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词条 Natural killer T cell
释义

  1. Nomenclature

  2. Molecular characterization

  3. Classification

  4. Invariant NKT (iNKT) cells

  5. Function

  6. Significance

  7. See also

  8. References

  9. External links

{{Distinguish|Natural killer cell|Killer T cell}}

Natural killer T (NKT) cells are a heterogeneous group of T cells that share properties of both T cells and natural killer cells. Many of these cells recognize the non-polymorphic CD1d molecule, an antigen-presenting molecule that binds self and foreign lipids and glycolipids. They constitute only approximately 0.1% of all peripheral blood T cells.[1] Natural killer T cells should not be confused with natural killer cells.

Nomenclature

The term "NK T cells" was first used in mice to define a subset of T cells that expressed the natural killer (NK) cell-associated marker NK1.1 (CD161). It is now generally accepted that the term "NKT cells" refers to CD1d-restricted T cells, present in mice and humans, some of which coexpress a heavily biased, semi-invariant T-cell receptor and NK cell markers.[2]

Molecular characterization

NKT cells are a subset of T cells that coexpress an αβ T-cell receptor, but also express a variety of molecular markers that are typically associated with NK cells, such as NK1.1. The best-known NKT cells differ from conventional αβ T cells in that their T-cell receptors are far more limited in diversity ('invariant' or 'type 1' NKT). They and other CD1d-restricted T cells ('type 2' NKT) recognize lipids and glycolipids presented by CD1d molecules, a member of the CD1 family of antigen-presenting molecules, rather than peptide-major histocompatibility complexes (MHCs). As such, NKT cells are important in recognizing glycolipids from organisms such as Mycobacterium, which causes tuberculosis.

NKT cells include both NK1.1+ and NK1.1, as well as CD4+, CD4, CD8+ and CD8 cells. Natural killer T cells can share other features with NK cells, as well, such as CD16 and CD56 expression and granzyme production.[3][4]

Invariant natural killer T (iNKT) cells express high levels of and are dependent on the transcriptional regulator promyelocytic leukemia zinc finger for their development.[5][6]

Classification

Classification of natural killer T cells into three groups has been proposed:[2]

Type 1 NKTType 2 NKTNKT-like
Other names classical NKT
invariant NKT (iNKT)
Vα14i NKT (mouse)
Vα24i NKT (human)
non-classical NKT
diverse NKT
NK1.1+ T cells
CD3+ CD56+ T cells
Restriction CD1d CD1d MHC, other?
α-GalCer
reactivity
+ - -
T-cell-receptor repertoire Vα14-Jα18:
Vβ8.2, 7, 2 (mouse)
Vα24-Jα18:
Vβ11 (human)
diverse diverse

Invariant NKT (iNKT) cells

The best-known subset of CD1d-dependent NKT cells expresses an invariant T-cell receptor (TCR) α chain. These are referred to as type I or invariant NKT cells (iNKT) cells. They are notable for their ability to respond rapidly to danger signals and pro-inflammatory cytokines. Once activated, they engage in effector functions, like NK transactivation, T cell activation and differentiation, B cell activation, dendritic cell activation and cross-presentation activity, and macrophage activation.

iNKT cells recognize lipid antigens presented by CD1d, a non-polymorphic major histocompatibility complex class I-like antigen presenting molecule. These cells are conserved between humans and mice.The highly conserved TCR is made of Va24-Ja18 paired with Vb11 in humans, which is specific for glycolipid antigens.[7] The best known antigen of iNKT cells is alpha-galactosylceramide(αGalCer), which is a synthetic form of a chemical purified from the deep sea sponge Agelas Mauritanius.[8] iNKT cells develop in the thymus, and distribute to the periphery. They are most commonly found in the liver, but are also found in the thymus, spleen, peripheral blood, bone marrow and fat tissue. In comparison to mice, humans have fewer iNKT cells and have a wide variation in the amount of circulating iNKT cells.[7]

Currently, there are five major distinct iNKT cell subsets. These subset cells produce a different set of cytokines once activated. The subtypes iNKT1, iNKT2 and iNKT17 mirror Th Cell subsets in cytokine production. In addition there are subtypes specialized in T follicular helper-like function and Il-10 dependent regulatory functions.[9] Once activated iNKT cells can impact the type and strength of an immune response. They engage in cross talk with other immune cells, like dendritic cells, neutrophils and lymphocytes.[10] Activation occurs by engagement with their invariant TCR. iNKT cells can also be indirectly activated through cytokine signaling.[7]

While iNKT cells are not very numerous, their unique properties makes them an important regulatory cell that can influence how the immune system develops.[11] They are known to play a role in chronic inflammatory diseases like autoimmune disease, asthma and metabolic syndrome. In human autoimmune diseases, their numbers are decreased in peripheral blood. It is not clear whether this is a cause or effect of the disease. Absence of microbe exposure in early development led to increased iNKT cells and immune morbidity in a mouse model.[12]

Function

Upon activation, NKT cells are able to produce large quantities of interferon gamma, IL-4, and granulocyte-macrophage colony-stimulating factor, as well as multiple other cytokines and chemokines (such as IL-2, Interleukin-13, Interleukin-17, Interleukin-21, and TNF-alpha).

Natural Killer T (NKT) cells recognize protected microbial lipid agents which are presented by CD1d-expressing antigen presenting cells. This serves as a pathway for NKT cells to fight against infections and enhance the humoral immunity. The NKT cells provide support and help to B cells which act as a microbial defense and aid in targeting for B-cell vaccines. [13]

Significance

NKT cells seem to be essential for several aspects of immunity because their dysfunction or deficiency has been shown to lead to the development of autoimmune diseases (such as diabetes or atherosclerosis) and cancers. NKT cells have recently been implicated in the disease progression of human asthma.[14]

The clinical potential of NKT cells lies in the rapid release of cytokines (such as IL-2, IFN-gamma, TNF-alpha, and IL-4) that promote or suppress different immune responses.

Most clinical trials with NKT cells have been performed with cytokine-induced killer cells (CIK).[15]

See also

  • Cytotoxic T cell (killer T cell)

References

1. ^{{cite journal | last = Jerud | first = ES |author2=Bricard G |author3=Porcelli SA | year = 2006 | title = Natural Killer T cells: Roles in Tumor Immunosurveillance and Tolerance | journal = Transfus. Med. Hemother. | volume = 33 | issue = 1 | pages = 18–36 | doi = 10.1159/000090193}}
2. ^{{cite journal | last = Godfrey | first = DI |author2=MacDonald HR |author3=Kronenberg M |author4=Smyth MJ |author5=Van Kaer L | year = 2004 | title = NKT cells: what's in a name? | journal = Nat. Rev. Immunol. | volume = 4 | pages = 231–7 | doi = 10.1038/nri1309 | pmid = 15039760 | issue = 3}}
3. ^{{cite journal | last = Van der Vliet | first = HJ |author2=Nishi N |author3=Koezuka Y |author4=Peyrat MA |author5=Von Blomberg BM |author6=Van den Eertwegh AJ |author7=Pinedo HM |author8=Giaccone G |author9=Scheper RJ | year = 1999 | title = Effects of alphagalactosylceramide (KRN7000), interleukin-12 and interleukin-7 on phenotype and cytokine profile of human Va24+ Vb11+ T cells | journal = Immunology | volume = 98 | pages = 557–563 | doi = 10.1046/j.1365-2567.1999.00920.x | pmid = 10594688 | issue = 4 | pmc = 2326955}}
4. ^{{cite journal | last = Vivier | first = E |author2=Anfossi N | year = 2004 | title = Inhibitory NK-cell receptors on T cells. Witness of the past, actors of the future. | journal = Nat Rev Immunol | volume = 4 | pages = 190–198 | doi = 10.1038/nri1306 | pmid = 15039756 | issue = 3}}
5. ^{{cite journal |vauthors=Kovalovsky D, Uche OU, etal |title=The BTB-zinc finger transcriptional regulator PLZF controls the development of invariant natural killer T cell effector functions. |journal=Nature Immunology |volume=9 |issue=9 |pages=1055–64 |date=Sep 2008 |doi=10.1038/ni.1641 |pmid=18660811 |pmc=2662733}}
6. ^{{cite journal |vauthors=Savage AK, Constantinides MG, etal |title=The transcription factor PLZF directs the effector program of the NKT cell lineage. |journal=Immunity |volume=29 |issue=3 |pages=391–403 |date=Sep 2008 |doi=10.1016/j.immuni.2008.07.011 |pmid=18703361 |pmc=2613001}}
7. ^{{Cite journal|title = Invariant natural killer T cells: an innate activation scheme linked to diverse effector functions|journal = Nature Reviews Immunology|date = 2013-02-01|issn = 1474-1733|pages = 101–117|volume = 13|issue = 2|doi = 10.1038/nri3369|pmid = 23334244|language = en|first = Patrick J.|last = Brennan|first2 = Manfred|last2 = Brigl|first3 = Michael B.|last3 = Brenner}}
8. ^{{Cite journal|title = CD1d-restricted and TCR-mediated activation of valpha14 NKT cells by glycosylceramides|journal = Science|date = 1997-11-28|issn = 0036-8075|pmid = 9374463|pages = 1626–1629|volume = 278|issue = 5343|first = T.|last = Kawano|first2 = J.|last2 = Cui|first3 = Y.|last3 = Koezuka|first4 = I.|last4 = Toura|first5 = Y.|last5 = Kaneko|first6 = K.|last6 = Motoki|first7 = H.|last7 = Ueno|first8 = R.|last8 = Nakagawa|first9 = H.|last9 = Sato|doi=10.1126/science.278.5343.1626}}
9. ^{{Cite journal|title = Development of invariant natural killer T cells|journal = Current Opinion in Immunology|date = 2016-01-20|issn = 1879-0372|pmid = 26802287|pages = 68–74|volume = 39|doi = 10.1016/j.coi.2016.01.001|first = Laurent|last = Gapin|pmc = 4801673}}
10. ^{{Cite journal|title = Presumed guilty: natural killer T cell defects and human disease|journal = Nature Reviews Immunology|date = 2011-02-01|issn = 1474-1733|pages = 131–142|volume = 11|issue = 2|doi = 10.1038/nri2904|pmid = 21267014|language = en|first = Stuart P.|last = Berzins|first2 = Mark J.|last2 = Smyth|first3 = Alan G.|last3 = Baxter}}
11. ^{{Cite journal|title = Invariant natural killer T cells as sensors and managers of inflammation|journal = Trends in Immunology|date = 2013-02-01|pmc = 3615427|pmid = 23017731|pages = 50–58|volume = 34|issue = 2|doi = 10.1016/j.it.2012.08.009|first = Luc|last = Van Kaer|first2 = Vrajesh V.|last2 = Parekh|first3 = Lan|last3 = Wu}}
12. ^{{Cite journal|title = Microbial Exposure During Early Life Has Persistent Effects on Natural Killer T Cell Function|journal = Science|date = 2012-04-27|issn = 0036-8075|pmc = 3437652|pmid = 22442383|pages = 489–493|volume = 336|issue = 6080|doi = 10.1126/science.1219328|first = Torsten|last = Olszak|first2 = Dingding|last2 = An|first3 = Sebastian|last3 = Zeissig|first4 = Miguel Pinilla|last4 = Vera|first5 = Julia|last5 = Richter|first6 = Andre|last6 = Franke|first7 = Jonathan N.|last7 = Glickman|first8 = Reiner|last8 = Siebert|first9 = Rebecca M.|last9 = Baron}}
13. ^{{Cite journal|title=Natural killer T (NKT)–B-cell interactions promote prolonged antibody responses and long-term memory to pneumococcal capsular polysaccharides on JSTOR|journal=Proceedings of the National Academy of Sciences of the United States of America|volume=110|issue=40|pages=16097–16102|language=en|jstor = 23749719|last1 = Bai|first1 = Li|last2=Deng|first2=Shenglou|last3=Reboulet|first3=Rachel|last4=Mathew|first4=Rebecca|last5=Teytone|first5=Luc|last6=Savage|first6=Paul B.|last7=Bendelac|first7=Albert|year=2013|doi=10.1073/pnas.1303218110|pmid=24043771|pmc=3791701}}
14. ^Cromie, William J. Researchers uncover cause of asthma {{webarchive|url=https://web.archive.org/web/20060405004234/http://www.news.harvard.edu/gazette/2006/03.16/01-asthma.html |date=2006-04-05 }} Harvard University Gazette, March 16, 2006.
15. ^Schmeel LC, Schmeel FC, Coch C, Schmidt-Wolf IG. [https://www.ncbi.nlm.nih.gov/pubmed/25381063 Cytokine-induced killer cell (CIK) in cancer immunotherapy: report of the international registry on CIK cells (IRCC)]. J Cancer Res Clin Oncol. 2014 Nov 8. {{doi|10.1007/s00432-014-1864-3}}. {{PMID|25381063}}.

External links

  • [https://web.archive.org/web/20071104005726/http://www.nkcells.info/wiki/index.php?title=NKT_cell#References NKT cell Journal Screening]
  • Nature glossary on murine NKT cells
  • Nature Reviews Web Focus on regulatory lymphocytes
{{Lymphocytes}}{{Immune_system}}

2 : T cells|Human cells

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