studies thus reveal that the phospholipase-A(2)/lipoxygenase pathway appears to play an important role in TSH regulation of NIS gene expression, whereas quercetin inhibition of growth appears to involve an effect on insulin/IGF-I-Akt signaling. The data raise the possibility that quercetin may be a novel disruptor of thyroid function, which has potential effects on, or use in, the therapy of thyroid diseases.

Published

2007

2. Upstream Stimulatory Factor Regulates Constitutive Expression and Hormonal Suppression of the 90K (Mac-2BP) Protein

Author

Giorgio Napolitano, Hyun-Kyung Chung, Cesidio Giuliani, Dinah S. Singer, Leonard D. Kohn, Antonino Grassadonia, Minoru Nakazato, Nicola Tinari, T. Kevin Howcroft, Bruno Fiorentino, and Stefano Iacobelli

Subjects

5' Flanking Region, Recombinant Fusion Proteins, Molecular Sequence Data, USF2, Response element, USF1, Thyrotropin, Electrophoretic Mobility Shift Assay, Response Elements, Transfection, Upstream Stimulatory Factor, Cell Line, Interferon-gamma, Endocrinology, Interferon, Sequence Homology, Nucleic Acid, Gene expression, Cyclic AMP, medicine, Animals, Insulin, Insulin-Like Growth Factor I, Binding site, Luciferases, Promoter Regions, Genetic, Extracellular Matrix Proteins, Binding Sites, Base Sequence, biology, Proteins, Sequence Analysis, DNA, Molecular biology, Rats, Gene Expression Regulation, biology.protein, Upstream Stimulatory Factors, Carrier Proteins, Protein Binding, medicine.drug

Abstract

We previously reported that hormones important for the normal growth and function of FRTL-5 rat thyroid cells, TSH, or its cAMP signal plus insulin or IGF-I, could transcriptionally suppress constitutive and γ-interferon (IFN)-increased synthesis of the 90K protein (also known as Mac-2BP). Here we cloned the 5′-flanking region of the rat 90K gene and identified a minimal promoter containing an interferon response element and a consensus E-box or upstream stimulator factor (USF) binding site, which are highly conserved in both the human and murine genes. We show that suppression of constitutive and γ-IFN-increased 90K gene expression by TSH/cAMP plus insulin/IGF-I depends on the ability of the hormones to decrease the binding of USF to the E-box, located upstream of the interferon response element. This site is required for the constitutive expression of the 90K gene. Transfection with USF1 and USF2 cDNAs increases constitutive promoter activity, attenuates the ability of TSH/cAMP plus insulin/IGF-I to decrease constitutive or γ-IFN-increased 90K gene expression but does not abrogate the ability of γ-IFN itself to increase 90K gene expression.

Published

2007

3. The 90K Protein Increases Major Histocompatibility Complex Class I Expression and Is Regulated by Hormones, γ-Interferon, and Double-Strand Polynucleotides

Author

Giorgio Napolitano, Dinah S. Singer, Leonard D. Kohn, Stefano Iacobelli, Michele De Tursi, Antonino Grassadonia, Cesidio Giuliani, Bruno Fiorentino, Nicola Tinari, Koichi Suzuki, and Minoru Nakazato

Subjects

Molecular Sequence Data, Polynucleotides, Major histocompatibility complex, Cell Line, Interferon-gamma, Endocrinology, Immune system, Complementary DNA, medicine, Animals, Humans, Interferon gamma, Amino Acid Sequence, RNA, Messenger, Cloning, Molecular, Antigen-presenting cell, Cyclophilin, Extracellular Matrix Proteins, Sequence Homology, Amino Acid, biology, Histocompatibility Antigens Class I, Proteins, Herpes Simplex, DNA, Transfection, Phenotype, Molecular biology, Hormones, Rats, biology.protein, Carrier Proteins, medicine.drug

Abstract

Here we report the cloning of the rat 90K, a homolog of the mouse cyclophilin C-associated protein/mouse adherent macrophage and human 90K. The protein is constitutively expressed by FRTL-5 thyrocytes, and its levels are modulated by TSH, insulin/IGF-I, and gamma-interferon. Transfection of the cells with 90K cDNA or exposure to purified 90K resulted in a significant increase of the expression of major histocompatibility complex class I but not class II antigens. An increased expression of 90K was obtained after viral infection or introduction into the cells of fragments of viral, bacterial, or mammalian double-strand polynucleotides. The increase was sequence independent, not CpG mediated, and associated with the expression of molecules characterizing antigen-presenting-cell phenotype. The present data along with results from previous studies suggest that 90K plays an important role in the maintenance of an appropriate level of immune response.

Published

2004

4. Regulation of Major Histocompatibility (MHC) Class II Human Leukocyte Antigen-DRα Gene Expression in Thyrocytes by Single Strand Binding Protein-1, a Transcription Factor That Also Regulates Thyrotropin Receptor and MHC Class I Gene Expression

Author

Giorgio Napolitano, Pina L. Balducci-Silano, Valeria Montani, Jun Saito, Stefano Lavaroni, Masanori Ohta, Dinah S. Singer, Masayuki Ohmori, Leonard D. Kohn, Shin-ichi Taniguchi, Koichi Suzuki, Michele Pietrarelli, Minho Shong, and Atsumi Mori

Subjects

Therapeutic gene modulation, CD74, Thyroid Gland, Gene Expression, Thyrotropin, Biology, Transfection, Cell Line, Mitochondrial Proteins, Interferon-gamma, Endocrinology, Gene expression, CIITA, Animals, Humans, RNA, Messenger, Promoter Regions, Genetic, Regulator gene, Binding Sites, Base Sequence, Antigen processing, Histocompatibility Antigens Class I, MHC Class I Gene, Histocompatibility Antigens Class II, Receptors, Thyrotropin, DNA, HLA-DR Antigens, Molecular biology, Recombinant Proteins, Rats, DNA-Binding Proteins, Class II gene, Gene Expression Regulation, Trans-Activators

Abstract

The single strand binding protein (SSBP-1) is a positive regulator of TSH receptor gene expression and binds to an element with a GXXXXG motif. The S box of the mouse major histocompatibility class II gene has multiple GXXXXG motifs and can also bind SSBP-1. The S box is one of four highly conserved elements on the 5'-flanking region of class II genes that are necessary for interferon-gamma (IFNgamma) to overcome the normally suppressed state of the gene and induce aberrant class II expression. In this report we show that SSBP-1, when overexpressed in FRTL-5 thyroid cells, is a positive regulator of human leukocyte antigen (HLA)-DR alpha class II gene expression, as is IFNgamma or the class II trans-activator (CIITA). This is evidenced by increased exogenous promoter activity, increased endogenous RNA levels, and increased endogenous antigen expression after transfecting full-length SSBP-1 complementary DNA together with a HLA-DR alpha promoter-reporter gene chimera into TSH-treated FRTL-5 thyroid cells whose endogenous SSBP-1 levels are low. IFNgamma reverses the ability of TSH to decrease endogenous SSBP-1 RNA levels. Also, whereas SSBP-1 transfection does not cause any increase in IFNgamma-induced exogenous promoter activity, transfection of SSBP-1 and CIITA additively increases endogenous class II RNA levels to levels measured in cells treated with IFNgamma. Further, competition studies show that SSBP-1 binding is necessary for formation of the double strand protein/DNA complexes that are seen in electrophoretic mobility shift assays when the class II 5'-flanking region is incubated with extracts from IFNgamma-treated FRTL-5 cells and that have been previously associated with IFNgamma-induced aberrant class II expression. These data suggest that SSBP-1 is involved in the action of IFNgamma to overcome the normally suppressed state of the class II gene; it functions together with CIITA, whose expression is independently increased by IFNgamma. The effect of SSBP-1 as a positive regulator of class II promoter activity is lost in cells maintained without TSH, in which endogenous SSBP-1 RNA levels are already high in the absence of aberrant class II gene expression. These data suggest that high levels of endogenous SSBP-1 are insufficient to cause aberrant class II expression, but, rather, TSH or IFNgamma treatment additionally modulates the cell, albeit differently, such that transfected or endogenous SSBP-1, respectively, can express its positive regulatory activity. The effect of TSH is consistent with reports indicating that TSH enhances the ability of IFNgamma to increase class II gene expression despite the fact IFNgamma increases endogenous SSBP-1 to only the same levels as in cells untreated with TSH. Finally, the effect of SSBP-1 as a positive regulator is lost when GXXXXG motifs, which exist on both the coding and noncoding strands of the S box, are mutated. Consistent with this, mutation and oligonucleotide competition studies show that GXXXXG motifs are necessary for either strand of the S box to bind protein/DNA complexes containing SSBP-1 in FRTL-5 cell extracts or to bind to recombinant SSBP-1. They also suggest that the SSBP-1-binding sites on either strand of the HLA-DR alpha S box are functionally distinct. We conclude from these data that the positive regulatory action of SSBP-1 on class II gene expression involves GXXXXG motifs on each strand of the highly conserved S box of the class II 5'-flanking region. As SSBP-1 is modulated by IFNgamma and is involved in class I and TSH receptor as well as class II gene expression in FRTL-5 cells, the sum of the data supports the hypotheses that common transcription factors regulate all three genes, and their altered activities may contribute to the development of autoimmunity.

Published

1998

5. Regulation of Major Histocompatibility Class II Gene Expression in FRTL-5 Thyrocytes: Opposite Effects of Interferon and Methimazole*

Author

Koichi Suzuki, Dinah S. Singer, Bruno Fiorentino, Cesidio Giuliani, Minho Shong, Andreas M. Reimold, Motoyasu Saji, Valeria Montani, Shin-ichi Taniguchi, Giorgio Napolitano, Leonard D. Kohn, and Jun Saito

Subjects

medicine.medical_specialty, Genes, MHC Class II, Molecular Sequence Data, Antigen presentation, Thyroid Gland, Thyrotropin, Human leukocyte antigen, Biology, Major histocompatibility complex, Interferon-gamma, Mice, Endocrinology, Antithyroid Agents, Internal medicine, Gene expression, medicine, Animals, Humans, Promoter Regions, Genetic, Cells, Cultured, HLA-DR Antigen, Regulation of gene expression, MHC class II, Methimazole, Base Sequence, DNA, HLA-DR Antigens, Rats, Class II gene, Gene Expression Regulation, biology.protein

Abstract

Aberrant expression of major histocompatibility complex (MHC) class II antigens is associated with autoimmune thyroid disease; aberrant expression duplicating the autoimmune state can be induced by interferon-gamma (IFNgamma). We have studied IFNgamma-induced human leukocyte antigen (HLA)-DR alpha gene expression in rat FRTL-5 thyroid cells to identify the elements and factors important for aberrant expression. Using an HLA-DR alpha 5'-flanking region construct from -176 to +45 bp coupled to the chloramphenicol acetyltransferase reporter gene, we show that there is no basal class II gene expression in FRTL-5 thyroid cells, that IFNgamma can induce expression, and, as is the case for antigen-presenting cells from the immune system, that IFNgamma-induced expression requires several highly conserved elements on the 5'-flanking region, which, from 5' to 3', are the S, X1, X2, and Y boxes. Methimazole (MMI), a drug used to treat patients with Graves' disease and experimental thyroiditis in rats or mice, can suppress the IFNgamma-induced increase in HLA-DR alpha gene expression as a function of time and concentration; MMI simultaneously decreases IFNgamma-induced endogenous antigen presentation by the cell. Using gel shift assays and the HLA-DR alpha 5'-flanking region from -176 or -137 to +45 bp as radiolabeled probes, we observed the formation of a major protein-DNA complex with extracts from FRTL-5 cells untreated with IFNgamma, termed the basal or constitutive complex, and formation of an additional complex with a slightly faster mobility in extracts from cells treated with IFNgamma. MMI treatment of cells prevents IFNgamma from increasing the formation of this faster migrating complex. Formation of both complexes is specific, as evidenced in competition studies with unlabeled fragments between -137 and -38 bp from the start of transcription; nevertheless, they can be distinguished in such studies. Thus, high concentrations of double stranded oligonucleotides containing the sequence of the Y box, but not S, X1, or X2 box sequences, can prevent formation of the IFNgamma-increased faster migrating complex, but not the basal complex. Both complexes involve multiple proteins and can be distinguished by differences in their protein composition. Thus, using specific antisera, we show that two cAMP response element-binding proteins, activating transcription factor-1 and/or -2, are dominant proteins in the upper or basal complex. The upper or basal complex also includes c-Fos, Fra-2, Ets-2, and Oct-1. A dominant protein that distinguishes the IFNgamma-increased lower complex is CREB-binding protein (CBP), a coactivator of cAMP response element-binding proteins. We, therefore, show that aberrant expression of MHC class II in thyrocytes, induced by IFNgamma, is associated with the induction or increased formation of a novel protein-DNA complex and that its formation as well as aberrant class II expression are suppressed by MMI, a drug used to treat human and experimental autoimmune thyroid disease. Its component proteins differ from those in a major, basal, or constitutive protein-DNA complex formed with the class II 5'-flanking region in cells that are not treated with IFNgamma and that do not express the class II gene.

Published

1998

6. Major Histocompatibility Class II HLA-DRα Gene Expression in Thyrocytes: Counter Regulation by the Class II Transactivator and the Thyroid Y Box Protein

Author

Cesidio Giuliani, Giorgio Napolitano, Valeria Montani, Andreas M. Reimold, Minho Shong, Jenny P.-Y. Ting, Bruno Fiorentino, Motoyasu Saji, Shin-ichi Taniguchi, Dinah S. Singer, Leonard D. Kohn, Masayuki Ohmori, and Koichi Suzuki

Subjects

endocrine system, medicine.medical_specialty, CD74, Genes, MHC Class II, Thyroid Gland, Human leukocyte antigen, Interferon-gamma, Endocrinology, Internal medicine, CIITA, medicine, Animals, Humans, Promoter Regions, Genetic, Cells, Cultured, Regulation of gene expression, MHC class II, biology, MHC Class I Gene, Nuclear Proteins, HLA-DR Antigens, Y box binding protein 1, Rats, DNA-Binding Proteins, Class II gene, NFI Transcription Factors, Gene Expression Regulation, CCAAT-Enhancer-Binding Proteins, Trans-Activators, biology.protein, Y-Box-Binding Protein 1, Transcription Factors

Abstract

Aberrant expression of major histocompatibility complex (MHC) class II proteins on thyrocytes, which is associated with autoimmune thyroid disease, is mimicked by gamma-interferon (gamma-IFN). To define elements and factors that regulate class II gene expression in thyrocytes and that might be involved in aberrant expression, we have studied gamma-IFN-induced HLA-DR alpha gene expression in rat FRTL-5 thyroid cells. The present report shows that class II expression in FRTL-5 thyrocytes is positively regulated by the class II transactivator (CIITA), and that CIITA mimics the action of gamma-IFN. Thus, as is the case for gamma-IFN, several distinct and highly conserved elements on the 5'-flanking region of the HLA-DR alpha gene, the S, X1, X2, and Y boxes between -137 to -65 bp, are required for class II gene expression induced by pCIITA transfection in FRTL-5 thyroid cells. CIITA and gamma-IFN do not cause additive increases in HLA-DR alpha gene expression in FRTL-5 cells, consistent with the possibility that CIITA is an intermediate factor in the gamma-IFN pathway to increased class II gene expression. Additionally, gamma-IFN treatment of FRTL-5 cells induces an endogenous CIITA transcript; pCIITA transfection mimics the ability of gamma-IFN treatment of FRTL-5 thyroid cells to increase the formation of a specific and novel protein/DNA complex containing CBP, a coactivator of CRE binding proteins important for cAMP-induced gene expression; and the action of both gamma-IFN and CIITA to increase class II gene expression and increase complex formation is reduced by cotransfection of a thyroid Y box protein, which suppresses MHC class I gene expression in FRTL-5 thyroid cells and is a homolog of human YB-1, which suppresses MHC class II expression in human glioma cells. We conclude that CIITA and TSH receptor suppressor element binding protein-1 are components of the gamma-IFN-regulated transduction system which, respectively, increase or decrease class II gene expression in thyrocytes and may, therefore, be involved in aberrant class II expression associated with autoimmune thyroid disease.

Published

1998