Interleukin-10 Upregulates Tumor Necrosis Factor Receptor Type-II (p75) Gene Expression in Endotoxin-Stimulated Human Monocytes
Interferon-γ (IFN-γ) upregulates expression of certain genes in monocytes, including cell-surface molecules such as HLA class II, B7, and ICAM-1. IFN-γ also potentiates production of cytokines such as tumor necrosis factor-α (TNF-α), interleukin-1β (IL-1β) and IL-12. Conversely, IL-10 downregulates...
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| Published in: | Blood Vol. 90; no. 10; pp. 4162 - 4171 |
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| Main Authors: | , , , |
| Format: | Journal Article |
| Language: | English |
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Washington, DC
Elsevier Inc
15-11-1997
The Americain Society of Hematology |
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| Abstract | Interferon-γ (IFN-γ) upregulates expression of certain genes in monocytes, including cell-surface molecules such as HLA class II, B7, and ICAM-1. IFN-γ also potentiates production of cytokines such as tumor necrosis factor-α (TNF-α), interleukin-1β (IL-1β) and IL-12. Conversely, IL-10 downregulates expression of many of these same genes and often antagonizes the effects of IFN-γ. IL-10 is known to inhibit TNF-α production in lipopolysaccharide (LPS)-stimulated monocytes; however, the effects of IL-10 on TNF receptor (TNF-R) expression are not well defined. We examined the effects of IL-10 on production of both membrane-associated (m) and soluble (s) TNF-R type II (sTNF-RII) by purified human CD14+ monocytes. We also compared the effects of IFN-γ and IL-10 on production of TNF-α and sTNF-RII by these cells. Monocytes constitutively expressed low levels of TNF-RII mRNA and mTNF-RII protein. LPS stimulation induced rapid, but transient loss (shedding) of mTNF-RII molecules and a delayed, but marked increase in TNF-RII mRNA levels. IL-10 increased expression of both mTNF-RII and sTNF-RII by LPS-stimulated monocytes, whereas IFN-γ decreased their expression. The increased levels of sTNF-RII in cultures of IL-10–treated monocytes correlated directly with increased levels of TNF-RII mRNA and inversely with the levels of TNF-α mRNA. The ability of IL-10 to upregulate TNF-RII gene expression was transcriptionally mediated because actinomycin D blocked this effect. Furthermore, IL-10 treatment did not alter the half-life of TNF-RII mRNA transcripts in LPS-stimulated monocytes. To further examine the mechanism by which IL-10 potentiates TNF-RII gene expression, a 1.8-kb fragment of the human TNF-RII promoter cloned into a luciferase expression vector (pGL2-basic) was transfected into the IL-10–responsive macrophage cell line, RAW264.7. Although IL-10 alone induced only minimal promoter activity in these cells, it markedly increased the LPS-induced response, providing further evidence that the ability of IL-10 to amplify TNF-RII gene expression is transcriptionally controlled. Together, these findings demonstrate that IL-10 coordinately downregulates expression of TNF-α and upregulates expression of TNF-RII, particularly the soluble form of this receptor, in monocytes. |
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| AbstractList | Interferon-gamma (IFN-gamma) upregulates expression of certain genes in monocytes, including cell-surface molecules such as HLA class II, B7, and ICAM-1. IFN-gamma also potentiates production of cytokines such as tumor necrosis factor-alpha (TNF-alpha), interleukin-1beta (IL-1beta) and IL-12. Conversely, IL-10 downregulates expression of many of these same genes and often antagonizes the effects of IFN-gamma. IL-10 is known to inhibit TNF-alpha production in lipopolysaccharide (LPS)-stimulated monocytes; however, the effects of IL-10 on TNF receptor (TNF-R) expression are not well defined. We examined the effects of IL-10 on production of both membrane-associated (m) and soluble (s) TNF-R type II (sTNF-RII) by purified human CD14(+) monocytes. We also compared the effects of IFN-gamma and IL-10 on production of TNF-alpha and sTNF-RII by these cells. Monocytes constitutively expressed low levels of TNF-RII mRNA and mTNF-RII protein. LPS stimulation induced rapid, but transient loss (shedding) of mTNF-RII molecules and a delayed, but marked increase in TNF-RII mRNA levels. IL-10 increased expression of both mTNF-RII and sTNF-RII by LPS-stimulated monocytes, whereas IFN-gamma decreased their expression. The increased levels of sTNF-RII in cultures of IL-10-treated monocytes correlated directly with increased levels of TNF-RII mRNA and inversely with the levels of TNF-alpha mRNA. The ability of IL-10 to upregulate TNF-RII gene expression was transcriptionally mediated because actinomycin D blocked this effect. Furthermore, IL-10 treatment did not alter the half-life of TNF-RII mRNA transcripts in LPS-stimulated monocytes. To further examine the mechanism by which IL-10 potentiates TNF-RII gene expression, a 1.8-kb fragment of the human TNF-RII promoter cloned into a luciferase expression vector (pGL2-basic) was transfected into the IL-10-responsive macrophage cell line, RAW264.7. Although IL-10 alone induced only minimal promoter activity in these cells, it markedly increased the LPS-induced response, providing further evidence that the ability of IL-10 to amplify TNF-RII gene expression is transcriptionally controlled. Together, these findings demonstrate that IL-10 coordinately downregulates expression of TNF-alpha and upregulates expression of TNF-RII, particularly the soluble form of this receptor, in monocytes. Abstract Interferon-γ (IFN-γ) upregulates expression of certain genes in monocytes, including cell-surface molecules such as HLA class II, B7, and ICAM-1. IFN-γ also potentiates production of cytokines such as tumor necrosis factor-α (TNF-α), interleukin-1β (IL-1β) and IL-12. Conversely, IL-10 downregulates expression of many of these same genes and often antagonizes the effects of IFN-γ. IL-10 is known to inhibit TNF-α production in lipopolysaccharide (LPS)-stimulated monocytes; however, the effects of IL-10 on TNF receptor (TNF-R) expression are not well defined. We examined the effects of IL-10 on production of both membrane-associated (m) and soluble (s) TNF-R type II (sTNF-RII) by purified human CD14+ monocytes. We also compared the effects of IFN-γ and IL-10 on production of TNF-α and sTNF-RII by these cells. Monocytes constitutively expressed low levels of TNF-RII mRNA and mTNF-RII protein. LPS stimulation induced rapid, but transient loss (shedding) of mTNF-RII molecules and a delayed, but marked increase in TNF-RII mRNA levels. IL-10 increased expression of both mTNF-RII and sTNF-RII by LPS-stimulated monocytes, whereas IFN-γ decreased their expression. The increased levels of sTNF-RII in cultures of IL-10–treated monocytes correlated directly with increased levels of TNF-RII mRNA and inversely with the levels of TNF-α mRNA. The ability of IL-10 to upregulate TNF-RII gene expression was transcriptionally mediated because actinomycin D blocked this effect. Furthermore, IL-10 treatment did not alter the half-life of TNF-RII mRNA transcripts in LPS-stimulated monocytes. To further examine the mechanism by which IL-10 potentiates TNF-RII gene expression, a 1.8-kb fragment of the human TNF-RII promoter cloned into a luciferase expression vector (pGL2-basic) was transfected into the IL-10–responsive macrophage cell line, RAW264.7. Although IL-10 alone induced only minimal promoter activity in these cells, it markedly increased the LPS-induced response, providing further evidence that the ability of IL-10 to amplify TNF-RII gene expression is transcriptionally controlled. Together, these findings demonstrate that IL-10 coordinately downregulates expression of TNF-α and upregulates expression of TNF-RII, particularly the soluble form of this receptor, in monocytes. Interferon-γ (IFN-γ) upregulates expression of certain genes in monocytes, including cell-surface molecules such as HLA class II, B7, and ICAM-1. IFN-γ also potentiates production of cytokines such as tumor necrosis factor-α (TNF-α), interleukin-1β (IL-1β) and IL-12. Conversely, IL-10 downregulates expression of many of these same genes and often antagonizes the effects of IFN-γ. IL-10 is known to inhibit TNF-α production in lipopolysaccharide (LPS)-stimulated monocytes; however, the effects of IL-10 on TNF receptor (TNF-R) expression are not well defined. We examined the effects of IL-10 on production of both membrane-associated (m) and soluble (s) TNF-R type II (sTNF-RII) by purified human CD14+ monocytes. We also compared the effects of IFN-γ and IL-10 on production of TNF-α and sTNF-RII by these cells. Monocytes constitutively expressed low levels of TNF-RII mRNA and mTNF-RII protein. LPS stimulation induced rapid, but transient loss (shedding) of mTNF-RII molecules and a delayed, but marked increase in TNF-RII mRNA levels. IL-10 increased expression of both mTNF-RII and sTNF-RII by LPS-stimulated monocytes, whereas IFN-γ decreased their expression. The increased levels of sTNF-RII in cultures of IL-10–treated monocytes correlated directly with increased levels of TNF-RII mRNA and inversely with the levels of TNF-α mRNA. The ability of IL-10 to upregulate TNF-RII gene expression was transcriptionally mediated because actinomycin D blocked this effect. Furthermore, IL-10 treatment did not alter the half-life of TNF-RII mRNA transcripts in LPS-stimulated monocytes. To further examine the mechanism by which IL-10 potentiates TNF-RII gene expression, a 1.8-kb fragment of the human TNF-RII promoter cloned into a luciferase expression vector (pGL2-basic) was transfected into the IL-10–responsive macrophage cell line, RAW264.7. Although IL-10 alone induced only minimal promoter activity in these cells, it markedly increased the LPS-induced response, providing further evidence that the ability of IL-10 to amplify TNF-RII gene expression is transcriptionally controlled. Together, these findings demonstrate that IL-10 coordinately downregulates expression of TNF-α and upregulates expression of TNF-RII, particularly the soluble form of this receptor, in monocytes. |
| Author | Dickensheets, Harold L. Smith, Michael F. Donnelly, Raymond P. Freeman, Sherry L. |
| Author_xml | – sequence: 1 givenname: Harold L. surname: Dickensheets fullname: Dickensheets, Harold L. organization: Division of Cytokine Biology, Center for Biologics Evaluation and Research, Food and Drug Administration, Bethesda, MD – sequence: 2 givenname: Sherry L. surname: Freeman fullname: Freeman, Sherry L. organization: Division of Cytokine Biology, Center for Biologics Evaluation and Research, Food and Drug Administration, Bethesda, MD – sequence: 3 givenname: Michael F. surname: Smith fullname: Smith, Michael F. organization: Division of Cytokine Biology, Center for Biologics Evaluation and Research, Food and Drug Administration, Bethesda, MD – sequence: 4 givenname: Raymond P. surname: Donnelly fullname: Donnelly, Raymond P. email: donnelly@a1.cber.fda.gov organization: Division of Cytokine Biology, Center for Biologics Evaluation and Research, Food and Drug Administration, Bethesda, MD |
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| ContentType | Journal Article |
| Copyright | 1997 American Society of Hematology 1998 INIST-CNRS |
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| Issue | 10 |
| Keywords | Human Regulation(control) Monocyte Cytokine Interleukin 10 Stimulation Gene expression Tumor necrosis factor α Biological receptor |
| Language | English |
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| Snippet | Interferon-γ (IFN-γ) upregulates expression of certain genes in monocytes, including cell-surface molecules such as HLA class II, B7, and ICAM-1. IFN-γ also... Interferon-gamma (IFN-gamma) upregulates expression of certain genes in monocytes, including cell-surface molecules such as HLA class II, B7, and ICAM-1.... Abstract Interferon-γ (IFN-γ) upregulates expression of certain genes in monocytes, including cell-surface molecules such as HLA class II, B7, and ICAM-1.... |
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| SubjectTerms | Analysis of the immune response. Humoral and cellular immunity Biological and medical sciences Cell Adhesion Molecules - biosynthesis Cell Adhesion Molecules - genetics Cells, Cultured Endotoxins - pharmacology Fundamental and applied biological sciences. Psychology Fundamental immunology Gene Expression Regulation - drug effects Humans Immunobiology Interleukin-10 - pharmacology Lymphokines, interleukins ( function, expression) Monocytes - drug effects Monocytes - metabolism Receptors, Tumor Necrosis Factor - biosynthesis Receptors, Tumor Necrosis Factor - genetics Regulatory factors and their cellular receptors |
| Title | Interleukin-10 Upregulates Tumor Necrosis Factor Receptor Type-II (p75) Gene Expression in Endotoxin-Stimulated Human Monocytes |
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