Receptor binding of transforming growth factor-β by human fetal adrenal cells

We have shown previously that transforming growth factor β1 (TGF-β1) is antimitotic for human fetal adrenal (HFA) cells in vitro and that this effect can be partially blocked by adrenocorticotropic hormone (ACTH). In the present study, we sought to determine whether ACTH might interfere with TGF-β1...

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Veröffentlicht in:Molecular and cellular endocrinology 1995-04, Vol.109 (2), p.159-165
Hauptverfasser: Stanković, Ana K., Richard Parker, C.
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description We have shown previously that transforming growth factor β1 (TGF-β1) is antimitotic for human fetal adrenal (HFA) cells in vitro and that this effect can be partially blocked by adrenocorticotropic hormone (ACTH). In the present study, we sought to determine whether ACTH might interfere with TGF-β1 action by means of reducing TGF-β1 binding to adrenal cells. We incubated adrenal cells with 50 pM 125I-labeled TGF-β1 for 15 min to 3 h at 4°C and found that the binding of 125I-labeled TGF-β1 increased with time and could be inhibited in a dose-dependent manner by non-labeled TGF-β1 (0.05–10 nM), but not with other relevant cytokines: IL6, TNFα, IGF-I, IGF-II, TGF-α, and EGR Pretreatment of HFA cells with ACTH (0.009–900 nM) for 4–24 h significantly increased specific 125I-labeled TGF -β1 binding compared to that in untreated cells; maximal increases in binding were achieved with 0.9 nM ACTH. This effect of ACTH could be mimicked by treatment of adrenal cells with dibutyryl CAMP (1 mM) or forskolin (10 μM). Scatchard analysis of data from ACTH-treated cells suggest the presence of two populations of TGF-β1 binding sites with different affinity and capacity of binding for the ligand. The high affinity sites had a K d value of 9.5 × 10 −10 M and a capacity of 5.4 × 10 4 sites/cell, while the low affinity binding structures had a K d value of 4.7 × 10 −8 M and were present in a concentration of 7.6 × 10 5 sites/cell. Up-regulation of TGF-β1 binding by ACTH or its agonists was not observed with cultured human fetal liver or kidney cells. Incubation of HFA cells with cytochalasin D, which causes such cells to round as also occurs with ACTH, had no effect on binding of TGF-β1. Upon cross-linking of the 125I-labeled TGF-β1 bound to HFA cells by sulfosuccinimidyl suberate followed by solubilization and SDS-PAGE electrophoresis, we found TGF-β1 to be associated with three binding sites; the cross-linked complexes had apparent molecular weights of >205, 65 and 45 kDa. Pre-incubation of HFA cells with ACTH increased the binding of labeled TGF -β1 to all three molecular weight substances. In control and ACTH-treated HFA cells (fetal zone and neocortex) the predominant binder was the high molecular weight form. In contrast, the predominant form of TGF-β1 binding in kidney and liver cells had a cross-linked weight of approximately 66 kDa; there was little binding of TGF-β1 to the >205 kDa form. These results indicate that HFA cells have specific binding sites for TGF-β1 tha
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In the present study, we sought to determine whether ACTH might interfere with TGF-β1 action by means of reducing TGF-β1 binding to adrenal cells. We incubated adrenal cells with 50 pM 125I-labeled TGF-β1 for 15 min to 3 h at 4°C and found that the binding of 125I-labeled TGF-β1 increased with time and could be inhibited in a dose-dependent manner by non-labeled TGF-β1 (0.05–10 nM), but not with other relevant cytokines: IL6, TNFα, IGF-I, IGF-II, TGF-α, and EGR Pretreatment of HFA cells with ACTH (0.009–900 nM) for 4–24 h significantly increased specific 125I-labeled TGF -β1 binding compared to that in untreated cells; maximal increases in binding were achieved with 0.9 nM ACTH. This effect of ACTH could be mimicked by treatment of adrenal cells with dibutyryl CAMP (1 mM) or forskolin (10 μM). Scatchard analysis of data from ACTH-treated cells suggest the presence of two populations of TGF-β1 binding sites with different affinity and capacity of binding for the ligand. The high affinity sites had a K d value of 9.5 × 10 −10 M and a capacity of 5.4 × 10 4 sites/cell, while the low affinity binding structures had a K d value of 4.7 × 10 −8 M and were present in a concentration of 7.6 × 10 5 sites/cell. Up-regulation of TGF-β1 binding by ACTH or its agonists was not observed with cultured human fetal liver or kidney cells. Incubation of HFA cells with cytochalasin D, which causes such cells to round as also occurs with ACTH, had no effect on binding of TGF-β1. Upon cross-linking of the 125I-labeled TGF-β1 bound to HFA cells by sulfosuccinimidyl suberate followed by solubilization and SDS-PAGE electrophoresis, we found TGF-β1 to be associated with three binding sites; the cross-linked complexes had apparent molecular weights of &gt;205, 65 and 45 kDa. Pre-incubation of HFA cells with ACTH increased the binding of labeled TGF -β1 to all three molecular weight substances. In control and ACTH-treated HFA cells (fetal zone and neocortex) the predominant binder was the high molecular weight form. In contrast, the predominant form of TGF-β1 binding in kidney and liver cells had a cross-linked weight of approximately 66 kDa; there was little binding of TGF-β1 to the &gt;205 kDa form. These results indicate that HFA cells have specific binding sites for TGF-β1 that are heterogenous in size. 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In the present study, we sought to determine whether ACTH might interfere with TGF-β1 action by means of reducing TGF-β1 binding to adrenal cells. We incubated adrenal cells with 50 pM 125I-labeled TGF-β1 for 15 min to 3 h at 4°C and found that the binding of 125I-labeled TGF-β1 increased with time and could be inhibited in a dose-dependent manner by non-labeled TGF-β1 (0.05–10 nM), but not with other relevant cytokines: IL6, TNFα, IGF-I, IGF-II, TGF-α, and EGR Pretreatment of HFA cells with ACTH (0.009–900 nM) for 4–24 h significantly increased specific 125I-labeled TGF -β1 binding compared to that in untreated cells; maximal increases in binding were achieved with 0.9 nM ACTH. This effect of ACTH could be mimicked by treatment of adrenal cells with dibutyryl CAMP (1 mM) or forskolin (10 μM). Scatchard analysis of data from ACTH-treated cells suggest the presence of two populations of TGF-β1 binding sites with different affinity and capacity of binding for the ligand. The high affinity sites had a K d value of 9.5 × 10 −10 M and a capacity of 5.4 × 10 4 sites/cell, while the low affinity binding structures had a K d value of 4.7 × 10 −8 M and were present in a concentration of 7.6 × 10 5 sites/cell. Up-regulation of TGF-β1 binding by ACTH or its agonists was not observed with cultured human fetal liver or kidney cells. Incubation of HFA cells with cytochalasin D, which causes such cells to round as also occurs with ACTH, had no effect on binding of TGF-β1. Upon cross-linking of the 125I-labeled TGF-β1 bound to HFA cells by sulfosuccinimidyl suberate followed by solubilization and SDS-PAGE electrophoresis, we found TGF-β1 to be associated with three binding sites; the cross-linked complexes had apparent molecular weights of &gt;205, 65 and 45 kDa. Pre-incubation of HFA cells with ACTH increased the binding of labeled TGF -β1 to all three molecular weight substances. In control and ACTH-treated HFA cells (fetal zone and neocortex) the predominant binder was the high molecular weight form. In contrast, the predominant form of TGF-β1 binding in kidney and liver cells had a cross-linked weight of approximately 66 kDa; there was little binding of TGF-β1 to the &gt;205 kDa form. These results indicate that HFA cells have specific binding sites for TGF-β1 that are heterogenous in size. Since ACTH and other agonists of protein kinase A increased adrenal binding of TGF-β1, we suggest that ACTH reversal of TGF-β1 induced inhibition of adrenal growth is apparently not due to decreased binding of TGF-β1.</description><subject>Adrenal Cortex - drug effects</subject><subject>Adrenal Cortex - embryology</subject><subject>Adrenal Cortex - metabolism</subject><subject>Adrenal Cortex Hormones - biosynthesis</subject><subject>Adrenocorticotropic hormone</subject><subject>Binding Sites</subject><subject>Bucladesine - pharmacology</subject><subject>Cells, Cultured</subject><subject>Colforsin - pharmacology</subject><subject>Cosyntropin - pharmacology</subject><subject>Cytokines - pharmacology</subject><subject>Human fetal adrenal cells</subject><subject>Humans</subject><subject>Kidney - drug effects</subject><subject>Kidney - embryology</subject><subject>Receptor binding</subject><subject>Receptors, Transforming Growth Factor beta - metabolism</subject><subject>Transforming Growth Factor beta - antagonists &amp; inhibitors</subject><subject>Transforming Growth Factor beta - pharmacology</subject><subject>Transforming growth factor β</subject><issn>0303-7207</issn><issn>1872-8057</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1995</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp9kMtKxDAUhoMo4zj6BgpdiS6qSdM0zUaQwRsMCqKzDWlyMhPpZUxaZV7LB_GZbJ3Bpaufw_-f24fQMcEXBJPsElNMY55gfibYOaapyOP5DhqTnCdxjhnfReO_yD46COENY8xZko_QiGdZKng-Ro_PoGHVNj4qXG1cvYgaG7Ve1cE2vhrqhW8-22Vkle5T8fdXVKyjZVepOrLQqjJSxkPdq4ayDIdoz6oywNFWJ-j19uZleh_Pnu4eptezWFPG29jmOmFEFQwTo7GlRZEkaSEg5xmHlGLFacqVAq0zIYRJFFGaAstSsLklJqETdLqZu_LNewehlZULwwWqhqYLkvNUMCFwH0w3Qe2bEDxYufKuUn4tCZYDRjkwkgMjKZj8xSjnfdvJdn5XVGD-mrbcev9q40P_5IcDL4N2UGswzoNupWnc_wt-ANQ2gzI</recordid><startdate>19950401</startdate><enddate>19950401</enddate><creator>Stanković, Ana K.</creator><creator>Richard Parker, C.</creator><general>Elsevier Ireland Ltd</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope></search><sort><creationdate>19950401</creationdate><title>Receptor binding of transforming growth factor-β by human fetal adrenal cells</title><author>Stanković, Ana K. ; Richard Parker, C.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c357t-f8c251ab501dc0f3bb224b9e8767e430a7347aaecc6999d2a1ac3e564ef8f1d23</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>1995</creationdate><topic>Adrenal Cortex - drug effects</topic><topic>Adrenal Cortex - embryology</topic><topic>Adrenal Cortex - metabolism</topic><topic>Adrenal Cortex Hormones - biosynthesis</topic><topic>Adrenocorticotropic hormone</topic><topic>Binding Sites</topic><topic>Bucladesine - pharmacology</topic><topic>Cells, Cultured</topic><topic>Colforsin - pharmacology</topic><topic>Cosyntropin - pharmacology</topic><topic>Cytokines - pharmacology</topic><topic>Human fetal adrenal cells</topic><topic>Humans</topic><topic>Kidney - drug effects</topic><topic>Kidney - embryology</topic><topic>Receptor binding</topic><topic>Receptors, Transforming Growth Factor beta - metabolism</topic><topic>Transforming Growth Factor beta - antagonists &amp; inhibitors</topic><topic>Transforming Growth Factor beta - pharmacology</topic><topic>Transforming growth factor β</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Stanković, Ana K.</creatorcontrib><creatorcontrib>Richard Parker, C.</creatorcontrib><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>MEDLINE - Academic</collection><jtitle>Molecular and cellular endocrinology</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Stanković, Ana K.</au><au>Richard Parker, C.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Receptor binding of transforming growth factor-β by human fetal adrenal cells</atitle><jtitle>Molecular and cellular endocrinology</jtitle><addtitle>Mol Cell Endocrinol</addtitle><date>1995-04-01</date><risdate>1995</risdate><volume>109</volume><issue>2</issue><spage>159</spage><epage>165</epage><pages>159-165</pages><issn>0303-7207</issn><eissn>1872-8057</eissn><abstract>We have shown previously that transforming growth factor β1 (TGF-β1) is antimitotic for human fetal adrenal (HFA) cells in vitro and that this effect can be partially blocked by adrenocorticotropic hormone (ACTH). In the present study, we sought to determine whether ACTH might interfere with TGF-β1 action by means of reducing TGF-β1 binding to adrenal cells. We incubated adrenal cells with 50 pM 125I-labeled TGF-β1 for 15 min to 3 h at 4°C and found that the binding of 125I-labeled TGF-β1 increased with time and could be inhibited in a dose-dependent manner by non-labeled TGF-β1 (0.05–10 nM), but not with other relevant cytokines: IL6, TNFα, IGF-I, IGF-II, TGF-α, and EGR Pretreatment of HFA cells with ACTH (0.009–900 nM) for 4–24 h significantly increased specific 125I-labeled TGF -β1 binding compared to that in untreated cells; maximal increases in binding were achieved with 0.9 nM ACTH. This effect of ACTH could be mimicked by treatment of adrenal cells with dibutyryl CAMP (1 mM) or forskolin (10 μM). Scatchard analysis of data from ACTH-treated cells suggest the presence of two populations of TGF-β1 binding sites with different affinity and capacity of binding for the ligand. The high affinity sites had a K d value of 9.5 × 10 −10 M and a capacity of 5.4 × 10 4 sites/cell, while the low affinity binding structures had a K d value of 4.7 × 10 −8 M and were present in a concentration of 7.6 × 10 5 sites/cell. Up-regulation of TGF-β1 binding by ACTH or its agonists was not observed with cultured human fetal liver or kidney cells. Incubation of HFA cells with cytochalasin D, which causes such cells to round as also occurs with ACTH, had no effect on binding of TGF-β1. Upon cross-linking of the 125I-labeled TGF-β1 bound to HFA cells by sulfosuccinimidyl suberate followed by solubilization and SDS-PAGE electrophoresis, we found TGF-β1 to be associated with three binding sites; the cross-linked complexes had apparent molecular weights of &gt;205, 65 and 45 kDa. Pre-incubation of HFA cells with ACTH increased the binding of labeled TGF -β1 to all three molecular weight substances. In control and ACTH-treated HFA cells (fetal zone and neocortex) the predominant binder was the high molecular weight form. In contrast, the predominant form of TGF-β1 binding in kidney and liver cells had a cross-linked weight of approximately 66 kDa; there was little binding of TGF-β1 to the &gt;205 kDa form. These results indicate that HFA cells have specific binding sites for TGF-β1 that are heterogenous in size. Since ACTH and other agonists of protein kinase A increased adrenal binding of TGF-β1, we suggest that ACTH reversal of TGF-β1 induced inhibition of adrenal growth is apparently not due to decreased binding of TGF-β1.</abstract><cop>Ireland</cop><pub>Elsevier Ireland Ltd</pub><pmid>7664978</pmid><doi>10.1016/0303-7207(95)03498-V</doi><tpages>7</tpages></addata></record>
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subjects Adrenal Cortex - drug effects
Adrenal Cortex - embryology
Adrenal Cortex - metabolism
Adrenal Cortex Hormones - biosynthesis
Adrenocorticotropic hormone
Binding Sites
Bucladesine - pharmacology
Cells, Cultured
Colforsin - pharmacology
Cosyntropin - pharmacology
Cytokines - pharmacology
Human fetal adrenal cells
Humans
Kidney - drug effects
Kidney - embryology
Receptor binding
Receptors, Transforming Growth Factor beta - metabolism
Transforming Growth Factor beta - antagonists & inhibitors
Transforming Growth Factor beta - pharmacology
Transforming growth factor β
title Receptor binding of transforming growth factor-β by human fetal adrenal cells
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