The developing immune network in human prenatal skin

被引:13
作者
Botting, Rachel Anne [1 ]
Haniffa, Muzlifah [1 ,2 ,3 ,4 ]
机构
[1] Newcastle Univ, Fac Med Sci, Biosci Inst, Newcastle Upon Tyne, Tyne & Wear, England
[2] Wellcome Sanger Inst, Hinxton, England
[3] Newcastle Hosp NHS Fdn Trust, Dept Dermatol, Newcastle Upon Tyne, Tyne & Wear, England
[4] Newcastle Hosp NHS Fdn Trust, NIHR Newcastle Biomed Res Ctr, Newcastle Upon Tyne, Tyne & Wear, England
来源
IMMUNOLOGY | 2020年 / 160卷 / 02期
关键词
haematopoiesis; immune homeostasis; regulation; suppression; skin; INNATE LYMPHOID-CELLS; REGULATORY T-CELLS; LANGERHANS CELLS; FETAL SKIN; DENDRITIC CELLS; STEADY-STATE; MAST-CELLS; STEM-CELLS; TGF-BETA; RESIDENT;
D O I
10.1111/imm.13192
中图分类号
R392 [医学免疫学]; Q939.91 [免疫学];
学科分类号
100102 ;
摘要
Establishment of a well-functioning immune network in skin is crucial for its barrier function. This begins in utero alongside the structural differentiation and maturation of skin, and continues to expand and diversify across the human lifespan. The microenvironment of the developing human skin supports immune cell differentiation and has an overall anti-inflammatory profile. Immunologically inert and skewed immune populations found in developing human skin promote wound healing, and as such may play a crucial role in the structural changes occurring during skin development.
引用
收藏
页码:149 / 156
页数:8
相关论文
共 90 条
  • [1] Regulatory T Cells in Skin Facilitate Epithelial Stem Cell Differentiation
    Ali, Niwa
    Zirak, Bahar
    Rodriguez, Robert Sanchez
    Pauli, Mariela L.
    Hong-An Truong
    Lai, Kevin
    Ahn, Richard
    Corbin, Kaitlin
    Lowe, Margaret M.
    Scharschmidt, Tiffany C.
    Taravati, Keyon
    Tan, Madeleine R.
    Ricardo-Gonzalez, Roberto R.
    Nosbaum, Audrey
    Bertolini, Marta
    Liao, Wilson
    Nestle, Frank O.
    Paus, Ralf
    Cotsarelis, George
    Abbas, Abul K.
    Rosenblum, Michael D.
    [J]. CELL, 2017, 169 (06) : 1119 - +
  • [2] [Anonymous], 2015, Langmans Medical Embryology
  • [3] Epidermal receptor activator of NF-κB ligand controls Langerhans cells numbers and proliferation
    Barbaroux, Jean-Baptiste O.
    Beleut, Manfred
    Brisken, Cathrin
    Mueller, Christopher G.
    Groves, Richard W.
    [J]. JOURNAL OF IMMUNOLOGY, 2008, 181 (02) : 1103 - 1108
  • [4] Capucha T, 2015, IMMUNITY, V43, P369, DOI 10.1016/j.immuni.2015.06.017
  • [5] Carlson B.M., 2014, Human Embryology and Developmental Biology
  • [6] Macrophages Contribute to the Cyclic Activation of Adult Hair Follicle Stem Cells
    Castellana, Donatello
    Paus, Ralf
    Perez-Moreno, Mirna
    [J]. PLOS BIOLOGY, 2014, 12 (12)
  • [7] Langerhans cells are generated by two distinct PU.1-dependent transcriptional networks
    Chopin, Michael
    Seillet, Cyril
    Chevrier, Stephane
    Wu, Li
    Wang, Hongsheng
    Morse, Herbert C., III
    Belz, Gabrielle T.
    Nutt, Stephen L.
    [J]. JOURNAL OF EXPERIMENTAL MEDICINE, 2013, 210 (13) : 2967 - 2980
  • [8] Langerhans cell (LC) proliferation mediates neonatal development, homeostasis, and inflammation-associated expansion of the epidermal LC network
    Chorro, Laurent
    Sarde, Aurelien
    Li, Mei
    Woollard, Kevin J.
    Chambon, Pierre
    Malissen, Bernard
    Kissenpfennig, Adrien
    Barbaroux, Jean-Baptiste
    Groves, Richard
    Geissmann, Frederic
    [J]. JOURNAL OF EXPERIMENTAL MEDICINE, 2009, 206 (13) : 3089 - 3100
  • [9] The vast majority of CLA+ T cells are resident in normal skin
    Clark, Rachael A.
    Chong, Benjamin
    Mirchandani, Nina
    Brinster, Nooshin K.
    Yamanaka, Kei-ichi
    Dowgiert, Rebecca K.
    Kupper, Thomas S.
    [J]. JOURNAL OF IMMUNOLOGY, 2006, 176 (07) : 4431 - 4439
  • [10] The fate of human Langerhans cells in hematopoietic stem cell transplantation
    Collin, MP
    Hart, DNJ
    Jackson, GH
    Cook, G
    Cavet, J
    Mackinnon, S
    Middleton, PG
    Dickinson, AM
    [J]. JOURNAL OF EXPERIMENTAL MEDICINE, 2006, 203 (01) : 27 - 33
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