Contribution of 4–1BBL on radioresistant cells in providing survival signals through 4–1BB expressed on CD8+ memory T cells in the bone marrow

The persistence of memory lymphocytes is a critical feature of adaptive immunity. The TNF family ligand 4–1BBL supports the antigen‐independent survival of CD8+ memory T cells. Here, we show that mice lacking 4–1BB only on αβ T cells show a similar defect in CD8+ T‐cell recall responses, as previous...

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Veröffentlicht in:	European journal of immunology 2012-11, Vol.42 (11), p.2861-2874
Hauptverfasser:	Lin, Gloria H. Y., Edele, Fanny, Mbanwi, Achire N., Wortzman, Michael E., Snell, Laura M., Vidric, Mariana, Roth, Katrin, Hauser, Anja E., Watts, Tania H.
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Sprache:	eng
Schlagworte:	4-1BB Ligand - genetics 4-1BB Ligand - immunology 4–1BB Adoptive Transfer Animals Bone marrow Bone Marrow Cells - cytology Bone Marrow Cells - immunology Bone Marrow Cells - radiation effects Bone marrow chimeras CD137 CD8+ T‐cell memory CD8-Positive T-Lymphocytes - cytology CD8-Positive T-Lymphocytes - immunology CD8-Positive T-Lymphocytes - radiation effects Female Flow Cytometry Immunohistochemistry Immunologic Memory - genetics Immunologic Memory - immunology Immunology Ligands Lymphocytes Male Mice Mice, Inbred C57BL Mice, Knockout Mice, Transgenic Orthomyxoviridae - immunology Orthomyxoviridae Infections - immunology Orthomyxoviridae Infections - virology Radiation Tolerance - immunology Receptors, Antigen, T-Cell, alpha-beta - immunology Reverse Transcriptase Polymerase Chain Reaction RNA, Viral - chemistry RNA, Viral - genetics Rodents Specific Pathogen-Free Organisms Stromal cells Transplantation Chimera Vascular Cell Adhesion Molecule-1 - immunology
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container_title	European journal of immunology
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creator	Lin, Gloria H. Y. Edele, Fanny Mbanwi, Achire N. Wortzman, Michael E. Snell, Laura M. Vidric, Mariana Roth, Katrin Hauser, Anja E. Watts, Tania H.
description	The persistence of memory lymphocytes is a critical feature of adaptive immunity. The TNF family ligand 4–1BBL supports the antigen‐independent survival of CD8+ memory T cells. Here, we show that mice lacking 4–1BB only on αβ T cells show a similar defect in CD8+ T‐cell recall responses, as previously shown in 4–1BBL‐deficient mice. We show that 4–1BB is selectively expressed on BM CD8+ but not CD4+ memory T cells of unimmunized mice. Its ligand, 4–1BBL, is found on VCAM‐1+ stromal cells, CD11c+ cells, and a Gr1lo myeloid population in unimmunized mice. Adoptive transfer of in vitro generated memory T cells into mice lacking 4–1BBL only on radioresistant cells recapitulates the defect in CD8+ T‐cell survival seen in the complete knockout mice, with smaller effects of 4–1BBL on hematopoietic cells. In BM, adoptively transferred DsRed CD8+ memory T cells are most often found in proximity to VCAM‐1+ cells or Gr1+ cells, followed by B220+ cells and to a much lesser extent near CD11c+ cells. Thus, a VCAM‐1+CD45− stromal cell is a plausible candidate for the radioresistant cell that provides 4–1BBL to CD8+ memory T cells in the BM.
doi_str_mv	10.1002/eji.201242503
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Y. ; Edele, Fanny ; Mbanwi, Achire N. ; Wortzman, Michael E. ; Snell, Laura M. ; Vidric, Mariana ; Roth, Katrin ; Hauser, Anja E. ; Watts, Tania H.</creator><creatorcontrib>Lin, Gloria H. Y. ; Edele, Fanny ; Mbanwi, Achire N. ; Wortzman, Michael E. ; Snell, Laura M. ; Vidric, Mariana ; Roth, Katrin ; Hauser, Anja E. ; Watts, Tania H.</creatorcontrib><description>The persistence of memory lymphocytes is a critical feature of adaptive immunity. The TNF family ligand 4–1BBL supports the antigen‐independent survival of CD8+ memory T cells. Here, we show that mice lacking 4–1BB only on αβ T cells show a similar defect in CD8+ T‐cell recall responses, as previously shown in 4–1BBL‐deficient mice. We show that 4–1BB is selectively expressed on BM CD8+ but not CD4+ memory T cells of unimmunized mice. Its ligand, 4–1BBL, is found on VCAM‐1+ stromal cells, CD11c+ cells, and a Gr1lo myeloid population in unimmunized mice. 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Y.</creatorcontrib><creatorcontrib>Edele, Fanny</creatorcontrib><creatorcontrib>Mbanwi, Achire N.</creatorcontrib><creatorcontrib>Wortzman, Michael E.</creatorcontrib><creatorcontrib>Snell, Laura M.</creatorcontrib><creatorcontrib>Vidric, Mariana</creatorcontrib><creatorcontrib>Roth, Katrin</creatorcontrib><creatorcontrib>Hauser, Anja E.</creatorcontrib><creatorcontrib>Watts, Tania H.</creatorcontrib><title>Contribution of 4–1BBL on radioresistant cells in providing survival signals through 4–1BB expressed on CD8+ memory T cells in the bone marrow</title><title>European journal of immunology</title><addtitle>Eur J Immunol</addtitle><description>The persistence of memory lymphocytes is a critical feature of adaptive immunity. The TNF family ligand 4–1BBL supports the antigen‐independent survival of CD8+ memory T cells. Here, we show that mice lacking 4–1BB only on αβ T cells show a similar defect in CD8+ T‐cell recall responses, as previously shown in 4–1BBL‐deficient mice. We show that 4–1BB is selectively expressed on BM CD8+ but not CD4+ memory T cells of unimmunized mice. Its ligand, 4–1BBL, is found on VCAM‐1+ stromal cells, CD11c+ cells, and a Gr1lo myeloid population in unimmunized mice. Adoptive transfer of in vitro generated memory T cells into mice lacking 4–1BBL only on radioresistant cells recapitulates the defect in CD8+ T‐cell survival seen in the complete knockout mice, with smaller effects of 4–1BBL on hematopoietic cells. In BM, adoptively transferred DsRed CD8+ memory T cells are most often found in proximity to VCAM‐1+ cells or Gr1+ cells, followed by B220+ cells and to a much lesser extent near CD11c+ cells. Thus, a VCAM‐1+CD45− stromal cell is a plausible candidate for the radioresistant cell that provides 4–1BBL to CD8+ memory T cells in the BM.</description><subject>4-1BB Ligand - genetics</subject><subject>4-1BB Ligand - immunology</subject><subject>4–1BB</subject><subject>Adoptive Transfer</subject><subject>Animals</subject><subject>Bone marrow</subject><subject>Bone Marrow Cells - cytology</subject><subject>Bone Marrow Cells - immunology</subject><subject>Bone Marrow Cells - radiation effects</subject><subject>Bone marrow chimeras</subject><subject>CD137</subject><subject>CD8+ T‐cell memory</subject><subject>CD8-Positive T-Lymphocytes - cytology</subject><subject>CD8-Positive T-Lymphocytes - immunology</subject><subject>CD8-Positive T-Lymphocytes - radiation effects</subject><subject>Female</subject><subject>Flow Cytometry</subject><subject>Immunohistochemistry</subject><subject>Immunologic Memory - genetics</subject><subject>Immunologic Memory - immunology</subject><subject>Immunology</subject><subject>Ligands</subject><subject>Lymphocytes</subject><subject>Male</subject><subject>Mice</subject><subject>Mice, Inbred C57BL</subject><subject>Mice, Knockout</subject><subject>Mice, Transgenic</subject><subject>Orthomyxoviridae - immunology</subject><subject>Orthomyxoviridae Infections - immunology</subject><subject>Orthomyxoviridae Infections - virology</subject><subject>Radiation Tolerance - immunology</subject><subject>Receptors, Antigen, T-Cell, alpha-beta - immunology</subject><subject>Reverse Transcriptase Polymerase Chain Reaction</subject><subject>RNA, Viral - chemistry</subject><subject>RNA, Viral - genetics</subject><subject>Rodents</subject><subject>Specific Pathogen-Free Organisms</subject><subject>Stromal cells</subject><subject>Transplantation Chimera</subject><subject>Vascular Cell Adhesion Molecule-1 - immunology</subject><issn>0014-2980</issn><issn>1521-4141</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2012</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNpdkctOwzAQRS0EgvJYskWW2CChgMeZxMmSlrcqsYF15CRO66qJi520dMc3wB_yJbiiBYmVbc3Rke9cQo6BXQBj_FJN9AVnwJFHLNwiPYg4BAgI26THGGDA04TtkX3nJoyxNI7SXbLHeZLEIoUe-RiYprU671ptGmoqil_vn9DvD6l_WllqY5XTrpVNSws1nTqqGzqzZq5L3Yyo6-xcz-WUOj1qpJ-2Y2u60Xijoept5gVOlSvf4Do5p7WqjV3S5z9dO1Y0N42itbTWLA7JTuVV6mh9HpCX25vnwX0wfLp7GFwNg1nIQQQyjnklBReAiAxyUWCeo4orWSIAoICyikrFRAkQpmmBKkw5L6oCk6pCTMIDcvbj9XFeO-XarNZu9SnZKNO5DPxSRRRFTHj09B86MZ1dBfZUKhBEGHFPnaypLq9Vmc2s9omW2WbbHuA_wEJP1fJ3DixbVZn5KrPfKrObxwd_E-E3uXCRmw</recordid><startdate>201211</startdate><enddate>201211</enddate><creator>Lin, Gloria H. Y.</creator><creator>Edele, Fanny</creator><creator>Mbanwi, Achire N.</creator><creator>Wortzman, Michael E.</creator><creator>Snell, Laura M.</creator><creator>Vidric, Mariana</creator><creator>Roth, Katrin</creator><creator>Hauser, Anja E.</creator><creator>Watts, Tania H.</creator><general>Wiley Subscription Services, Inc</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>7QP</scope><scope>7T5</scope><scope>7TK</scope><scope>7TM</scope><scope>8FD</scope><scope>FR3</scope><scope>H94</scope><scope>K9.</scope><scope>M7N</scope><scope>P64</scope><scope>RC3</scope><scope>7X8</scope></search><sort><creationdate>201211</creationdate><title>Contribution of 4–1BBL on radioresistant cells in providing survival signals through 4–1BB expressed on CD8+ memory T cells in the bone marrow</title><author>Lin, Gloria H. Y. ; Edele, Fanny ; Mbanwi, Achire N. ; Wortzman, Michael E. ; Snell, Laura M. ; Vidric, Mariana ; Roth, Katrin ; Hauser, Anja E. ; Watts, Tania H.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-p3217-a662fa727144401b7c4bb4e6fad4111471df5de07d11399c4e3922cfc48ff4483</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2012</creationdate><topic>4-1BB Ligand - genetics</topic><topic>4-1BB Ligand - immunology</topic><topic>4–1BB</topic><topic>Adoptive Transfer</topic><topic>Animals</topic><topic>Bone marrow</topic><topic>Bone Marrow Cells - cytology</topic><topic>Bone Marrow Cells - immunology</topic><topic>Bone Marrow Cells - radiation effects</topic><topic>Bone marrow chimeras</topic><topic>CD137</topic><topic>CD8+ T‐cell memory</topic><topic>CD8-Positive T-Lymphocytes - cytology</topic><topic>CD8-Positive T-Lymphocytes - immunology</topic><topic>CD8-Positive T-Lymphocytes - radiation effects</topic><topic>Female</topic><topic>Flow Cytometry</topic><topic>Immunohistochemistry</topic><topic>Immunologic Memory - genetics</topic><topic>Immunologic Memory - immunology</topic><topic>Immunology</topic><topic>Ligands</topic><topic>Lymphocytes</topic><topic>Male</topic><topic>Mice</topic><topic>Mice, Inbred C57BL</topic><topic>Mice, Knockout</topic><topic>Mice, Transgenic</topic><topic>Orthomyxoviridae - immunology</topic><topic>Orthomyxoviridae Infections - immunology</topic><topic>Orthomyxoviridae Infections - virology</topic><topic>Radiation Tolerance - immunology</topic><topic>Receptors, Antigen, T-Cell, alpha-beta - immunology</topic><topic>Reverse Transcriptase Polymerase Chain Reaction</topic><topic>RNA, Viral - chemistry</topic><topic>RNA, Viral - genetics</topic><topic>Rodents</topic><topic>Specific Pathogen-Free Organisms</topic><topic>Stromal cells</topic><topic>Transplantation Chimera</topic><topic>Vascular Cell Adhesion Molecule-1 - immunology</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Lin, Gloria H. Y.</creatorcontrib><creatorcontrib>Edele, Fanny</creatorcontrib><creatorcontrib>Mbanwi, Achire N.</creatorcontrib><creatorcontrib>Wortzman, Michael E.</creatorcontrib><creatorcontrib>Snell, Laura M.</creatorcontrib><creatorcontrib>Vidric, Mariana</creatorcontrib><creatorcontrib>Roth, Katrin</creatorcontrib><creatorcontrib>Hauser, Anja E.</creatorcontrib><creatorcontrib>Watts, Tania H.</creatorcontrib><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>Calcium & Calcified Tissue Abstracts</collection><collection>Immunology Abstracts</collection><collection>Neurosciences Abstracts</collection><collection>Nucleic Acids Abstracts</collection><collection>Technology Research Database</collection><collection>Engineering Research Database</collection><collection>AIDS and Cancer Research Abstracts</collection><collection>ProQuest Health & Medical Complete (Alumni)</collection><collection>Algology Mycology and Protozoology Abstracts (Microbiology C)</collection><collection>Biotechnology and BioEngineering Abstracts</collection><collection>Genetics Abstracts</collection><collection>MEDLINE - Academic</collection><jtitle>European journal of immunology</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Lin, Gloria H. Y.</au><au>Edele, Fanny</au><au>Mbanwi, Achire N.</au><au>Wortzman, Michael E.</au><au>Snell, Laura M.</au><au>Vidric, Mariana</au><au>Roth, Katrin</au><au>Hauser, Anja E.</au><au>Watts, Tania H.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Contribution of 4–1BBL on radioresistant cells in providing survival signals through 4–1BB expressed on CD8+ memory T cells in the bone marrow</atitle><jtitle>European journal of immunology</jtitle><addtitle>Eur J Immunol</addtitle><date>2012-11</date><risdate>2012</risdate><volume>42</volume><issue>11</issue><spage>2861</spage><epage>2874</epage><pages>2861-2874</pages><issn>0014-2980</issn><eissn>1521-4141</eissn><coden>EJIMAF</coden><abstract>The persistence of memory lymphocytes is a critical feature of adaptive immunity. The TNF family ligand 4–1BBL supports the antigen‐independent survival of CD8+ memory T cells. Here, we show that mice lacking 4–1BB only on αβ T cells show a similar defect in CD8+ T‐cell recall responses, as previously shown in 4–1BBL‐deficient mice. We show that 4–1BB is selectively expressed on BM CD8+ but not CD4+ memory T cells of unimmunized mice. Its ligand, 4–1BBL, is found on VCAM‐1+ stromal cells, CD11c+ cells, and a Gr1lo myeloid population in unimmunized mice. Adoptive transfer of in vitro generated memory T cells into mice lacking 4–1BBL only on radioresistant cells recapitulates the defect in CD8+ T‐cell survival seen in the complete knockout mice, with smaller effects of 4–1BBL on hematopoietic cells. In BM, adoptively transferred DsRed CD8+ memory T cells are most often found in proximity to VCAM‐1+ cells or Gr1+ cells, followed by B220+ cells and to a much lesser extent near CD11c+ cells. Thus, a VCAM‐1+CD45− stromal cell is a plausible candidate for the radioresistant cell that provides 4–1BBL to CD8+ memory T cells in the BM.</abstract><cop>Germany</cop><pub>Wiley Subscription Services, Inc</pub><pmid>22886791</pmid><doi>10.1002/eji.201242503</doi><tpages>14</tpages><oa>free_for_read</oa></addata></record>
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subjects	4-1BB Ligand - genetics 4-1BB Ligand - immunology 4–1BB Adoptive Transfer Animals Bone marrow Bone Marrow Cells - cytology Bone Marrow Cells - immunology Bone Marrow Cells - radiation effects Bone marrow chimeras CD137 CD8+ T‐cell memory CD8-Positive T-Lymphocytes - cytology CD8-Positive T-Lymphocytes - immunology CD8-Positive T-Lymphocytes - radiation effects Female Flow Cytometry Immunohistochemistry Immunologic Memory - genetics Immunologic Memory - immunology Immunology Ligands Lymphocytes Male Mice Mice, Inbred C57BL Mice, Knockout Mice, Transgenic Orthomyxoviridae - immunology Orthomyxoviridae Infections - immunology Orthomyxoviridae Infections - virology Radiation Tolerance - immunology Receptors, Antigen, T-Cell, alpha-beta - immunology Reverse Transcriptase Polymerase Chain Reaction RNA, Viral - chemistry RNA, Viral - genetics Rodents Specific Pathogen-Free Organisms Stromal cells Transplantation Chimera Vascular Cell Adhesion Molecule-1 - immunology
title	Contribution of 4–1BBL on radioresistant cells in providing survival signals through 4–1BB expressed on CD8+ memory T cells in the bone marrow
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