Cell Therapy in Organ Transplantation: Our Experience on the Clinical Translation of Regulatory T Cells

Safinia, Niloufar; Grageda, Nathali; Scottà, Cristiano; Thirkell, Sarah; Fry, Laura; Vaikunthanathan, Trishan; Lechler, Robert I.; Lombardi, Giovanna

doi:10.3389/fimmu.2018.00354

Cited by 56 publications

(42 citation statements)

References 66 publications

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“…Findings from recent studies suggest that it may be possible to harness the immunoregulatory potential of these cells to treat autoimmune disease, prevent allograft rejection, and attenuate graft‐versus‐host disease . These studies used either low‐dose interleukin‐2 (IL‐2) as a means of pharmacologically augmenting Treg cells or ex vivo expansion and subsequent infusion of autologous Treg cells . While prior studies have demonstrated augmentation of Treg cell numbers and function in peripheral blood, little is known about how these cells affect peripheral tissues.…”

Section: Introductionmentioning

confidence: 99%

Adoptive Treg Cell Therapy in a Patient With Systemic Lupus Erythematosus

Dall’Era

Pauli

Remedios

et al. 2019

Arthritis & Rheumatology

113

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Objective Adoptive Treg cell therapy has great potential to treat autoimmune disease. Currently, very little is known about how these cells impact inflamed tissues. This study was undertaken to elucidate how autologous Treg cell therapy influences tissue inflammation in human autoimmune disease. Methods We describe a systemic lupus erythematosus (SLE) patient with active skin disease who received adoptive Treg therapy. We comprehensively quantified Treg cells and immune activation in peripheral blood and skin, with data obtained at multiple time points posttreatment. Results Deuterium tracking of infused Treg cells revealed the transient presence of cells in peripheral blood, accompanied by increased percentages of highly activated Treg cells in diseased skin. Flow cytometric analysis and whole transcriptome RNA sequencing revealed that Treg cell accumulation in skin was associated with a marked attenuation of the interferon‐γ pathway and a reciprocal augmentation of the interleukin‐17 (IL‐17) pathway. This phenomenon was more pronounced in skin relative to peripheral blood. To validate these findings, we investigated Treg cell adoptive transfer of skin inflammation in a murine model and found that it also resulted in a pronounced skewing away from Th1 immunity and toward IL‐17 production. Conclusion We report the first case of a patient with SLE treated with autologous adoptive Treg cell therapy. Taken together, our results suggest that this treatment leads to increased activated Treg cells in inflamed skin, with a dynamic shift from Th1 to Th17 responses.

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Section: Introductionmentioning

confidence: 99%

Adoptive Treg Cell Therapy in a Patient With Systemic Lupus Erythematosus

Dall’Era

Pauli

Remedios

et al. 2019

Arthritis & Rheumatology

113

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“…1 To prevent this and the coincident toxicity of immunosuppression, considerable efforts are being made to develop effective therapeutic strategies for inducing functional immune tolerance, for example by manipulating the leukocytes responsible for rejection, which include allograftspecific T and B cells and the myeloid cells that present alloantigen to them and are effectors of graft injury. [2][3][4][5] Trafficking of the cells responsible for rejection into and out of the graft is an essential part of the allograft response. This occurs via the bloodstream and presumptively by newly formed lymphatic vessels, which develop within days of transplantation and connect rapidly with host lymphatics.…”

mentioning

confidence: 99%

Lymphangiogenesis in a mouse model of renal transplant rejection extends life span of the recipients

Pedersen¹,

Müller²,

Rülicke³

et al. 2020

Kidney International

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“…It is also well accepted that the pool of human FoxP3 + Tregs is heterogeneous and is dependent on different development conditions, anatomical locations, cytokine microenvironment, levels of transcription factors, mechanisms of suppression, surface biomarkers, and age of the individual 35 – 38 . Harvested Tregs from both flasks and Quantum systems maintained a CD4 + CD25 + FoxP3 + Treg phenotype and memory CD4 + CD25 + FoxP3 + CD45RO + Treg phenotype considered important for maintenance of immune homeostasis 39 – 42 with very high frequencies of these phenotypes at harvest. However, there was a trend toward higher mature Treg and activated Treg frequencies in Quantum system culture versus flask culture.…”

Section: Discussionmentioning

confidence: 99%

A Comparison of Automated Perfusion- and Manual Diffusion-Based Human Regulatory T Cell Expansion and Functionality Using a Soluble Activator Complex

et al. 2020

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Absence or reduced frequency of human regulatory T cells (Tregs) can limit the control of inflammatory responses, autoimmunity, and the success of transplant engraftment. Clinical studies indicate that use of Tregs as immunotherapeutics would require billions of cells per dose. The Quantum® Cell Expansion System (Quantum system) is a hollow-fiber bioreactor that has previously been used to grow billions of functional T cells in a short timeframe, 8–9 d. Here we evaluated expansion of selected Tregs in the Quantum system using a soluble activator to compare the effects of automated perfusion with manual diffusion-based culture in flasks. Treg CD4+CD25+ cells from three healthy donors, isolated via column-free immunomagnetic negative/positive selection, were grown under static conditions and subsequently seeded into Quantum system bioreactors and into T225 control flasks in an identical culture volume of PRIME-XV XSFM medium with interleukin-2, for a 9-d expansion using a soluble anti-CD3/CD28/CD2 monoclonal antibody activator complex. Treg harvests from three parallel expansions produced a mean of 3.95 × 108 (range 1.92 × 108 to 5.58 × 108) Tregs in flasks (mean viability 71.3%) versus 7.00 × 109 (range 3.57 × 109 to 13.00 × 109) Tregs in the Quantum system (mean viability 91.8%), demonstrating a mean 17.7-fold increase in Treg yield for the Quantum system over that obtained in flasks. The two culture processes gave rise to cells with a memory Treg CD4+CD25+FoxP3+CD45RO+ phenotype of 93.7% for flasks versus 97.7% for the Quantum system. Tregs from the Quantum system demonstrated an 8-fold greater interleukin-10 stimulation index than cells from flask culture following restimulation. Quantum system–expanded Tregs proliferated, maintained their antigenic phenotype, and suppressed effector immune cells after cryopreservation. We conclude that an automated perfusion bioreactor can support the scale-up expansion of functional Tregs more efficiently than diffusion-based flask culture.

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Cell Therapy in Organ Transplantation: Our Experience on the Clinical Translation of Regulatory T Cells

Cited by 56 publications

References 66 publications

Adoptive Treg Cell Therapy in a Patient With Systemic Lupus Erythematosus

Adoptive Treg Cell Therapy in a Patient With Systemic Lupus Erythematosus

Lymphangiogenesis in a mouse model of renal transplant rejection extends life span of the recipients

A Comparison of Automated Perfusion- and Manual Diffusion-Based Human Regulatory T Cell Expansion and Functionality Using a Soluble Activator Complex

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