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51. Red blood cell-derived nanoerythrosome for antigen delivery with enhanced cancer immunotherapy

Author

Shen, S., Chen, G., Liu, Z., Dotti, G., Gu, Z., Archibong, E., Fan, Q., Han, X., and Wang, C.

Abstract

Erythrocytes or red blood cells (RBCs) represent a promising cell-mediated drug delivery platform due to their inherent biocompatibility. Here, we developed an antigen delivery system based on the nanoerythrosomes derived from RBCs, inspired by the splenic antigen-presenting cell targeting capacity of senescent RBCs. Tumor antigens were loaded onto the nanoerythrosomes by fusing tumor cell membrane-associated antigens with nanoerythrosomes. This tumor antigen-loaded nanoerythrosomes (nano-Ag@erythrosome) elicited antigen responses in vivo and, in combination with the anti-programmed death ligand 1 (PD-L1) blockade, inhibited the tumor growth in B16F10 and 4T1 tumor models. We also generated a tumor model showing that “personalized nano-Ag@erythrosomes” could be achieved by fusing RBCs and surgically removed tumors, which effectively reduced tumor recurrence and metastasis after surgery.

Published
2019
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52. NKT cells coexpressing a GD2-specific chimeric antigen receptor and IL15 show enhanced in vivo persistence and antitumor activity against neuroblastoma

Author

Chen, Y., Huang, W., Jin, J., Savoldo, B., Barragan, G.A., Liu, D., Metelitsa, L.S., Xu, X., Wood, M., Courtney, A.N., Guo, L., Liu, B., Di Pierro, E.J., Ngai, H., Dotti, G., Heczey, A., and Hicks, J.

Subjects
human activities
Abstract

Purpose: Va24-invariant natural killer T cells (NKT) are attractive carriers for chimeric antigen receptors (CAR) due to their inherent antitumor properties and preferential localization to tumor sites. However, limited persistence of CAR-NKTs in tumor-bearing mice is associated with tumor recurrence. Here, we evaluated whether coexpression of the NKT homeostatic cytokine IL15 with a CAR enhances the in vivo persistence and therapeutic efficacy of CAR-NKTs. Experimental Design: Human primary NKTs were ex vivo expanded and transduced with CAR constructs containing an optimized GD2-specific single-chain variable fragment and either the CD28 or 4-1BB costimulatory endodomain, each with or without IL15 (GD2.CAR or GD2.CAR.15). Constructs that mediated robust CAR-NKT cell expansion were selected for further functional evaluation in vitro and in xenogeneic mouse models of neuroblastoma. Results: Coexpression of IL15 with either costimulatory domain increased CAR-NKT absolute numbers. However, constructs containing 4-1BB induced excessive activation-induced cell death and reduced numeric expansion of NKTs compared with respective CD28-based constructs. Further evaluation of CD28-based GD2.CAR and GD2. CAR.15 showed that coexpression of IL15 led to reduced expression levels of exhaustion markers in NKTs and increased multiround in vitro tumor cell killing. Following transfer into mice bearing neuroblastoma xenografts, GD2.CAR.15 NKTs demonstrated enhanced in vivo persistence, increased localization to tumor sites, and improved tumor control compared with GD2.CAR NKTs. Importantly, GD2.CAR.15 NKTs did not produce significant toxicity as determined by histopathologic analysis. Conclusions: Our results informed selection of the CD28-based GD2.CAR.15 construct for clinical testing and led to initiation of a first-in-human CAR-NKT cell clinical trial (NCT03294954).

Published
2019
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54. Engineering PD-1-Presenting Platelets for Cancer Immunotherapy

Author

Dotti, G., Yan, J., Zhang, X., Wang, J., Hu, Q., Wang, C., Gu, Z., Huang, P., and Chen, Z.

Abstract

Radical surgery still represents the treatment choice for several malignancies. However, local and distant tumor relapses remain the major causes of treatment failure, indicating that a postsurgery consolidation treatment is necessary. Immunotherapy with checkpoint inhibitors has elicited impressive clinical responses in several types of human malignancies and may represent the ideal consolidation treatment after surgery. Here, we genetically engineered platelets from megakaryocyte (MK) progenitor cells to express the programmed cell death protein 1 (PD-1). The PD-1 platelet and its derived microparticle could accumulate within the tumor surgical wound and revert exhausted CD8+ T cells, leading to the eradication of residual tumor cells. Furthermore, when a low dose of cyclophosphamide (CP) was loaded into PD-1-expressing platelets to deplete regulatory T cells (Tregs), an increased frequency of reinvigorated CD8+ lymphocyte cells was observed within the postsurgery tumor microenvironment, directly preventing tumor relapse.

Published
2018
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55. CD30-redirected chimeric antigen receptor T cells target CD30+ and CD30- embryonal carcinoma via antigen-dependent and fas/fasl interactions

Author

Smith, C.C., Chen, Y., Hong, L.K., Montgomery, S.A., Savoldo, B., Vincent, B.G., and Dotti, G.

Subjects
integumentary system, immune system diseases, hemic and lymphatic diseases
Abstract

Tumor antigen heterogeneity limits success of chimeric antigen receptor (CAR) T-cell therapies. Embryonal carcinomas (EC) and mixed testicular germ cell tumors (TGCT) containing EC, which are the most aggressive TGCT subtypes, are useful for dissecting this issue as ECs express the CD30 antigen but also containCD30-/dim cells.Wefound that CD30- redirected CAR T cells (CD30.CAR T cells) exhibit antitumor activity in vitro against the human EC cell lines Tera-1, Tera-2, and NCCIT and putative EC stem cells identified by Hoechst dye staining. Cytolytic activity of CD30.CAR T cells was complemented by their sustained proliferation and proinflammatory cytokine production. CD30.CAR T cells also demonstrated antitumor activity in an in vivo xenograft NOD/SCID/gcnull (NSG)mousemodel of metastatic EC.Weobserved that CD30. CAR T cells, while targeting CD30+ EC tumor cells through the CAR (i.e., antigen-dependent targeting), also eliminated surrounding CD30- EC cells in an antigen-independent manner, via a cell-cell contact-dependent Fas/FasL interaction. In addition, ectopic Fas (CD95)expression inCD30+ Fas-ECwas sufficient to improve CD30.CAR T-cell antitumor activity. Overall, these data suggest that CD30.CAR T cells might be useful as an immunotherapy for ECs. Additionally, Fas/FasL interaction between tumor cells and CAR T cells can be exploited to reduce tumor escapedue to heterogeneous antigen expression or to improve CAR T-cell antitumor activity.

Published
2018
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56. In Vivo Fate and Activity of Second- versus Third-Generation CD19-Specific CAR-T Cells in B Cell Non-Hodgkin's Lymphomas

Author

Ramos, C.A., Grilley, B., Heslop, H.E., Gee, A.P., Savoldo, B., Robertson, C.S., Rouce, R., Dotti, G., Wu, M.-F., Dakhova, O., Liu, H., Mei, Z., Kamble, R.T., Zhang, H., Rooney, C.M., Carrum, G., Reyna, A., Brenner, M.K., Vyas, G., Narala, N., and Mehta, B.

Subjects
immune system diseases, chemical and pharmacologic phenomena, hemic and immune systems
Abstract

Second-generation (2G) chimeric antigen receptors (CARs) targeting CD19 are highly active against B cell malignancies, but it is unknown whether any of the costimulatory domains incorporated in the CAR have superior activity to others. Because CD28 and 4-1BB signaling activate different pathways, combining them in a single third-generation (3G) CAR may overcome the limitations of each individual costimulatory domain. We designed a clinical trial in which two autologous CD19-specific CAR-transduced T cell products (CD19.CARTs), 2G (with CD28 only) and 3G (CD28 and 4-1BB), were infused simultaneously in 16 patients with relapsed or refractory non-Hodgkin's lymphoma. 3G CD19.CARTs had superior expansion and longer persistence than 2G CD19.CARTs. This difference was most striking in the five patients with low disease burden and few circulating normal B cells, in whom 2G CD19.CARTs had limited expansion and persistence and correspondingly reduced area under the curve. Of the 11 patients with measurable disease, three achieved complete responses and three had partial responses. Cytokine release syndrome occurred in six patients but was mild, and no patient required anti-IL-6 therapy. Hence, 3G CD19.CARTs combining 4-1BB with CD28 produce superior CART expansion and may be of particular value when treating low disease burden in patients whose normal B cells are depleted by prior therapy. CD19.CAR-T cells are highly active against B cell malignancies, but the optimal CAR structure is controversial. Ramos et al. show that combining 4-1BB and CD28 endodomains produces superior CD19-CAR-T cell expansion and persistence compared to CD28 alone and that these cells are clinically effective and safe in aggressive lymphomas.

Published
2018
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58. PD-1 Blockade Cellular Vesicles for Cancer Immunotherapy

Author

Sun, W., Wang, C., Zhang, X., Fine, J., Gu, Z., Wang, T., Ye, Y., Cheng, H., Hu, Q., Huang, P., Langworthy, B., Dotti, G., Lin, J., and Wang, J.

Abstract

Cancer cells resist to the host immune antitumor response via multiple suppressive mechanisms, including the overexpression of PD-L1 that exhausts antigen-specific CD8+ T cells through PD-1 receptors. Checkpoint blockade antibodies against PD-1 or PD-L1 have shown unprecedented clinical responses. However, limited host response rate underlines the need to develop alternative engineering approaches. Here, engineered cellular nanovesicles (NVs) presenting PD-1 receptors on their membranes, which enhance antitumor responses by disrupting the PD-1/PD-L1 immune inhibitory axis, are reported. PD-1 NVs exhibit a long circulation and can bind to the PD-L1 on melanoma cancer cells. Furthermore, 1-methyl-tryptophan, an inhibitor of indoleamine 2,3-dioxygenase can be loaded into the PD-1 NVs to synergistically disrupt another immune tolerance pathway in the tumor microenvironment. Additionally, PD-1 NVs remarkably increase the density of CD8+ tumor infiltrating lymphocytes in the tumor margin, which directly drive tumor regression.

Published
2018
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61. Italien

Author

Dotti, G. A., Keller, Arthur, editor, Klumker, Chr. J., editor, Andersson, I., editor, Ausset, E., editor, Basenau, E., editor, Berend, N., editor, von Bonsdorff, A., editor, Cardamatis, I. P., editor, Dingwall-Fordyce, A., editor, Dotti, G. A., editor, Dufort, G., editor, Engel, S., editor, af Forselles, J. A., editor, Friis, St., editor, Geudens, Ed., editor, Graanboom, J., editor, Graçoski, S., editor, Hagenbach-Burckhardt, E., editor, Heiberg, P., editor, van Heusde, J., editor, Horn, G., editor, Hueber, F., editor, Johannessen, A., editor, Johansson, I. E., editor, Johnsson, J. W. S., editor, Jundell, J. I., editor, v. Karsai, A., editor, Keller, A., editor, Keller-Schwangart, E., editor, Kiroff, D., editor, Kündig, R., editor, Meier, J., editor, Meister, R., editor, Moll, L., editor, Newsholme, A., editor, Nuñez, A. L., editor, Nybergh, A., editor, Nystedt, S., editor, Oerum, H. P. P., editor, Philips, F., editor, Pipping, W., editor, Rabenius, L., editor, Riise, Chr., editor, de Olano, P. Sangro y Ros, editor, Scharffenberg, J., editor, Schiller, W., editor, af Schultén, A., editor, v. Schwanebach, Ch., editor, Stafford, T. J., editor, Thomescu, N., editor, Latour, M. Tolosa, editor, Cardona, R. Ulecia y, editor, Ulrik, A., editor, Ulveling, A., editor, Umanetz, A. S., editor, Violi, B., editor, Wawrinsky, R., editor, Wiesener, G., editor, and Ziegler, O., editor

Published
1912
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62. Redirecting T cells to glypican-3 with 4-1BB zeta chimeric antigen receptors results in Th1 polarization and potent antitumor activity

Author

Rathi, P., Dotti, G., Liu, H., Wu, M.-F., Gao, X., Guo, L., Heczey, A., Gottschalk, S., Marinova, E., Metelitsa, L.S., and Li, W.

Abstract

T cells engineered to express CD19-specific chimeric antigen receptors (CARs) have shown breakthrough clinical successes in patients with B-cell lymphoid malignancies. However, similar therapeutic efficacy of CAR T cells in solid tumors is yet to be achieved. In this study we systematically evaluated a series of CAR constructs targeting glypican-3 (GPC3), which is selectively expressed on several solid tumors. We compared GPC3-specific CARs that encoded CD3σ (Gz) alone or with costimulatory domains derived from CD28 (G28z), 4-1BB (GBBz), or CD28 and 4-1BB (G28BBz). All GPC3-CARs rendered T cells highly cytotoxic to GPC3-positive hepatocellular carcinoma, hepatoblastoma, and malignant rhabdoid tumor cell lines in vitro. GBBz induced the preferential production of Th1 cytokines (interferon γ/granulocyte macrophage colony-stimulating factor) while G28z preferentially induced Th2 cytokines (interleukin-4/interleukin-10). Inclusion of 4-1BB in G28BBz could only partially ameliorate the Th2-polarizing effect of CD28. 4-1BB induced superior expansion of CAR T cells in vitro and in vivo. T cells expressing GPC3-CARs incorporating CD28, 4-1BB, or both induced sustained tumor regressions in two xenogeneic tumor models. Thus, GBBz CAR endows T cells with superior proliferative potential, potent antitumor activity, and a Th1-biased cytokine profile, justifying further clinical development of GBBz CAR for immunotherapy of GPC3-positive solid tumors.

Published
2017
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63. Transgenic expression of IL15 improves antiglioma activity of IL13Rα2-CAR T cells but results in antigen loss variants

Author

Liu, H., Balyasnikova, I.V., Dotti, G., Yi, Z., Wu, M.-F., Prinzing, B.L., Krenciute, G., and Gottschalk, S.

Subjects
human activities
Abstract

Glioblastoma (GBM) is the most aggressive primary brain tumor in adults and is virtually incurable with conventional therapies. Immunotherapy with T cells expressing GBM-specific chimeric antigen receptors (CAR) is an attractive approach to improve outcomes. Although CAR T cells targetingGBMantigens, such as IL13 receptor subunit α2 (IL13Rα2), HER2, and EGFR variant III (EGFRvIII), have had antitumor activity in preclinical models, early-phase clinical testing has demonstrated limited antiglioma activity. Transgenic expression of IL15 is an appealing strategy to enhance CAR T-cell effector function. We tested this approach in our IL13Rα2-positive glioma model in which limited IL13Rα2-CAR T-cell persistence results in recurrence of antigenpositive gliomas. T cells were genetically modified with retroviral vectors encoding IL13Rα2-CARs or IL15 (IL13Rα2-CAR.IL15 T cells). IL13Rα2-CAR.IL15 T cells recognized glioma cells in an antigen-dependent fashion, had greater proliferative capacity, and produced more cytokines after repeated stimulations in comparison with IL13Rα2-CAR T cells. No autonomous IL13Rα2-CAR. IL15 T-cell proliferation was observed; however, IL15 expression increased IL13Rα2-CAR T-cell viability in the absence of exogenous cytokines or antigen. In vivo, IL13Rα2-CAR.IL15 T cells persisted longer and had greater antiglioma activity than IL13Rα2-CAR T cells, resulting in a survival advantage. Gliomas recurring after 40 days after T-cell injection had downregulated IL13Rα2 expression, indicating that antigen loss variants occur in the setting of improved T-cell persistence. Thus, CAR T cells for GBM should not only be genetically modified to improve their proliferation and persistence, but also to target multiple antigens. Summary: Glioblastoma responds imperfectly to immunotherapy. Transgenic expression of IL15 in T cells expressing CARs improved their proliferative capacity, persistence, and cytokine production. The emergence of antigen loss variants highlights the need to target multiple tumor antigens. Cancer Immunol Res; 5(7); 571-81.

Published
2017
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64. Chimeric antigen receptor T-cells for B-cell malignancies

Author

Dotti, G. and Lichtman, E.I.

Subjects
human activities
Abstract

The adoptive transfer of T-lymphocytes modified to express chimeric antigen receptors (CAR-Ts) has produced impressive clinical responses among patients with B-cell malignancies. This has led to a rapid expansion in the number of clinical trials over the past several years. Although CD19-specific CAR-Ts are the most extensively evaluated, CAR-Ts specific for other B-cell–associated targets have also shown promise. However, despite this success, toxicities associated with CAR-T administration remain a significant concern. There continues to be substantial heterogeneity among CAR-T products, and differences in both CAR designs and CAR-T production strategies can substantially affect clinical outcomes. Ongoing clinical studies will further elucidate these differences and many other innovative approaches are being evaluated at the preclinical level. In this review, we will discuss the background and rationale for the use of CAR-Ts, provide an overview of advances in the field, and examine the application of CAR-Ts to the treatment of B-cell malignancies, including a summary of clinical trials published to date.

Published
2017
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65. Cord blood NK cells engineered to express IL-15 and a CD19-targeted CAR show long-term persistence and potent antitumor activity

Author

Liu, E, primary, Tong, Y, additional, Dotti, G, additional, Shaim, H, additional, Savoldo, B, additional, Mukherjee, M, additional, Orange, J, additional, Wan, X, additional, Lu, X, additional, Reynolds, A, additional, Gagea, M, additional, Banerjee, P, additional, Cai, R, additional, Bdaiwi, M H, additional, Basar, R, additional, Muftuoglu, M, additional, Li, L, additional, Marin, D, additional, Wierda, W, additional, Keating, M, additional, Champlin, R, additional, Shpall, E, additional, and Rezvani, K, additional

Published
2017
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66. Direct comparison of in vivo fate of second and third-generation CD19-specific chimeric antigen receptor (CAR)-T cells in patients with b cell non-hodgkin lymphoma (B-NHL): Reversal of toxicity from tonic signaling

Author

Gomes da Silva, D., primary, Mukherjee, M., additional, Madhuwanti, S., additional, Dakhova, O., additional, Liu, H., additional, Grilley, B., additional, Gee, A., additional, Neelapu, S.S., additional, Rooney, C., additional, Heslop, H., additional, Savoldo, B., additional, Dotti, G., additional, Brenner, M., additional, Mamonkin, M., additional, and Ramos, C.A., additional

Published
2017
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67. Selective elimination of a chemoresistant side population of B-CLL cells by cytotoxic T lymphocytes in subjects receiving an autologous hCD40L/IL-2 tumor vaccine

Author

Foster, A, Okur, F, Biagi, E, Lu, A, Dotti, G, Yvon, E, Savoldo, B, Carrum, G, Goodell, M, Heslop, H, Brenner, M, Foster, AE, Okur, FV, BIAGI, ETTORE, Dotti G, Goodell, MA, Heslop, HE, Brenner, MK, Foster, A, Okur, F, Biagi, E, Lu, A, Dotti, G, Yvon, E, Savoldo, B, Carrum, G, Goodell, M, Heslop, H, Brenner, M, Foster, AE, Okur, FV, BIAGI, ETTORE, Dotti G, Goodell, MA, Heslop, HE, and Brenner, MK

Abstract

Side-population (SP) analysis identifies precursor cells in normal and malignant tissues. Cells with this phenotype have increased resistance to many cytotoxic agents, and may represent a primary drug-resistant population in malignant diseases. To discover whether drug-resistant malignant SP cells are nonetheless sensitive to immune-mediated killing, we first established the presence of a malignant CD5(+)CD19(+) SP subset in the blood of 18/21 subjects with B-cell chronic lymphocytic leukemia (B-CLL). We examined the fate of these cells in six of these individuals who received autologous human CD40 ligand and interleukin-2 (hCD40L/IL-2) gene-modified tumor cells as part of a tumor vaccine study. Vaccinated patients showed an increase in B-CLL-reactive T cells followed by a corresponding decline in circulating CD5(+)CD19(+) SP cells. T-cell lines and clones generated from vaccinated patients specifically recognized B-CLL SP tumor cells. Elimination of SP cells is likely triggered by their increased expression of target antigens, such as receptor for hyaluronan-mediated motility (RHAMM), after stimulation of the malignant cells by hCD40L, as CD8(+) RHAMM-specific T cells could be detected in the peripheral blood of immunized patients and were associated with the decline in B-CLL SP cells. Hence, malignant B cells with a primary drug-resistant phenotype can be targeted by T- cell-mediated effector activity after immunization of human subjects.

Published
2010

68. Dual Transgenesis of T Cells with a CD44v6 CAR and a Suicide Gene for the Safe Eradication of Myeloid Leukemia and Myeloma

Author

Casucci M, Falcone L, di Robilant BN, Camisa B, Genovese P, Gentner B, Naldini L, Savoldo B, Dotti G, CICERI , FABIO, BORDIGNON, CLAUDIO, BONINI , MARIA CHIARA, BONDANZA , ATTILIO, Casucci, M, Falcone, L, di Robilant, Bn, Camisa, B, Genovese, P, Gentner, B, Naldini, L, Savoldo, B, Ciceri, Fabio, Bordignon, Claudio, Dotti, G, Bonini, MARIA CHIARA, Bondanza, Attilio, Nicolis, Di Robilant B., and Naldini, Luigi

Published
2012

71. Dual Transgenesis of T Cells with a Novel CD44v6-Specific Chimeric Antigen Receptor and a Suicide Gene for Safe and Effective Targeting of Chemoresistance in Hematopoietic Tumors

Author

Casucci M, Falcone L, di Robilant B. Nicolis, Camisa B, Genovese P, Gentner B, Naldini L, Savoldo B, CICERI, FABIO, BORDIGNON, CLAUDIO, Dotti G, BONINI , MARIA CHIARA, BONDANZA , ATTILIO, Casucci, M, Falcone, L, di Robilant B., Nicoli, Camisa, B, Genovese, P, Gentner, B, Naldini, L, Savoldo, B, Ciceri, Fabio, Bordignon, Claudio, Dotti, G, Bonini, MARIA CHIARA, and Bondanza, Attilio

Published
2011

72. Targeting chemoresistant myeloid leukaemia and multiple myeloma through genetic redirection of T cells against CD44 variant 6. Presented at the 19th Annual Meeting of the European Society of Gene and Cellular Therapy

Author

Casucci M, Falcone L, Camisa B, Nicolis di Robilant B, Genovese P, Naldini L, CICERI, FABIO, BORDIGNON, CLAUDIO, Savoldo B, Dotti G, Bondanza A., BONINI , MARIA CHIARA, Casucci, M, Falcone, L, Camisa, B, Nicolis di Robilant, B, Genovese, P, Naldini, L, Ciceri, Fabio, Bordignon, Claudio, Savoldo, B, Dotti, G, Bonini, MARIA CHIARA, and Bondanza, A.

Published
2011

73. Targeting of myeloid leukaemia stem cells through genetic redirection of T-cells against CD44v6

Author

Casucci, M, Falcone, L, Camisa, B, Nicolis di Robilant, B, Genovese, P, Savoldo, B, Dotti, G, NALDINI, LUIGI, CICERI, FABIO, BORDIGNON, CLAUDIO, BONINI, MARIA CHIARA, BONDANZA, ATTILIO, Casucci, M, Falcone, L, Camisa, B, Nicolis di Robilant, B, Genovese, P, Naldini, Luigi, Ciceri, Fabio, Bordignon, Claudio, Savoldo, B, Dotti, G, Bonini, MARIA CHIARA, and Bondanza, Attilio

Published
2011

76. T lymphocytes redirected against the kappa light chain of human immunoglobulin efficiently kill mature B lymphocyte-derived malignant cells

Author

Vera, J, Savoldo, B, Vigouroux, S, Biagi, E, Pule, M, Rossig, C, Wu, J, Heslop, H, Rooney, C, Brenner, M, Dotti, G, Heslop, HE, Rooney, CM, Brenner, MK, Dotti, G., BIAGI, ETTORE, Vera, J, Savoldo, B, Vigouroux, S, Biagi, E, Pule, M, Rossig, C, Wu, J, Heslop, H, Rooney, C, Brenner, M, Dotti, G, Heslop, HE, Rooney, CM, Brenner, MK, Dotti, G., and BIAGI, ETTORE

Abstract

There has been interest in generating T cells expressing chimeric artificial receptors (CARs) targeting CD19/CD20 antigens to treat B-cell lymphomas. If successful, however, this approach would likely impair humoral immunity because T cells may persist long-term. Most low-grade lymphoma and chronic lymphocytic leukemia (B-CLL) cells express monoclonal immunoglobulins carrying either kappa or lambda light chains. We, therefore, explored whether T lymphocytes could be genetically modified to target the tumor-associated light chain, sparing B lymphocytes expressing the reciprocal light chain, and consequently reduce impairment of humoral immunity. We found that T lymphocytes expressing the anti-kappa light chain CAR showed cytotoxic activity against Igkappa(+) tumor cell lines and B-CLL cells both in vitro and in vivo. We also found that the incorporation of the CD28 endodomain within the CAR enhanced the in vitro and in vivo expansion of transgenic T cells after tumor-associated antigen stimulation. Free Igkappa(+) did not compromise the ability of redirected T lymphocytes to eliminate Igkappa(+) tumors because these free immunoglobulins served to sustain proliferation of CAR-CD28 transgenic T cells. Thus, adoptive transfer of T lymphocytes targeting the appropriate light chain could be a useful immunotherapy approach to treat B-lymphocyte malignancies that clonally express immunoglobulin without entirely compromising humoral immunity.

Published
2006

77. Selective depletion of a minor subpopulation of B-chronic lymphocytic leukemia cells is followed by a delayed but progressive loss of bulk tumor cells and disease regression. Mol Cancer

Author

Foster, AE, Okur, FV, Lu, A, Dotti, G, Yvon, E, Savoldo, B, Carrum, G, Andreeff, M, Goodell, MA, Heslop, HE, Brenner, MK, BIAGI, ETTORE, Foster, A, Okur, F, Biagi, E, Lu, A, Dotti, G, Yvon, E, Savoldo, B, Carrum, G, Andreeff, M, Goodell, M, Heslop, H, and Brenner, M

Subjects
B-CLL, cancer vaccine, immunotherapy
Abstract

Cancer precursor/progenitor cells may initiate and sustain the growth of tumors, but evidence for their existence in human disease is indirect, relying on their in vitro properties and animal models. More directly, specific elimination of these rare cells from cancer patients should produce a delayed but progressive disappearance of differentiated malignant progeny. Here, we describe selective eradication of a putative precursor population in a patient with B-cell chronic lymphocytic leukemia, followed 6 months later by a progressive loss of mature tumor cells without further treatment. This outcome supports the presence of a rare population of precursor/progenitor cells in human malignancies, and suggests benefit from their removal.

Published
2009

84. Robust and cost effective expansion of human regulatory T cells highly functional in a xenograft model of graft-versus-host disease

Author

Chakraborty, R., Mahendravada, A., Vera, J.F., Heslop, H.E., Savoldo, B., Dotti, G., Perna, S.K., and Rooney, C.M.

Abstract

The low frequency of naturally occurring regulatory T cells (nTregs) in peripheral blood and the suboptimal protocols available for their ex vivo expansion limit the development of clinical trials based on the adoptive transfer of these cells. We have, therefore, generated a simplified, robust and cost-effective platform for the large-scale expansion of nTregs using a gas permeable static culture flask (G-Rex) in compliance with Good Manufacturing Practice. More than 109 putative Tregs co-expressing CD25 and CD4 molecules (92±5%) and FoxP3 (69±19%) were obtained within 21 days of culture. Expanded Tregs showed potent regulatory activity in vitro (80±13% inhibition of CD8+ cell division) and in vivo (suppression or delay of graft-versus-host disease in a xenograft mouse model) indicating that the cost-effective and simplified production of nTregs we propose will facilitate the implementation of clinical trials based on their adoptive transfer.

Published
2013
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85. Ex vivo fucosylation improves human cord blood engraftment in NOD-SCID IL-2R�� null mice

Author

Bollard, C.M., Brouard, N., Champlin, R.E., Yang, H., Shim, J.-S., Savoldo, B., Miller, L., Carlsbad, Calif, United States, Trilok, S., Thomas, M.W., Simmons, P.J., Xing, D., Zweidler-McKay, P.A., Javni, J.A., Shpall, E.J., Robinson, S.N., Decker, W.K., Shultz, L.D., Dotti, G., and Steiner, D.

Abstract

Delayed engraftment remains a major hurdle after cord blood (CB) transplantation. It may be due, at least in part, to low fucosylation of cell surface molecules important for homing to the bone marrow microenvironment. Because fucosylation of specific cell surface ligands is required before effective interaction with selectins expressed by the bone marrow microvasculature can occur, a simple 30-minute ex vivo incubation of CB hematopoietic progenitor cells with fucosyltransferase-VI and its substrate (GDP-fucose) was performed to increase levels of fucosylation. The physiologic impact of CB hematopoietic progenitor cell hypofucosylation was investigated in vivo in NOD-SCID interleukin (IL)-2R�� null (NSG) mice. By isolating fucosylated and nonfucosylated CD34 + cells from CB, we showed that only fucosylated CD34 + cells are responsible for engraftment in NSG mice. In addition, because the proportion of CD34 + cells that are fucosylated in CB is significantly less than in bone marrow and peripheral blood, we hypothesize that these combined observations might explain, at least in part, the delayed engraftment observed after CB transplantation. Because engraftment appears to be correlated with the fucosylation of CD34 + cells, we hypothesized that increasing the proportion of CD34 + cells that are fucosylated would improve CB engraftment. Ex vivo treatment with fucosyltransferase-VI significantly increases the levels of CD34 + fucosylation and, as hypothesized, this was associated with improved engraftment. Ex vivo fucosylation did not alter the biodistribution of engrafting cells or pattern of long-term, multilineage, multi-tissue engraftment. We propose that ex vivo fucosylation will similarly improve the rate and magnitude of engraftment for CB transplant recipients in a clinical setting.

Published
2012
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86. Chimeric antigen receptor (CAR)-engineered lymphocytes for cancer therapy

Author

Dotti, G. and Ramos, C.A.

Abstract

Chimeric antigen receptors (CARs) usually combine the antigen binding site of a monoclonal antibody with the signal activating machinery of a T cell, freeing antigen recognition from MHC restriction and thus breaking one of the barriers to more widespread application of cellular therapy. Similar to treatment strategies employing monoclonal antibodies, T cells expressing CARs are highly targeted, but additionally offer the potential benefits of active trafficking to tumor sites, in vivo expansion and long-term persistence. Furthermore, gene transfer allows the introduction of countermeasures to tumor immune evasion and of safety mechanisms. Areas covered: The basic structure of so-called first and later generation CARs and their potential advantages over other immune therapy systems. How these molecules can be grafted into immune cells (including retroviral and non-retroviral transduction methods) and strategies to improve the in vivo persistence and function of immune cells expressing CARs. Examples of tumor-associated antigens that have been targeted in preclinical models and clinical experience with these modified cells. Safety issues surrounding CAR gene transfer into T cells and potential solutions to them. Expert opinion: Because of recent advances in immunology, genetics and cell processing, CAR-modified T cells will likely play an increasing role in the cellular therapy of cancer, chronic infections and autoimmune disorders.

Published
2011
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88. Adverse events following infusion of T cells for adoptive immunotherapy: A 10-year experience

Author

Torrano, V., Rooney, C.M., Gottschalk, S., Gee, A.P., Bollard, C.M., Heslop, H.E., Louis, C.U., Arce, J.A., Hanley, P.J., Cruz, C.R., Liu, H., Brenner, M.K., Lin, Y.-F., Leen, A.M., Dotti, G., and Savoldo, B.

Abstract

Background aims. The Food and Drug Administration (FDA) currently recommends at least 4 h of recipient monitoring after T cell infusions to detect early infusion reactions. Recent catastrophic reactions to 'first-in-man' biologic agents have emphasized the importance of this rule for initial studies of new products. The value of such monitoring for better established agents is less obvious. Methods. We reviewed infusion-related adverse events (AE) following administration of ex vivo-expanded T cell products (antigen-specific cytotoxic T lymphocytes, allodepleted T cells, and genetically modified T cells) on investigational new drug (IND) studies in our center. Results. From 1998 to 2008, we infused 381 T cell products to 180 recipients, enrolled on 18 studies, receiving T cells targeting malignancies or post-transplant viral infections. There were no grade 34 infusion reactions during initial monitoring or 24-h follow-up. Twenty-four mild (grade 12) AE occurred in 21 infusions either during or immediately following infusion (up to 6 h), most commonly nausea and vomiting (10/24, 41.6%), probably because of the dimethyl sulfoxide cryoprotectant, and hypotension (20.8%), attributable to diphenhydramine pre-medication. Twenty-two additional non-severe events were reported within 24 h of infusion, most commonly culture-negative fever, chills and nausea. An increased risk of adverse events was associated with age [incidence rate ratio (IRR) 0.98; 95% confidence interval (CI) 0.961.00, P 0.05], while an increased risk of immediate infusion-related events was higher in patients reporting allergies (IRR 2.72, 95% CI 1.007.40, P 0.05); sex, disease type and T cell source (allogeneic or autologous) had no effect on frequency of adverse events. Conclusions. Infusion of these T cell products was safe in the outpatient setting and associated with no severe reactions, so monitoring for 1 h after infusion is probably sufficient. As many of the AE were attributable to diphenhydramine premedication, a lower dose (0.25 mg/kg) should be selected.

Published
2010
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89. Repetitive noninvasive monitoring of hsvl-tk-expressing t cells intravenously infused into nonhuman primates using positron emission tomography and computed tomography with 18F-FEAU

Author

Savoldo, B., Dotti, G., Alauddin, M., Kornblau, S., Gelovani, J.G., Borne, A., Gonzalez, C., Paolillo, V., Jackson, J., Shpall, E.J., Decker, W.K., Najjar, A., Steiner, D., Tian, M., Smith, A., Mawlawi, O., Marini, F., Uthamanthil, R., Bollard, C.M., Brammer, D., and Cooper, L.J.N.

Abstract

Adoptive transfer of antigen-specific cytotoxic T lymphocytes (CTLs) has been successfully used to treat patients with different types of cancer. However, the long-term spatial-temporal dynamics of the distribution of systemically infused CTLs rlargely unknown. Noninvasive imaging of adoptively transferred CTLs using molecular-genetic reporter imaging with positron emission tomography and computed tomography (PET-CT) represents an innovative approach to understanding the long-term migratory patterns and therapeutic potential of adoptively transferred T cells. Here we report the application of repetitive PET-CT imaging with [18F]fluoro-5-ethyl-1-beta-D- arabinofuranosyluracil (18F-FEAU) in two nonhuman primates demonstrating that autologous polyclonal macaque T lymphocytes activated and transduced with a retroviral vector encoding for the sr39 mutant herpes simplex virus 1 thymidine kinase (sr39HSV1-tk) reporter gene can be detected after intravenous infusion in discrete lymphoid organs and in sites of inflammation. This study represents a proof of principle and supports the application of 18F-FEAU PET-CT imaging for monitoring the distribution of intravenously administered sr39HSV1-tk gene-transduced CTLs in humans.

Published
2009
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90. Immunotherapy of human cancers using gene modified T lymphocytes

Author

Dotti, G., Brenner, M.K., and Vera, J.F.

Abstract

Adoptive T cell therapies can produce objective clinical responses in patients with hematologic and solid malignancies. Genetic manipulation of T lymphocytes has been proposed as a means of increasing the potency and range of this anti-tumor activity. We now review how coupling expression of transgenic receptors with countermeasures against potent tumor immune evasion strategies is proving highly effective in pre-clinical models and describe how these approaches are being evaluated in human subjects.

Published
2009
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91. PET imaging of T cells derived from umbilical cord blood

Author

Simmons, P.J., Huls, H., Manuri, P.R., Singh, H., Bollard, C., Gelovani, J.G., Najjar, A.M., Olivares, S., Shpall, E.J., Lee, D.A., Nishii, R., Alauddin, M., Mukhopadhyay, U., Champlin, R.E., Dotti, G., and Cooper, L.J.N.

Abstract

Progress in understanding tumor-specific immune responses, genetic engineering and ex vivo manufacturing, have led to improvements in the safety and feasibility of adoptive transfer of genetically modified T cells. However, rational design, application and evaluation of T-cell therapy requires monitoring methods that can detect, locate and serially quantify these cell-mediated immune responses. Currently, such monitoring methods are chiefly limited to invasive techniques to investigate recovered cell populations for in vitro measurements including histology, flow cytometry, Q-PCR or the detection of cytokines. These assays provide episodic glimpses of the bio distribution of T cells and are limited by the number and sites of sampling. In contrast, imaging provides a methodology for quantitative, non-invasive, longitudinal and spatial in vivo information about the dynamic processes of infused T cells.

Published
2009
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92. Virus-specific T cells engineered to coexpress tumor-specific receptors: Persistence and antitumor activity in individuals with neuroblastoma

Author

Dotti, G., Rooney, C.M., Savoldo, B., Heslop, H.E., Yvon, E., Rossig, C., Mei, Z., Gee, A.P., Pule, M.A., Huls, M.H., Weiss, H.L., Liu, H., Russell, H.V., Myers, G.D., Brenner, M.K., and Liu, E.

Abstract

Cytotoxic T lymphocytes (CTLs) directed to nonviral tumor-associated antigens do not survive long term and have limited antitumor activity in vivo, in part because such tumor cells typically lack the appropriate costimulatory molecules. We therefore engineered Epstein-Barr virus (EBV)-specific CTLs to express a chimeric antigen receptor directed to the diasialoganglioside GD2, a nonviral tumor-associated antigen expressed by human neuroblastoma cells. We reasoned that these genetically engineered lymphocytes would receive optimal costimulation after engagement of their native receptors, enhancing survival and antitumor activity mediated through their chimeric receptors. Here we show in individuals with neuroblastoma that EBV-specific CTLs expressing a chimeric GD2-specific receptor indeed survive longer than T cells activated by the CD3-specific antibody OKT3 and expressing the same chimeric receptor but lacking virus specificity. Infusion of these genetically modified cells seemed safe and was associated with tumor regression or necrosis in half of the subjects tested. Hence, virus-specific CTLs can be modified to function as tumor-directed effector cells.

Published
2008
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93. Adoptive T-cell immunotherapy of chronic lymphocytic leukaemia

Author

Brenner, M.K., Dotti, G., and Foster, A.E.

Subjects
hemic and lymphatic diseases
Abstract

Immunotherapy for B-cell chronic lymphocytic leukaemia (B-CLL) and other haematological malignancies may consist of passive antibody, active immunization or adoptive T-cell transfer. This chapter will focus on T-lymphocyte immunotherapy; an approach supported by earlier observations that the beneficial effects of allogeneic stem cell transplantation depend, in part, on the graft-versus-leukaemia effects mediated by these cells. One promising strategy consists of the genetic manipulation of effector T lymphocytes to express tumour-specific T-cell receptors or chimeric antigen receptors directed against surface antigens on the B-CLL cells. This methodology is now being integrated with the concept that tumour recurrence may be due to the persistence of a reservoir of more primitive and chemoresistant tumour cells, dubbed 'cancer stem cells', with self-renewal capacity. Identification and characterization of these cancer stem cells in B-CLL is crucial for the development of new anti-tumour agents, and for the identification of target antigens for cellular immunotherapy. This chapter will describe how immunotherapy may be directed to a more primitive side population of B-CLL cells.

Published
2008
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94. Inducible Caspase 9 Suicide Gene to Improve the Safety of Allodepleted T Cells after Haploidentical Stem Cell Transplantation

Author

Dotti, G., Heslop, H.E., Brenner, M.K., Rooney, C.M., and Tey, S.-K.

Abstract

Addback of donor T cells following T cell-depleted stem cell transplantation (SCT) can accelerate immune reconstitution and be effective against relapsed malignancy. After haploidentical SCT, a high risk of graft-versus-host disease (GVHD) essentially precludes this option, unless the T cells are first depleted of alloreactive precursor cells. Even then, the risks of severe GVHD remain significant. To increase the safety of the approach and thereby permit administration of larger T cell doses, we used a suicide gene, inducible caspase 9 (iCasp9), to transduce allodepleted T cells, permitting their destruction should administration have adverse effects. We made a retroviral vector encoding iCasp9 and a selectable marker (truncated CD19). Even after allodepletion (using anti-CD25 immunotoxin), donor T cells could be efficiently transduced, expanded, and subsequently enriched by CD19 immunomagnetic selection to >90% purity. These engineered cells retained antiviral specificity and functionality, and contained a subset with regulatory phenotype and function. Activating iCasp9 with a small-molecule dimerizer rapidly produced >90% apoptosis. Although transgene expression was downregulated in quiescent T cells, iCasp9 remained an efficient suicide gene, as expression was rapidly upregulated in activated (alloreactive) T cells. We have demonstrated the clinical feasibility of this approach after haploidentical transplantation by scaling up production using clinical grade materials.

Published
2007
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99. Cord blood NK cells engineered to express IL-15 and a CD19-targeted CAR show long-term persistence and potent antitumor activity

Author

Liu, E, Tong, Y, Dotti, G, Shaim, H, Savoldo, B, Mukherjee, M, Orange, J, Wan, X, Lu, X, Reynolds, A, Gagea, M, Banerjee, P, Cai, R, Bdaiwi, M H, Basar, R, Muftuoglu, M, Li, L, Marin, D, Wierda, W, Keating, M, Champlin, R, Shpall, E, and Rezvani, K

Abstract

Chimeric antigen receptors (CARs) have been used to redirect the specificity of autologous T cells against leukemia and lymphoma with promising clinical results. Extending this approach to allogeneic T cells is problematic as they carry a significant risk of graft-versus-host disease (GVHD). Natural killer (NK) cells are highly cytotoxic effectors, killing their targets in a non-antigen-specific manner without causing GVHD. Cord blood (CB) offers an attractive, allogeneic, off-the-self source of NK cells for immunotherapy. We transduced CB-derived NK cells with a retroviral vector incorporating the genes for CAR-CD19, IL-15 and inducible caspase-9-based suicide gene (iC9), and demonstrated efficient killing of CD19-expressing cell lines and primary leukemia cells in vitro, with marked prolongation of survival in a xenograft Raji lymphoma murine model. Interleukin-15 (IL-15) production by the transduced CB-NK cells critically improved their function. Moreover, iC9/CAR.19/IL-15 CB-NK cells were readily eliminated upon pharmacologic activation of the iC9 suicide gene. In conclusion, we have developed a novel approach to immunotherapy using engineered CB-derived NK cells, which are easy to produce, exhibit striking efficacy and incorporate safety measures to limit toxicity. This approach should greatly improve the logistics of delivering this therapy to large numbers of patients, a major limitation to current CAR-T-cell therapies.

Published
2018
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