Memory regulatory T cells reside in human skin
Regulatory T cells (Tregs), which are characterized by expression of the transcription factor Foxp3, are a dynamic and heterogeneous population of cells that control immune responses and prevent autoimmunity. We recently identified a subset of Tregs in murine skin with properties typical of memory c...
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| Published in | The Journal of clinical investigation Vol. 124; no. 3; pp. 1027 - 1036 |
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| Main Authors | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
American Society for Clinical Investigation
01.03.2014
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0021-9738 1558-8238 1558-8238 |
| DOI | 10.1172/JCI72932 |
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| Abstract | Regulatory T cells (Tregs), which are characterized by expression of the transcription factor Foxp3, are a dynamic and heterogeneous population of cells that control immune responses and prevent autoimmunity. We recently identified a subset of Tregs in murine skin with properties typical of memory cells and defined this population as memory Tregs (mTregs). Due to the importance of these cells in regulating tissue inflammation in mice, we analyzed this cell population in humans and found that almost all Tregs in normal skin had an activated memory phenotype. Compared with mTregs in peripheral blood, cutaneous mTregs had unique cell surface marker expression and cytokine production. In normal human skin, mTregs preferentially localized to hair follicles and were more abundant in skin with high hair density. Sequence comparison of TCRs from conventional memory T helper cells and mTregs isolated from skin revealed little homology between the two cell populations, suggesting that they recognize different antigens. Under steady-state conditions, mTregs were nonmigratory and relatively unresponsive; however, in inflamed skin from psoriasis patients, mTregs expanded, were highly proliferative, and produced low levels of IL-17. Taken together, these results identify a subset of Tregs that stably resides in human skin and suggest that these cells are qualitatively defective in inflammatory skin disease. |
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| AbstractList | Regulatory T cells (Tregs), which are characterized by expression of the transcription factor Foxp3, are a dynamic and heterogeneous population of cells that control immune responses and prevent autoimmunity. We recently identified a subset of Tregs in murine skin with properties typical of memory cells and defined this population as memory Tregs (mTregs). Due to the importance of these cells in regulating tissue inflammation in mice, we analyzed this cell population in humans and found that almost all Tregs in normal skin had an activated memory phenotype. Compared with mTregs in peripheral blood, cutaneous mTregs had unique cell surface marker expression and cytokine production. In normal human skin, mTregs preferentially localized to hair follicles and were more abundant in skin with high hair density. Sequence comparison of TCRs from conventional memory T helper cells and mTregs isolated from skin revealed little homology between the two cell populations, suggesting that they recognize different antigens. Under steady-state conditions, mTregs were nonmigratory and relatively unresponsive; however, in inflamed skin from psoriasis patients, mTregs expanded, were highly proliferative, and produced low levels of IL-17. Taken together, these results identify a subset of Tregs that stably resides in human skin and suggest that these cells are qualitatively defective in inflammatory skin disease.Regulatory T cells (Tregs), which are characterized by expression of the transcription factor Foxp3, are a dynamic and heterogeneous population of cells that control immune responses and prevent autoimmunity. We recently identified a subset of Tregs in murine skin with properties typical of memory cells and defined this population as memory Tregs (mTregs). Due to the importance of these cells in regulating tissue inflammation in mice, we analyzed this cell population in humans and found that almost all Tregs in normal skin had an activated memory phenotype. Compared with mTregs in peripheral blood, cutaneous mTregs had unique cell surface marker expression and cytokine production. In normal human skin, mTregs preferentially localized to hair follicles and were more abundant in skin with high hair density. Sequence comparison of TCRs from conventional memory T helper cells and mTregs isolated from skin revealed little homology between the two cell populations, suggesting that they recognize different antigens. Under steady-state conditions, mTregs were nonmigratory and relatively unresponsive; however, in inflamed skin from psoriasis patients, mTregs expanded, were highly proliferative, and produced low levels of IL-17. Taken together, these results identify a subset of Tregs that stably resides in human skin and suggest that these cells are qualitatively defective in inflammatory skin disease. Regulatory T cells (Tregs), which are characterized by expression of the transcription factor Foxp3, are a dynamic and heterogeneous population of cells that control immune responses and prevent autoimmunity. We recently identified a subset of Tregs in murine skin with properties typical of memory cells and defined this population as memory Tregs (mTregs). Due to the importance of these cells in regulating tissue inflammation in mice, we analyzed this cell population in humans and found that almost all Tregs in normal skin had an activated memory phenotype. Compared with mTregs in peripheral blood, cutaneous mTregs had unique cell surface marker expression and cytokine production. In normal human skin, mTregs preferentially localized to hair follicles and were more abundant in skin with high hair density. Sequence comparison of TCRs from conventional memory T helper cells and mTregs isolated from skin revealed little homology between the two cell populations, suggesting that they recognize different antigens. Under steady-state conditions, mTregs were nonmigratory and relatively unresponsive; however, in inflamed skin from psoriasis patients, mTregs expanded, were highly proliferative, and produced low levels of IL-17. Taken together, these results identify a subset of Tregs that stably resides in human skin and suggest that these cells are qualitatively defective in inflammatory skin disease. Regulatory T cells (Tregs), which are characterized by expression of the transcription factor Foxp3, are a dynamic and heterogeneous population of cells that control immune responses and prevent autoimmunity. We recently identified a subset of Tregs in murine skin with properties typical of memory cells and defined this population as memory Tregs (mTregs). Due to the importance of these cells in regulating tissue inflammation in mice, we analyzed this cell population in humans and found that almost all Tregs in normal skin had an activated memory phenotype. Compared with mTregs in peripheral blood, cutaneous mTregs had unique cell surface marker expression and cytokine production. In normal human skin, mTregs preferentially localized to hair follicles and were more abundant in skin with high hair density. Sequence comparison of TCRs from conventional memory T helper cells and mTregs isolated from skin revealed little homology between the two cell populations, suggesting that they recognize different antigens. |
| Audience | Academic |
| Author | Gratz, Iris K. Gupta, Rishu Yu, Siegrid S. Debbaneh, Maya G. Levin, Ethan C. Butler, Daniel Pauli, Mariela L. Sanchez Rodriguez, Robert Harris, Hobart W. McGrath, Mary H. Neuhaus, Isaac M. Alvarado, Michael D. Anthony, Bryan A. Hsu, Andro Yang, Sara Hsin-Yi Meyer, Everett H. Truong, Hong-An Arron, Sarah T. Huynh, Monica Abbas, Abul K. Rosenblum, Michael D. Liao, Wilson MacKenzie, Tippi C. Löhr, Andrea Hoffman, William Y. Leon, Argentina Ludwig, Connor H. Krow-Lucal, Elisabeth Koo, John Sverdrup, Francis M. Johnson, David S. Maurano, Megan M. |
| AuthorAffiliation | 1 Department of Dermatology, 2 Department of Surgery, and 3 Department of Pathology, UCSF, San Francisco, California, USA. 4 Department of Medicine, Washington University School of Medicine, Saint Louis, Missouri, USA. 5 Center for World Health and Medicine, Saint Louis University, Saint Louis, Missouri, USA. 6 Division of Experimental Medicine, Department of Medicine, and 7 Division of Pediatric Surgery, UCSF, San Francisco, California, USA. 8 GigaGen Inc., San Francisco, California, USA. 9 Syapse Inc., Palo Alto, California, USA. 10 Division of Plastic Surgery, UCSF, San Francisco, California, USA |
| AuthorAffiliation_xml | – name: 1 Department of Dermatology, 2 Department of Surgery, and 3 Department of Pathology, UCSF, San Francisco, California, USA. 4 Department of Medicine, Washington University School of Medicine, Saint Louis, Missouri, USA. 5 Center for World Health and Medicine, Saint Louis University, Saint Louis, Missouri, USA. 6 Division of Experimental Medicine, Department of Medicine, and 7 Division of Pediatric Surgery, UCSF, San Francisco, California, USA. 8 GigaGen Inc., San Francisco, California, USA. 9 Syapse Inc., Palo Alto, California, USA. 10 Division of Plastic Surgery, UCSF, San Francisco, California, USA |
| Author_xml | – sequence: 1 givenname: Robert surname: Sanchez Rodriguez fullname: Sanchez Rodriguez, Robert – sequence: 2 givenname: Mariela L. surname: Pauli fullname: Pauli, Mariela L. – sequence: 3 givenname: Isaac M. surname: Neuhaus fullname: Neuhaus, Isaac M. – sequence: 4 givenname: Siegrid S. surname: Yu fullname: Yu, Siegrid S. – sequence: 5 givenname: Sarah T. surname: Arron fullname: Arron, Sarah T. – sequence: 6 givenname: Hobart W. surname: Harris fullname: Harris, Hobart W. – sequence: 7 givenname: Sara Hsin-Yi surname: Yang fullname: Yang, Sara Hsin-Yi – sequence: 8 givenname: Bryan A. surname: Anthony fullname: Anthony, Bryan A. – sequence: 9 givenname: Francis M. surname: Sverdrup fullname: Sverdrup, Francis M. – sequence: 10 givenname: Elisabeth surname: Krow-Lucal fullname: Krow-Lucal, Elisabeth – sequence: 11 givenname: Tippi C. surname: MacKenzie fullname: MacKenzie, Tippi C. – sequence: 12 givenname: David S. surname: Johnson fullname: Johnson, David S. – sequence: 13 givenname: Everett H. surname: Meyer fullname: Meyer, Everett H. – sequence: 14 givenname: Andrea surname: Löhr fullname: Löhr, Andrea – sequence: 15 givenname: Andro surname: Hsu fullname: Hsu, Andro – sequence: 16 givenname: John surname: Koo fullname: Koo, John – sequence: 17 givenname: Wilson surname: Liao fullname: Liao, Wilson – sequence: 18 givenname: Rishu surname: Gupta fullname: Gupta, Rishu – sequence: 19 givenname: Maya G. surname: Debbaneh fullname: Debbaneh, Maya G. – sequence: 20 givenname: Daniel surname: Butler fullname: Butler, Daniel – sequence: 21 givenname: Monica surname: Huynh fullname: Huynh, Monica – sequence: 22 givenname: Ethan C. surname: Levin fullname: Levin, Ethan C. – sequence: 23 givenname: Argentina surname: Leon fullname: Leon, Argentina – sequence: 24 givenname: William Y. surname: Hoffman fullname: Hoffman, William Y. – sequence: 25 givenname: Mary H. surname: McGrath fullname: McGrath, Mary H. – sequence: 26 givenname: Michael D. surname: Alvarado fullname: Alvarado, Michael D. – sequence: 27 givenname: Connor H. surname: Ludwig fullname: Ludwig, Connor H. – sequence: 28 givenname: Hong-An surname: Truong fullname: Truong, Hong-An – sequence: 29 givenname: Megan M. surname: Maurano fullname: Maurano, Megan M. – sequence: 30 givenname: Iris K. surname: Gratz fullname: Gratz, Iris K. – sequence: 31 givenname: Abul K. surname: Abbas fullname: Abbas, Abul K. – sequence: 32 givenname: Michael D. surname: Rosenblum fullname: Rosenblum, Michael D. |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/24509084$$D View this record in MEDLINE/PubMed |
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| Notes | ObjectType-Article-2 SourceType-Scholarly Journals-1 ObjectType-Feature-1 content type line 14 ObjectType-Article-1 ObjectType-Feature-2 content type line 23 Authorship note: Robert Sanchez Rodriguez and Mariela L. Pauli contributed equally to this work. Michael D. Rosenblum and Abul K. Abbas contributed equally to this work. |
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| References | B20 B22 B23 B24 B25 B26 B27 B28 Rosenblum (B5) 2011; 480 B29 Clark (B9) 2006; 176 Cipolletta (B3) 2012; 486 Wong (B35) 2007; 178 Fazilleau (B32) 2007; 179 B30 B31 B10 B11 B33 B12 B34 B13 B36 B15 B37 B16 B38 B17 B18 B19 Rosenblum (B14) 2012; 4 B1 B2 Morgan (B21) 2005; 66 B4 B6 B7 B8 16879995 - Immunity. 2006 Aug;25(2):249-59 19696312 - Science. 2009 Aug 28;325(5944):1142-6 23389444 - Nature. 2013 Mar 7;495(7439):98-102 3043226 - Nature. 1988 Aug 4;334(6181):395-402 22121024 - Nature. 2011 Dec 22;480(7378):538-42 10537110 - Nature. 1999 Oct 14;401(6754):708-12 19464196 - Immunity. 2009 Jun 19;30(6):899-911 23543753 - J Immunol. 2013 May 1;190(9):4483-7 21757977 - Skin Pharmacol Physiol. 2011;24(6):305-11 19737784 - Int Immunol. 2009 Oct;21(10):1105-11 20231690 - J Immunol. 2010 Apr 15;184(8):4317-26 15620457 - Hum Immunol. 2005 Jan;66(1):13-20 22722857 - Nature. 2012 Jun 28;486(7404):549-53 17644734 - Blood. 2007 Oct 15;110(8):2983-90 20596022 - Nature. 2010 Jul 1;466(7302):113-7 19706884 - Blood. 2009 Nov 5;114(19):4099-107 16955142 - J Clin Invest. 2006 Sep;116(9):2423-33 21220773 - J Infect Dis. 2011 Mar 1;203(5):635-45 16968902 - Blood. 2007 Jan 1;109(1):194-202 22512484 - N Engl J Med. 2012 Apr 19;366(16):1515-25 16532000 - Nat Immunol. 2006 Apr;7(4):401-10 21654831 - J Invest Dermatol. 2011 Sep;131(9):1853-60 22458655 - Exp Dermatol. 2012 Jun;21(6):401-3 18573908 - J Exp Med. 2008 Jul 7;205(7):1559-65 17513752 - J Immunol. 2007 Jun 1;178(11):7032-41 23940277 - J Immunol. 2013 Sep 15;191(6):3049-56 16547281 - J Immunol. 2006 Apr 1;176(7):4431-9 23196741 - Clin Exp Med. 2014 Feb;14(1):91-7 22422994 - Sci Transl Med. 2012 Mar 14;4(125):125sr1 14981113 - J Exp Med. 2004 Mar 1;199(5):731-6 21205640 - Science. 2011 Jan 21;331(6015):337-41 22966003 - J Exp Med. 2012 Sep 24;209(10):1713-22, S1-19 17329235 - Int Immunol. 2007 Apr;19(4):345-54 23359320 - PLoS Pathog. 2013 Jan;9(1):e1003139 19648274 - J Immunol. 2009 Sep 1;183(5):3170-6 16244650 - Nat Immunol. 2005 Dec;6(12):1219-27 17785774 - J Immunol. 2007 Sep 15;179(6):3412-6 19633656 - Nat Med. 2009 Aug;15(8):930-9 24525839 - Nat Rev Immunol. 2014 Mar;14(3):136-7 |
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