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CD4 Cells Engineered to Express an MHC Class I Restricted TCR Can Rescue CD8 Cells Tolerized to Tumour-Associated Antigens

Ghorashian, Sara ; Carpenter, Ben ; Holler, Angelika ; [et al.]

American Society of Hematology ; 2012

In: Blood Vol. 120, No. 21 ( 2012-11-16), p. 952-952

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In: Blood, American Society of Hematology, Vol. 120, No. 21 ( 2012-11-16), p. 952-952

Abstract: Abstract 952 Background: The efficacy of T cell therapies for cancer may be limited when targeting tumour-associated antigens (TAA) which are also self-antigens. Ongoing exposure to TAA on normal cells may lead to tolerance via anergy or exhaustion of antigen-specific T cells. Methods: We have designed a model of tolerance to TAA in which T cell receptor (TCR)-transduced CD8 T cells recognise pMDM2, a TAA that is also a ubiquitous self-antigen. CD8+ T cells were transduced with pMDM2-specific TCR (MDM-CD8) and transferred to sub-lethally irradiated B6 mice that express pMDM2 in the context of MHC Class I (H2-Kb). MDM-CD8 cells are detectable 4 weeks after transfer but show defective in vivo killing of target cells pulsed with MDM2 peptide. We have used this model to determine the mechanism of tolerance and to evaluate whether tolerant CD8+ T cells can be rescued by CD4 help. Results: To determine whether tolerance of MDM-CD8 cells was dependent upon recognition of cognate antigen, we transferred MDM-CD8 cells into mice of a different MHC background (BALB/c) which lack H2-Kb required for presentation of the TCR-recognised MDM2 peptide. When BALB/c MDM-CD8 cells were transferred to BALBc hosts their functions were preserved and they retained efficient antigen-specific cytolysis. To determine whether tolerance could be modified by provision of CD4+ T cell help, we co-transferred MDM-CD8 with transgenic OT-II CD4+ cells. OT-II cells were primed with dendritic cells (DCs) loaded with cognate pOVA323-339 or irrelevant peptide. When activated through their TCR, OT-II cells increased both the frequency of MDM2-specific CD8 cells and their cytotoxic functions, indicating that CD4 help can overcome CD8 tolerance to TAA. Ineffective antigen presentation to CD4 cells and lack of known MHC class II-restricted TAA are major limitations to providing CD4 help in T cell therapy for cancer. We therefore tested whether transfer of the MHC Class I-restricted MDM2 TCR into CD4 cells could provide help upon transfer to antigen-expressing hosts. Co-transfer of MDM2-TCR-transduced CD4 cells with CD8 cells improved antigen-specific killing of target cells when compared to single transfer of either TCR-transduced CD8 or CD4 cells. Conclusion: CD4 cells rendered capable of responding to an MHC class I restricted TAA by TCR transfer can rescue tolerance developing in a CD8 population with the same specificity. This is potentially a novel way to circumvent defective immune responses arising in adoptively transferred effector cells due to prolonged exposure to cognate antigen on normal host cells. Disclosures: Stauss: Cell Medica: Scientific Advisor Other.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood.V120.21.952.952

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XA 33000

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XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2012

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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CD8 T Cell Tolerance to a Tumor-Associated Self-Antigen Is Reversed by CD4 T Cells Engineered To Express the Same T Cell Receptor

Ghorashian, Sara ; Veliça, Pedro ; Chua, Ignatius ; [et al.]

The American Association of Immunologists ; 2015

In: The Journal of Immunology Vol. 194, No. 3 ( 2015-02-01), p. 1080-1089

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In: The Journal of Immunology, The American Association of Immunologists, Vol. 194, No. 3 ( 2015-02-01), p. 1080-1089

Abstract: Ag receptors used for cancer immunotherapy are often directed against tumor-associated Ags also expressed in normal tissues. Targeting of such Ags can result in unwanted autoimmune attack of normal tissues or induction of tolerance in therapeutic T cells. We used a murine model to study the phenotype and function of T cells redirected against the murine double minute protein 2 (MDM2), a tumor-associated Ag that shows low expression in many normal tissues. Transfer of MDM2-TCR–engineered T cells into bone marrow chimeric mice revealed that Ag recognition in hematopoietic tissues maintained T cell function, whereas presentation of MDM2 in nonhematopoietic tissues caused reduced effector function. TCR-engineered CD8+ T cells underwent rapid turnover, downmodulated CD8 expression, and lost cytotoxic function. We found that MDM2-TCR–engineered CD4+ T cells provided help and restored cytotoxic function of CD8+ T cells bearing the same TCR. Although the introduction of the CD8 coreceptor enhanced the ability of CD4+ T cells to recognize MDM2 in vitro, the improved self-antigen recognition abolished their ability to provide helper function in vivo. The data indicate that the same class I–restricted TCR responsible for Ag recognition and tolerance induction in CD8+ T cells can, in the absence of the CD8 coreceptor, elicit CD4 T cell help and partially reverse tolerance. Thus MHC class I–restricted CD4+ T cells may enhance the efficacy of therapeutic TCR-engineered CD8+ T cells and can be readily generated with the same TCR.

Type of Medium: Online Resource

ISSN: 0022-1767 , 1550-6606

URL: Article

DOI: 10.4049/jimmunol.1401703

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XA 54100

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XA 10000

Language: English

Publisher: The American Association of Immunologists

Publication Date: 2015

detail.hit.zdb_id: 1475085-5

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Human MHC Class I-restricted high avidity CD4 + T cells generated by co-transfer of TCR and CD8 mediate efficient tumor rejection in vivo

Xue, Shao-An ; Gao, Liquan ; Ahmadi, Maryam ; [et al.]

Informa UK Limited ; 2013

In: OncoImmunology Vol. 2, No. 1 ( 2013-01), p. e22590-

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In: OncoImmunology, Informa UK Limited, Vol. 2, No. 1 ( 2013-01), p. e22590-

Type of Medium: Online Resource

ISSN: 2162-402X

URL: Article

DOI: 10.4161/onci.22590

Language: English

Publisher: Informa UK Limited

Publication Date: 2013

detail.hit.zdb_id: 2645309-5

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CD3 limits the efficacy of TCR gene therapy in vivo

Ahmadi, Maryam ; King, Judith W. ; Xue, Shao-An ; [et al.]

American Society of Hematology ; 2011

In: Blood Vol. 118, No. 13 ( 2011-09-29), p. 3528-3537

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In: Blood, American Society of Hematology, Vol. 118, No. 13 ( 2011-09-29), p. 3528-3537

Abstract: The function of T-cell receptor (TCR) gene modified T cells is dependent on efficient surface expression of the introduced TCR α/β heterodimer. We tested whether endogenous CD3 chains are rate-limiting for TCR expression and antigen-specific T-cell function. We show that co-transfer of CD3 and TCR genes into primary murine T cells enhanced TCR expression and antigen-specific T-cell function in vitro. Peptide titration experiments showed that T cells expressing introduced CD3 and TCR genes recognized lower concentration of antigen than T cells expressing TCR only. In vivo imaging revealed that TCR+CD3 gene modified T cells infiltrated tumors faster and in larger numbers, which resulted in more rapid tumor elimination compared with T cells modified by TCR only. After tumor clearance, TCR+CD3 engineered T cells persisted in larger numbers than TCR-only T cells and mounted a more effective memory response when rechallenged with antigen. The data demonstrate that provision of additional CD3 molecules is an effective strategy to enhance the avidity, anti-tumor activity and functional memory formation of TCR gene modified T cells in vivo.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood-2011-04-346338

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XA 33000

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Language: English

Publisher: American Society of Hematology

Publication Date: 2011

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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Enhancing the Efficacy of T Cell Receptor (TCR) Gene Therapy by Co-Transfer of TCR and Additional CD3 Molecules Into CD4+ T Cells

Nicholson, Emma K ; Ahmadi, Maryam ; Holler, Angelika ; [et al.]

American Society of Hematology ; 2012

In: Blood Vol. 120, No. 21 ( 2012-11-16), p. 2044-2044

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In: Blood, American Society of Hematology, Vol. 120, No. 21 ( 2012-11-16), p. 2044-2044

Abstract: Abstract 2044 Introduction: The specificity of T cells can be redirected using retroviral T cell receptor (TCR) gene transfer. This has the potential to generate tumour specific T cells that can be adoptively transferred to target defined tumour antigens. The majority of TCR gene therapy studies have focused on the transfer of TCR genes into CD8 T cells. However the transfer of antigen specific CD8 T cells in the absence of antigen specific CD4 T cells leads to impaired anti-tumour responses and impaired memory development in vivo. Class I restricted TCR can be used to transduce CD4 T cells for use in adoptive transfer. The majority of class I restricted TCRs are CD8 dependent and thus require co-transduction of CD8 to be fully functional in CD4 T cells. CD4 T cells transduced with the class I restricted F5-TCR (specific for influenza peptide NP presented by H2-Dbclass I molecules) produce IL-2 and proliferate in vitro in response to class II negative tumour cells expressing NP peptide but these cells were not able to generate an IFN-γ response. In vivo, F5-TCR CD4 T cells could provide help for F5-TCR CD8 T cell mediated tumour eradication. These F5-TCR CD4 T cells persisted in vivo for up to 90 days post tumour regression and were able to re-expand following tumour challenge. In order to improve the function of class I restricted TCR expressing CD4 T cells, we co-transduced a vector containing all 4 chains of the CD3 complex. High surface expression of TCR has been shown to correlate with increased responsiveness to specific antigen. When additional TCR is introduced into a T cell, the introduced T cell must compete with the endogenous TCR for binding to CD3. The amount of CD3 within the cell will thus be rate limiting for the level of surface expression of the introduced TCR. Method: The retroviral vectors pMP71-F5α-2A-F5β (F5-TCR) and pMP71-CD3-ζ-2A-ε-2A-δ-2A-γ-IRES-GFP (CD3) were used for retroviral transduction. CD4 splenocytes obtained from C57BL/6 mice were activated with CD3/CD28 magnetic beads for 24 hours prior to transduction with either F5-TCR alone or F5-TCR and CD3. 5 days post transduction, transduced T cells were stimulated with C57BL/6 splenocytes loaded with NP (relevant) peptide or WT1 (irrelevant) peptide and cytokine production was measured by ELISA and intracellular cytokine staining and proliferation by [3H] thymidine incorporation. For in vivo tumour challenge, C57BL/6 recipient mice were irradiated with 5.5Gy and injected subcutaneously with 1 × 106 EL4-NP-luciferase cells (a lymphoma cell line stably transfected with NP peptide and luciferase) on day 0. On day 1, mice received 1 × 106 F5-TCR CD3 CD4 T cells or 1 × 106 F5-TCR CD4 T cells or 1 × 106 Mock Transduced T cells. Tumour area was measured by calipers and by bioluminescence imaging. For T cell trafficking experiments, the experimental set up was as above but transgenic CD4 luciferase T cells were used for adoptive transfer and EL4-NP luciferase negative cells were used for tumour challenge. Results: CD4 T cells transduced with F5-TCR and CD3 had a 5-fold higher expression of F5-TCR compared to cells transduced with F5-TCR alone. In vitro, F5-TCR CD3 CD4 T cells showed increased proliferation and increased production of IL-2 and IFN-γ in response to specific antigen compared to F5-TCR CD4 T cells. F5-TCR CD3 CD4 T cells responded to at a 2-fold lower concentration of specific peptide than F5-TCR CD4 T cells. Following adoptive transfer in murine models, F5-TCR CD3 CD4 T cells eradicated NP expressing EL4 tumours but transfer of equivalent doses of F5-TCR CD4 T cells did not lead to tumour regression. Using bioluminescence imaging, F5-TCR CD3 CD4 T cells trafficked to tumour site faster and accumulated in greater numbers than F5-TCR CD4 T cells. Following tumour challenge, there were higher numbers of F5-TCR CD3 CD4 T cells persisting in bone marrow, lymph node and peripheral blood than in mice that received F5-TCR CD4 T cells. Conclusion: Increased surface expression of class I restricted TCR in CD4 T cells leads to increased sensitivity to peptide in vitro and higher levels of proliferation and cytokine production in response to specific peptide. This translates in vivo to enhanced persistence of F5-TCR CD3 CD4 T cells and more efficient trafficking to tumour site and superior tumour protection. Therefore, the co-transduction of additional CD3 can improve the function of class I restricted TCR in CD4 T cells. Disclosures: Stauss: Cell Medica: Scientific Advisor Other.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood.V120.21.2044.2044

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2012

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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