Strain Name:

C57BL/6-Tg(TcraTcrb)1100Mjb/J

Stock Number:

003831

Availability:

Level 4

Description

Strain Information

Type Mutant Strain; Transgenic;
Additional information on Genetically Engineered Mutant Mice.
Mating SystemInbred x Hemizygote         (Female x Male)
Specieslaboratory mouse
GenerationN4+15 (20-DEC-06)
 
Donating Investigator Michael Bevan,   U. of Washington Medical Center

Description
These mice contain transgenic inserts for mouse Tcra-V2 and Tcrb-V5 genes. The transgenic T cell receptor was designed to recognize ovalbumin residues 257-264 in the context of H2Kb and used to study the role of peptides in positive selection and the response of CD8+ T cells to antigen. Like most TCR transgenics, these mice are somewhat immunodeficient.

Development
Transgenic constructs containing rearranged Tcra-V2, Tcra-J(alpha26) and Tcrb-V5, Tcrb-D(beta2), Tcrb-J(beta2.6) chains were coinjected into C57BL/6 blastocysts. Founder mice were obtained and bred to C57BL/6 mice.

Control Information

  Control
   Noncarrier
   000664 C57BL/6J
 
  Considerations for Choosing Controls

Related Strains

Strains carrying   Tg(TcraTcrb)1100Mjb allele
007080   CByJ.B6-Tg(TcraTcrb)1100Mjb/J
View Strains carrying   Tg(TcraTcrb)1100Mjb     (1 strain)

Strains carrying other alleles of Tcra
005308   B10.Cg-H2d Tg(TcraCl4,TcrbCl4)1Shrm/ShrmJ
005895   B10.Cg-Thy1a H2d Tg(TcraCl1,TcrbCl1)1Shrm/J
002761   B10.Cg-Tg(TcrAND)53Hed/J
003147   B10.D2-Hc1 H2d H2-T18c/nSnJ-Tg(DO11.10)10Dlo/J
003199   B10.PL-H2u H2-T18a/(73NS)Sn-Tg(TCRA)B1Jg/J
002116   B6.129S2-Tcratm1Mom/J
005023   B6.Cg-Thy1a/Cy Tg(TcraTcrb)8Rest/J
005655   B6.Cg-Tg(Tcra,Tcrb)3Ayr/J
008006   B6.Cg-Tg(Tcra51-11.5,Tcrb51-11.5)AR206Ayr/J
005236   B6.Cg-Tg(TcraY1,TcrbY1)416Tev/J
007962   B6.FVB-Tg(MMTV-neu/OT-I/OT-II)CBnel Tg(Trp53R172H)8512Jmr/J
002115   B6;129S2-Tcratm1Mom/J
004694   B6;D2-Tg(TcrLCMV)327Sdz/JDvsJ
002408   B6;SJL-Tg(TcrAND)53Hed/J
004364   C.Cg-Tcratm1Mom Tcrbtm1Mom/J
003303   C.Cg-Tg(DO11.10)10Dlo/J
006912   C57BL/6-Tg(Tcra2D2,Tcrb2D2)1Kuch/J
004194   C57BL/6-Tg(TcraTcrb)425Cbn/J
005307   CBy.Cg-Thy1a Tg(TcraCl4,TcrbCl4)1Shrm/ShrmJ
005922   CBy.Cg-Thy1a Tg(TcraCl1,TcrbCl1)1Shrm/J
005694   D1Lac.Cg-Tg(Tcra,Tcrb)24Efro/J
004444   NOD.129P2(C)-Tcratm1Mjo/DoiJ
006436   NOD.Cg-(Gpi1-D7Mit346)C57BL/6J Tg(TcraAI4)1Dvs/DvsJ
004257   NOD.Cg-Prkdcscid Tg(TcrLCMV)327Sdz/Dvs
004259   NOD.Cg-Rag1tm1Mom Tg(TcraAI4)1Dvs/+ Tg(TcrbAI4)1Dvs/+
004347   NOD.Cg-Rag1tm1Mom Tg(TcraAI4)1Dvs/DvsJ
005686   NOD.Cg-Thy1a Tg(TcraCl4,TcrbCl4)1Shrm/ShrmJ
004696   NOD.Cg-Tg(TcrLCMV)327Sdz/DvsJ
004460   NOD.Cg-Tg(TcraBDC2.5)1Doi Tg(TcrbBDC2.5)2Doi/DoiJ
005868   NOD.Cg-Tg(TcraTcrbNY8.3)1Pesa/DvsJ
006303   NOD.FVB-Tg(TcraBDC12-4.1)10Jos/GseJ
004334   NOD/ShiLt-Tg(TcraAI4)1Dvs
003868   NOD/ShiLt-Tg(TcraAI4)1Dvs/+ Tg(TcrbAI4)1Dvs/+
002597   STOCK Tg(TcrHEL3A9)1Mmd/J
View Strains carrying other alleles of Tcra     (34 strains)

Strains carrying other alleles of Tcrb
005308   B10.Cg-H2d Tg(TcraCl4,TcrbCl4)1Shrm/ShrmJ
005895   B10.Cg-Thy1a H2d Tg(TcraCl1,TcrbCl1)1Shrm/J
002761   B10.Cg-Tg(TcrAND)53Hed/J
003147   B10.D2-Hc1 H2d H2-T18c/nSnJ-Tg(DO11.10)10Dlo/J
003200   B10.PL-H2u H2-T18a/(73NS)Sn-Tg(TCRB)C14Jg/J
002122   B6.129P2-Tcrbtm1Mom Tcrdtm1Mom/J
002118   B6.129P2-Tcrbtm1Mom/J
005023   B6.Cg-Thy1a/Cy Tg(TcraTcrb)8Rest/J
005655   B6.Cg-Tg(Tcra,Tcrb)3Ayr/J
008006   B6.Cg-Tg(Tcra51-11.5,Tcrb51-11.5)AR206Ayr/J
005236   B6.Cg-Tg(TcraY1,TcrbY1)416Tev/J
007962   B6.FVB-Tg(MMTV-neu/OT-I/OT-II)CBnel Tg(Trp53R172H)8512Jmr/J
002121   B6;129P-Tcrbtm1Mom Tcrdtm1Mom/J
002117   B6;129P2-Tcrbtm1Mom/J
004694   B6;D2-Tg(TcrLCMV)327Sdz/JDvsJ
002408   B6;SJL-Tg(TcrAND)53Hed/J
004364   C.Cg-Tcratm1Mom Tcrbtm1Mom/J
003303   C.Cg-Tg(DO11.10)10Dlo/J
006912   C57BL/6-Tg(Tcra2D2,Tcrb2D2)1Kuch/J
004194   C57BL/6-Tg(TcraTcrb)425Cbn/J
003540   C57L/J-Tg(Tcrb)93Vbo/J
003447   CBy.129P2(B6)-Tcrbtm1Mom/SzJ
005307   CBy.Cg-Thy1a Tg(TcraCl4,TcrbCl4)1Shrm/ShrmJ
005922   CBy.Cg-Thy1a Tg(TcraCl1,TcrbCl1)1Shrm/J
007081   CByJ.129P2(B6)-Tcrbtm1Mom/J
005694   D1Lac.Cg-Tg(Tcra,Tcrb)24Efro/J
006437   NOD.Cg-(Gpi1-D7Mit346)C57BL/6J Tg(TcrbAI4)1Dvs/DvsJ
004257   NOD.Cg-Prkdcscid Tg(TcrLCMV)327Sdz/Dvs
004259   NOD.Cg-Rag1tm1Mom Tg(TcraAI4)1Dvs/+ Tg(TcrbAI4)1Dvs/+
004348   NOD.Cg-Rag1tm1Mom Tg(TcrbAI4)1Dvs/DvsJ
005686   NOD.Cg-Thy1a Tg(TcraCl4,TcrbCl4)1Shrm/ShrmJ
004696   NOD.Cg-Tg(TcrLCMV)327Sdz/DvsJ
004460   NOD.Cg-Tg(TcraBDC2.5)1Doi Tg(TcrbBDC2.5)2Doi/DoiJ
005868   NOD.Cg-Tg(TcraTcrbNY8.3)1Pesa/DvsJ
006304   NOD.FVB-Tg(TcrbBDC12-4.1)82Gse/GseJ
003868   NOD/ShiLt-Tg(TcraAI4)1Dvs/+ Tg(TcrbAI4)1Dvs/+
004335   NOD/ShiLt-Tg(TcrbAI4)1Dvs
002597   STOCK Tg(TcrHEL3A9)1Mmd/J
View Strains carrying other alleles of Tcrb     (38 strains)

Additional Web Information

Genetic Quality Control Annual Report

Phenotype

Phenotype Information

View Mammalian Phenotype Terms

Mammalian Phenotype Terms
      assigned by genotype

Tg(TcraTcrb)1100Mjb/?

        involves: C57BL/6
  • immune system phenotype
  • abnormal CD8-positive T cell morphology (MGI Ref ID J:92867)
    • all CD8 single positive T cells in the thymus express the transgenic TCR that is specific for OVA peptide in the context of H2-Kb
    • the CD8 single positive T cells in the thymus express high levels of the transgenic TCR
    • increased CD8-positive T cell number (MGI Ref ID J:92867)
      • CD8 T cells make up 20% of the total number of cells in the thymus
      • there is about a 2-fold increase in the number of CD8 T cells in the spleen and lymph nodes of 9 week old mice
      • OVA-specific CD8 T cells make up 50% of the cells found in lymph nodes
      • there is over a 6-fold increase in the percentage of single positive CD8 T cells found in the thymus
  • abnormal T cell clonal deletion (MGI Ref ID J:92867)
    • when OVA peptide is included in fetal thymic organ culture, almost all double-positive T cells are clonally deleted as a result of negative selection
  • abnormal T cell subpopulation ratio (MGI Ref ID J:92867)
    • there is significant skewing in the CD4:CD8 ratio of the thymus towards CD8 single positive T cells
    • the ratio of CD4- to CD8- T cells in the periphery is strongly skewed to CD8 T cells
  • abnormal cytotoxic T cell physiology (MGI Ref ID J:92867)
    • CD8 T cells have high cytolytic activity toward target cells containing OVA peptide
    • activated CD8 T cells are strongly cytolytic to cells containing OVA peptide
  • abnormal positive T cell selection (MGI Ref ID J:92867)
    • the transgenic T cell receptor (TCR) has high affinity for the H2-Kb allele that leads to increased positive selection of T cell precursors for the CD8 T cell lineage
    • the transgenic TCR is positively selected for on this genetic background based on high expression of the TCR on peripheral CD8 T cells
  • decreased CD4-positive T cell number (MGI Ref ID J:133645)
    • there is approximately a 7-fold reduction in the number of CD4 T cells in the spleen and lymph nodes of 9 week old mice
    • there is almost a 5-fold decrease in the percentage of single positive CD4 T cells found in the thymus
  • increased T cell proliferation (MGI Ref ID J:92867)
    • CD8 single positive T cells of the thymus proliferate vigorously in response to OVA peptide in the context of H2-Kb
  • hematopoietic system phenotype
  • abnormal CD8-positive T cell morphology (MGI Ref ID J:92867)
    • all CD8 single positive T cells in the thymus express the transgenic TCR that is specific for OVA peptide in the context of H2-Kb
    • the CD8 single positive T cells in the thymus express high levels of the transgenic TCR
    • increased CD8-positive T cell number (MGI Ref ID J:92867)
      • CD8 T cells make up 20% of the total number of cells in the thymus
      • there is about a 2-fold increase in the number of CD8 T cells in the spleen and lymph nodes of 9 week old mice
      • OVA-specific CD8 T cells make up 50% of the cells found in lymph nodes
      • there is over a 6-fold increase in the percentage of single positive CD8 T cells found in the thymus
  • abnormal T cell clonal deletion (MGI Ref ID J:92867)
    • when OVA peptide is included in fetal thymic organ culture, almost all double-positive T cells are clonally deleted as a result of negative selection
  • abnormal T cell subpopulation ratio (MGI Ref ID J:92867)
    • there is significant skewing in the CD4:CD8 ratio of the thymus towards CD8 single positive T cells
    • the ratio of CD4- to CD8- T cells in the periphery is strongly skewed to CD8 T cells
  • abnormal positive T cell selection (MGI Ref ID J:92867)
    • the transgenic T cell receptor (TCR) has high affinity for the H2-Kb allele that leads to increased positive selection of T cell precursors for the CD8 T cell lineage
    • the transgenic TCR is positively selected for on this genetic background based on high expression of the TCR on peripheral CD8 T cells
  • decreased CD4-positive T cell number (MGI Ref ID J:133645)
    • there is approximately a 7-fold reduction in the number of CD4 T cells in the spleen and lymph nodes of 9 week old mice
    • there is almost a 5-fold decrease in the percentage of single positive CD4 T cells found in the thymus
  • increased T cell proliferation (MGI Ref ID J:92867)
    • CD8 single positive T cells of the thymus proliferate vigorously in response to OVA peptide in the context of H2-Kb
View Research Applications

Research Applications
This mouse can be used to support research in many areas including:

Immunology and Inflammation Research
Rearranged Antigen-Specific T Cell Receptor Transgenes (class I restricted)
Vaccine Development

Research Tools
Immunology and Inflammation Research (T Cell Receptor Transgenics)

Tcra related

Hematological Research
Immunological Defects

Immunology and Inflammation Research
CD Antigens, Antigen Receptors, and Histocompatibility Markers
Immunodeficiency
Inflammation
T Cell Receptor Signaling Defects

Research Tools
Cancer Research (specific T cell deficiency)

Tcrb related

Hematological Research
Immunological Defects

Immunology and Inflammation Research
CD Antigens, Antigen Receptors, and Histocompatibility Markers
Immunodeficiency
Inflammation
T Cell Receptor Signaling Defects

Genes & Alleles

Gene & Allele Information

Allele Symbol Tg(TcraTcrb)1100Mjb
Allele Name transgene insertion 1100, Michael J Bevan
Allele Type Transgenic (random, expressed)
Common Name(s) OT-1; OT-I; OT-I TCR; OT-I(OVA)TCR; OT-ITCR; OT1; OTI; OVA-Tg; OVA-tcr-I; TCR-OT-I; Tg(OT-I); Tg(TcrOVA)1100 mjb; Tg(TcrOva)1100Mjb; Tg(TcraTcrb)1100Mjb;
Mutation Made By Michael Bevan,   U. of Washington Medical Center
Strain of OriginC57BL/6
Expressed Gene Tcrb, T-cell receptor beta chain, mouse, laboratory
Expressed Gene Tcra, T-cell receptor alpha chain, mouse, laboratory
Molecular Note Transgenic mice carry two coinjected constructs containing rearranged mouse TCR alpha (Tcra-V2, Tcra-J(alpha26)) and TCR beta (Tcrb-V5, Tcrb-D(beta2), Tcrb-J(beta2.6)) chains. This transgenic T cell receptor recognizes ovalbumin residues 257-264 (SIINFEKL) in the context of H2Kb. The rearranged Tcra (alpha chain) cDNA specific for ovalbumin was isolated from T cells (clone AD10) and is expressed under the control of a 2-kb fragment of the H-2Kb promoter, a 700-bp fragment including the Ig H chain enhancer located 5' to the promoter, and a 1.7-kb BamHI-PstI fragment containing the 3' half of the human adult 8-globin gene (including part of exon 2, the exon 2-exon 3 C.F6 TCR a-chain gene that was truncated at the 3' XbaI site intron, exon 3) and polyadenylation signal. The Tcrb (beta chain) construct consists of a genomic fragment containing the Tcrb coding and endogenous promoter regions from a T cell clone (B3) specific for ovalbumin. [MGI Ref ID J:92867]

Genotyping

Genotyping Information

Genotyping Protocols

Tg(Tcra)1100Mjb, HRM, vers. 3
Tg(Tcra)1100Mjb, STD PCR, vers. 2
Tg(Tcrb)1100Mjb, HRM, vers. 3
Tg(Tcrb)1100Mjb, STD PCR, vers. 2

Helpful Links

Optimizing PCR Protocols

References

References

Selected Reference(s)

Hogquist KA; Jameson SC; Heath WR; Howard JL; Bevan MJ; Carbone FR. 1994. T cell receptor antagonist peptides induce positive selection. Cell 76(1):17-27. [PubMed: 8287475]  [MGI Ref ID J:92867]

Additional References

Chen W; Jin W; Tian H; Sicurello P; Frank M; Orenstein JM; Wahl SM. 2001. Requirement for transforming growth factor beta1 in controlling T cell apoptosis. J Exp Med 194(4):439-53. [PubMed: 11514601]  [MGI Ref ID J:71101]

Dillon S; Agrawal A; Van Dyke T; Landreth G; McCauley L; Koh A; Maliszewski C; Akira S; Pulendran B. 2004. A Toll-like receptor 2 ligand stimulates Th2 responses in vivo, via induction of extracellular signal-regulated kinase mitogen-activated protein kinase and c-Fos in dendritic cells. J Immunol 172(8):4733-43. [PubMed: 15067049]  [MGI Ref ID J:89116]

Geissmann F; Jung S; Littman DR. 2003. Blood monocytes consist of two principal subsets with distinct migratory properties. Immunity 19(1):71-82. [PubMed: 12871640]  [MGI Ref ID J:90912]

Huang H; Xiang J. 2004. Synergistic effect of lymphotactin and interferon gamma-inducible protein-10 transgene expression in T-cell localization and adoptive T-cell therapy of tumors. Int J Cancer 109(6):817-25. [PubMed: 15027114]  [MGI Ref ID J:89526]

Salem ML; Kadima AN; Zhou Y; Nguyen CL; Rubinstein MP; Demcheva M; Vournakis JN; Cole DJ; Gillanders WE. 2004. Paracrine release of IL-12 stimulates IFN-gamma production and dramatically enhances the antigen-specific T cell response after vaccination with a novel peptide-based cancer vaccine. J Immunol 172(9):5159-67. [PubMed: 15100252]  [MGI Ref ID J:89681]

Tg(TcraTcrb)1100Mjb related

Aizu K; Li W; Yajima T; Arai T; Shimoda K; Nimura Y; Yoshikai Y. 2006. An important role of Tyk2 in APC function of dendritic cells for priming CD8+ T cells producing IFN-gamma. Eur J Immunol 36(11):3060-70. [PubMed: 17048270]  [MGI Ref ID J:117001]

Aliahmad P; Kaye J. 2008. Development of all CD4 T lineages requires nuclear factor TOX. J Exp Med 205(1):245-56. [PubMed: 18195075]  [MGI Ref ID J:131287]

Allison J; Stephens LA; Kay TW; Kurts C; Heath WR; Miller JF; Krummel MF. 1998. The threshold for autoimmune T cell killing is influenced by B7-1. Eur J Immunol 28(3):949-60. [PubMed: 9541590]  [MGI Ref ID J:134587]

Anderson MS; Venanzi ES; Chen Z; Berzins SP; Benoist C; Mathis D. 2005. The cellular mechanism of Aire control of T cell tolerance. Immunity 23(2):227-39. [PubMed: 16111640]  [MGI Ref ID J:100515]

Andersson J; Stefanova I; Stephens GL; Shevach EM. 2007. CD4+CD25+ regulatory T cells are activated in vivo by recognition of self. Int Immunol 19(4):557-66. [PubMed: 17369190]  [MGI Ref ID J:120138]

Asprodites N; Zheng L; Geng D; Velasco-Gonzalez C; Sanchez-Perez L; Davila E. 2008. Engagement of Toll-like receptor-2 on cytotoxic T-lymphocytes occurs in vivo and augments antitumor activity. FASEB J 22(10):3628-37. [PubMed: 18587008]  [MGI Ref ID J:140249]

Azukizawa H; Kosaka H; Sano S; Heath WR; Takahashi I; Gao XH; Sumikawa Y; Okabe M; Yoshikawa K; Itami S. 2003. Induction of T-cell-mediated skin disease specific for antigen transgenically expressed in keratinocytes. Eur J Immunol 33(7):1879-88. [PubMed: 12811848]  [MGI Ref ID J:131888]

Backer R; van Leeuwen F; Kraal G; den Haan JM. 2008. CD8(-) dendritic cells preferentially cross-present Saccharomyces cerevisiae antigens. Eur J Immunol 38(2):370-80. [PubMed: 18200498]  [MGI Ref ID J:131361]

Bahl K; Kim SK; Calcagno C; Ghersi D; Puzone R; Celada F; Selin LK; Welsh RM. 2006. IFN-induced attrition of CD8 T cells in the presence or absence of cognate antigen during the early stages of viral infections. J Immunol 176(7):4284-95. [PubMed: 16547266]  [MGI Ref ID J:129873]

Baran K; Ciccone A; Peters C; Yagita H; Bird PI; Villadangos JA; Trapani JA. 2006. Cytotoxic T lymphocytes from cathepsin B-deficient mice survive normally in vitro and in vivo after encountering and killing target cells. J Biol Chem 281(41):30485-91. [PubMed: 16914553]  [MGI Ref ID J:117187]

Barouch-Bentov R; Lemmens EE; Hu J; Janssen EM; Droin NM; Song J; Schoenberger SP; Altman A. 2005. Protein kinase C-theta is an early survival factor required for differentiation of effector CD8+ T cells. J Immunol 175(8):5126-34. [PubMed: 16210616]  [MGI Ref ID J:119122]

Beghdadi W; Porcherie A; Schneider BS; Dubayle D; Peronet R; Huerre M; Watanabe T; Ohtsu H; Louis J; Mecheri S. 2008. Inhibition of histamine-mediated signaling confers significant protection against severe malaria in mouse models of disease. J Exp Med 205(2):395-408. [PubMed: 18227221]  [MGI Ref ID J:131813]

Behrens GM; Li M; Davey GM; Allison J; Flavell RA; Carbone FR; Heath WR. 2004. Helper requirements for generation of effector CTL to islet beta cell antigens. J Immunol 172(9):5420-6. [PubMed: 15100283]  [MGI Ref ID J:89639]

Beisner DR; Chu IH; Arechiga AF; Hedrick SM; Walsh CM. 2003. The requirements for Fas-associated death domain signaling in mature T cell activation and survival. J Immunol 171(1):247-56. [PubMed: 12817005]  [MGI Ref ID J:132831]

Belz GT; Vremec D; Febbraio M; Corcoran L; Shortman K; Carbone FR; Heath WR. 2002. CD36 is differentially expressed by CD8+ splenic dendritic cells but is not required for cross-presentation in vivo. J Immunol 168(12):6066-70. [PubMed: 12055215]  [MGI Ref ID J:123014]

Benedict CA; Loewendorf A; Garcia Z; Blazar BR; Janssen EM. 2008. Dendritic Cell Programming by Cytomegalovirus Stunts Naive T Cell Responses via the PD-L1/PD-1 Pathway. J Immunol 180(7):4836-47. [PubMed: 18354207]  [MGI Ref ID J:133375]

Bessette K; Lang ML; Fava RA; Grundy M; Heinen J; Horne L; Spolski R; Al-Shami A; Morse HC rd; Leonard WJ; Kelly JA. 2008. A Stat5b transgene is capable of inducing CD8+ lymphoblastic lymphoma in the absence of normal TCR/MHC signaling. Blood 111(1):344-50. [PubMed: 17890450]  [MGI Ref ID J:129993]

Blanas E; Carbone FR; Allison J; Miller JF; Heath WR. 1996. Induction of autoimmune diabetes by oral administration of autoantigen. Science 274(5293):1707-9. [PubMed: 8939860]  [MGI Ref ID J:99451]

Bochtler P; Kroger A; Schirmbeck R; Reimann J. 2008. Type I IFN-induced, NKT cell-mediated negative control of CD8 T cell priming by dendritic cells. J Immunol 181(3):1633-43. [PubMed: 18641299]  [MGI Ref ID J:137877]

Boyman O; Ramsey C; Kim DM; Sprent J; Surh CD. 2008. IL-7/anti-IL-7 mAb complexes restore T cell development and induce homeostatic T Cell expansion without lymphopenia. J Immunol 180(11):7265-75. [PubMed: 18490726]  [MGI Ref ID J:136336]

Brabb T; von Dassow P; Ordonez N; Schnabel B; Duke B; Goverman J. 2000. In situ tolerance within the central nervous system as a mechanism for preventing autoimmunity. J Exp Med 192(6):871-80. [PubMed: 10993917]  [MGI Ref ID J:107210]

Brisebois M; Zehntner SP; Estrada J; Owens T; Fournier S. 2006. A pathogenic role for CD8+ T cells in a spontaneous model of demyelinating disease. J Immunol 177(4):2403-11. [PubMed: 16888002]  [MGI Ref ID J:138386]

Bromley SK; Thomas SY; Luster AD. 2005. Chemokine receptor CCR7 guides T cell exit from peripheral tissues and entry into afferent lymphatics. Nat Immunol 6(9):895-901. [PubMed: 16116469]  [MGI Ref ID J:100486]

Burgdorf S; Kautz A; Bohnert V; Knolle PA; Kurts C. 2007. Distinct pathways of antigen uptake and intracellular routing in CD4 and CD8 T cell activation. Science 316(5824):612-6. [PubMed: 17463291]  [MGI Ref ID J:121094]

Burgdorf S; Scholz C; Kautz A; Tampe R; Kurts C. 2008. Spatial and mechanistic separation of cross-presentation and endogenous antigen presentation. Nat Immunol 9(5):558-66. [PubMed: 18376402]  [MGI Ref ID J:134501]

Cai YH; Alvarez A; Alcaide P; Duramad P; Lim YC; Jarolim P; Lowe JB; Luscinskas FW; Lichtman AH. 2006. Abrogation of functional selectin-ligand expression reduces migration of pathogenic CD8+ T cells into heart. J Immunol 176(11):6568-75. [PubMed: 16709814]  [MGI Ref ID J:131772]

Calbo S; Delagreverie H; Arnoult C; Authier FJ; Tron F; Boyer O. 2008. Functional tolerance of CD8+ T cells induced by muscle-specific antigen expression. J Immunol 181(1):408-17. [PubMed: 18566407]  [MGI Ref ID J:137402]

Caminschi I; Ahmet F; Heger K; Brady J; Nutt SL; Vremec D; Pietersz S; Lahoud MH; Schofield L; Hansen DS; O'Keeffe M; Smyth MJ; Bedoui S; Davey GM; Villadangos JA; Heath WR; Shortman K. 2007. Putative IKDCs are functionally and developmentally similar to natural killer cells, but not to dendritic cells. J Exp Med 204(11):2579-90. [PubMed: 17923506]  [MGI Ref ID J:126110]

Caminschi I; Proietto AI; Ahmet F; Kitsoulis S; Shin Teh J; Lo JC; Rizzitelli A; Wu L; Vremec D; van Dommelen SL; Campbell IK; Maraskovsky E; Braley H; Davey GM; Mottram P; van de Velde N; Jensen K; Lew AM; Wright MD; Heath WR; Shortman K; Lahoud MH. 2008. The dendritic cell subtype-restricted C-type lectin Clec9A is a target for vaccine enhancement. Blood 112(8):3264-73. [PubMed: 18669894]  [MGI Ref ID J:140214]

Campanella GS; Tager AM; El Khoury JK; Thomas SY; Abrazinski TA; Manice LA; Colvin RA; Luster AD. 2008. Chemokine receptor CXCR3 and its ligands CXCL9 and CXCL10 are required for the development of murine cerebral malaria. Proc Natl Acad Sci U S A 105(12):4814-9. [PubMed: 18347328]  [MGI Ref ID J:133359]

Cannarile MA; Lind NA; Rivera R; Sheridan AD; Camfield KA; Wu BB; Cheung KP; Ding Z; Goldrath AW. 2006. Transcriptional regulator Id2 mediates CD8(+) T cell immunity. Nat Immunol 7(12):1317-25. [PubMed: 17086188]  [MGI Ref ID J:116119]

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