Literature DB >> 18493987

Selective activation, expansion, and monitoring of human iNKT cells with a monoclonal antibody specific for the TCR alpha-chain CDR3 loop.

Mark A Exley1, Runhua Hou, Angela Shaulov, Elena Tonti, Paolo Dellabona, Giulia Casorati, Omid Akbari, H Orhan Akman, Edward A Greenfield, Jenny E Gumperz, Jonathan E Boyson, Steven P Balk, S Brian Wilson.   

Abstract

A significant fraction of CD1d-restricted T cells express an invariant T cell receptor (TCR) alpha-chain. These highly conserved invariant NKT (iNKT) populations are important regulators of a wide spectrum of immune responses. The ability to directly identify and manipulate iNKT cells is essential to understanding their function and to exploit their therapeutic potential. To this end, we sought monoclonal and polyclonal antibodies specific for iNKT cells by immunizing CD1d KO mice, which lack iNKT cells, with a cyclic peptide modeled after the TCRalpha CDR3 loop. One mAb (6B11) was specific for cloned and primary human but not rodent iNKT cells and the human invariant TCRalpha, as shown by transfection and reactivity with human invariant TCRalpha transgenic T cells ex vivo and in situ. 6B11 was utilized to identify, purify, and expand iNKT cells from an otherwise minor component of human peripheral blood lymphocytes and to specifically identify human iNKT cells in tissue. Thus, we report a novel and general strategy for the generation of mAb specific for the CDR3 loop encoded by the TCR of interest. Specifically, an anti-Valpha24Jalpha18 CDR3 loop clonotypic TCR mAb is available for the enumeration and therapeutic manipulation of human and non-human primate iNKT populations.

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Year:  2008        PMID: 18493987      PMCID: PMC2864538          DOI: 10.1002/eji.200737389

Source DB:  PubMed          Journal:  Eur J Immunol        ISSN: 0014-2980            Impact factor:   5.532


  54 in total

1.  The structure and stability of an HLA-A*0201/octameric tax peptide complex with an empty conserved peptide-N-terminal binding site.

Authors:  A R Khan; B M Baker; P Ghosh; W E Biddison; D C Wiley
Journal:  J Immunol       Date:  2000-06-15       Impact factor: 5.422

Review 2.  NKT cells: facts, functions and fallacies.

Authors:  D I Godfrey; K J Hammond; L D Poulton; M J Smyth; A G Baxter
Journal:  Immunol Today       Date:  2000-11

3.  CD1d on myeloid dendritic cells stimulates cytokine secretion from and cytolytic activity of V alpha 24J alpha Q T cells: a feedback mechanism for immune regulation.

Authors:  O O Yang; F K Racke; P T Nguyen; R Gausling; M E Severino; H F Horton; M C Byrne; J L Strominger; S B Wilson
Journal:  J Immunol       Date:  2000-10-01       Impact factor: 5.422

Review 4.  Gene expression in NKT cells: defining a functionally distinct CD1d-restricted T cell subset.

Authors:  S B Wilson; M C Byrne
Journal:  Curr Opin Immunol       Date:  2001-10       Impact factor: 7.486

5.  Invariant natural killer T cells in asthma and chronic obstructive pulmonary disease.

Authors:  Pandurangan Vijayanand; Grégory Seumois; Chris Pickard; Robert M Powell; Gilbert Angco; David Sammut; Stephan D Gadola; Peter S Friedmann; Ratko Djukanovic
Journal:  N Engl J Med       Date:  2007-04-05       Impact factor: 91.245

6.  Potent expansion of human natural killer T cells using alpha-galactosylceramide (KRN7000)-loaded monocyte-derived dendritic cells, cultured in the presence of IL-7 and IL-15.

Authors:  N Nishi; Y Koezuka; S A Porcelli; H M Pinedo; R J Scheper; G Giaccone
Journal:  J Immunol Methods       Date:  2001-01-01       Impact factor: 2.303

7.  Circulating V(alpha24+) Vbeta11+ NKT cell numbers are decreased in a wide variety of diseases that are characterized by autoreactive tissue damage.

Authors:  H J van der Vliet; B M von Blomberg; N Nishi; M Reijm; A E Voskuyl; A A van Bodegraven; C H Polman; T Rustemeyer; P Lips; A J van den Eertwegh; G Giaccone; R J Scheper; H M Pinedo
Journal:  Clin Immunol       Date:  2001-08       Impact factor: 3.969

8.  Antitumor cytotoxicity mediated by ligand-activated human V alpha24 NKT cells.

Authors:  T Kawano; T Nakayama; N Kamada; Y Kaneko; M Harada; N Ogura; Y Akutsu; S Motohashi; T Iizasa; H Endo; T Fujisawa; H Shinkai; M Taniguchi
Journal:  Cancer Res       Date:  1999-10-15       Impact factor: 12.701

9.  Loss of IFN-gamma production by invariant NK T cells in advanced cancer.

Authors:  S M Tahir; O Cheng; A Shaulov; Y Koezuka; G J Bubley; S B Wilson; S P Balk; M A Exley
Journal:  J Immunol       Date:  2001-10-01       Impact factor: 5.422

10.  The mouse CD1d-restricted repertoire is dominated by a few autoreactive T cell receptor families.

Authors:  S H Park; A Weiss; K Benlagha; T Kyin; L Teyton; A Bendelac
Journal:  J Exp Med       Date:  2001-04-16       Impact factor: 14.307
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  49 in total

1.  Dysfunction of natural killer T cells in patients with active Mycobacterium tuberculosis infection.

Authors:  Seung-Jung Kee; Yong-Soo Kwon; Yong-Wook Park; Young-Nan Cho; Sung-Ji Lee; Tae-Jong Kim; Shin-Seok Lee; Hee-Chang Jang; Myung-Geun Shin; Jong-Hee Shin; Soon-Pal Suh; Dong-Wook Ryang
Journal:  Infect Immun       Date:  2012-03-12       Impact factor: 3.441

2.  Inhibition of lipid antigen presentation in dendritic cells by HIV-1 Vpu interference with CD1d recycling from endosomal compartments.

Authors:  Markus Moll; Sofia K Andersson; Anna Smed-Sörensen; Johan K Sandberg
Journal:  Blood       Date:  2010-06-08       Impact factor: 22.113

3.  TCR bias and affinity define two compartments of the CD1b-glycolipid-specific T Cell repertoire.

Authors:  Ildiko Van Rhijn; Nicholas A Gherardin; Anne Kasmar; Wilco de Jager; Daniel G Pellicci; Lyudmila Kostenko; Li Lynn Tan; Mugdha Bhati; Stephanie Gras; Dale I Godfrey; Jamie Rossjohn; D Branch Moody
Journal:  J Immunol       Date:  2014-03-28       Impact factor: 5.422

4.  Disparate effects of depletion of CD1d-reactive T cells during early versus late stages of disease in a genetically susceptible model of lupus.

Authors:  J Jacinto; P J Kim; R R Singh
Journal:  Lupus       Date:  2011-11-07       Impact factor: 2.911

5.  Adoptive immunotherapy mediated by ex vivo expanded natural killer T cells against CD1d-expressing lymphoid neoplasms.

Authors:  Davide Bagnara; Adalberto Ibatici; Mirko Corselli; Nadia Sessarego; Claudya Tenca; Amleto De Santanna; Andrea Mazzarello; Antonio Daga; Renzo Corvò; Giulio De Rossi; Francesco Frassoni; Ermanno Ciccone; Franco Fais
Journal:  Haematologica       Date:  2009-05-19       Impact factor: 9.941

6.  Adoptive Transfer of Invariant NKT Cells as Immunotherapy for Advanced Melanoma: A Phase I Clinical Trial.

Authors:  Mark A Exley; Phillip Friedlander; Nadia Alatrakchi; Lianne Vriend; Simon Yue; Tetsuro Sasada; Wanyong Zeng; Yo Mizukami; Justice Clark; David Nemer; Kenneth LeClair; Christine Canning; Heather Daley; Glenn Dranoff; Anita Giobbie-Hurder; F Stephen Hodi; Jerome Ritz; Steven P Balk
Journal:  Clin Cancer Res       Date:  2017-02-13       Impact factor: 12.531

7.  Dynamics of non-conventional intraepithelial lymphocytes-NK, NKT, and γδ T-in celiac disease: relationship with age, diet, and histopathology.

Authors:  Sara Calleja; Santiago Vivas; María Santiuste; Laura Arias; Mercedes Hernando; Esther Nistal; Javier Casqueiro; Jose G Ruiz de Morales
Journal:  Dig Dis Sci       Date:  2011-01-08       Impact factor: 3.199

8.  Lower numbers of circulating Natural Killer T (NK T) cells in individuals with human T lymphotropic virus type 1 (HTLV-1) associated neurological disease.

Authors:  L C Ndhlovu; J E Snyder-Cappione; K I Carvalho; F E Leal; C P Loo; F R Bruno; A R Jha; D Devita; A M Hasenkrug; H M R Barbosa; A C Segurado; D F Nixon; E L Murphy; E G Kallas
Journal:  Clin Exp Immunol       Date:  2009-09-02       Impact factor: 4.330

9.  Paucity of CD4+ natural killer T (NKT) lymphocytes in sooty mangabeys is associated with lack of NKT cell depletion after SIV infection.

Authors:  Namita Rout; James G Else; Simon Yue; Michelle Connole; Mark A Exley; Amitinder Kaur
Journal:  PLoS One       Date:  2010-03-24       Impact factor: 3.240

10.  CD1d-mediated presentation of endogenous lipid antigens by adipocytes requires microsomal triglyceride transfer protein.

Authors:  Maryam Rakhshandehroo; Sanne M W Gijzel; Rasmus Siersbæk; Marjoleine F Broekema; Colin de Haar; Henk S Schipper; Marianne Boes; Susanne Mandrup; Eric Kalkhoven
Journal:  J Biol Chem       Date:  2014-06-25       Impact factor: 5.157
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