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  2. Immune isolation-enabled nanoencapsulation of donor T cells: a promising strategy for mitigating GVHD and treating AML in preclinical models

Immune isolation-enabled nanoencapsulation of donor T cells: a promising strategy for mitigating GVHD and treating AML in preclinical models

  • J Immunother Cancer. 2024 Sep 5;12(9):e008663. doi: 10.1136/jitc-2023-008663.
Dan Mei # 1 Ziyang Xue # 1 Tianjing Zhang # 1 Yining Yang # 1 Lin Jin # 1 Qianqian Yu 1 Jian Hong 2 Xianzheng Zhang 1 3 Jinru Ge 1 Li Xu 1 Han Wang 1 Ziwei Zhang 1 Yuchen Zhao 1 Yuanfang Zhai 1 Qianshan Tao 4 Zhimin Zhai 4 Qingsheng Li 2 Hongxia Li 5 Lingling Zhang 6
Affiliations

Affiliations

  • 1 Institute of Clinical Pharmacology, Anhui Medical University, Hefei, Anhui, China.
  • 2 Department of Hematology, The First Affiliated Hospital of Anhui Medical University, Hefei, Anhui, China.
  • 3 Department of Oncology, The First Affiliated Hospital of Anhui Medical University, Hefei, China.
  • 4 Department of Hematology, The Second Affiliated Hospital of Anhui Medical University, Hefei, Anhui, China.
  • 5 Department of Hematology and Oncology, The Third Affiliated Hospital of Anhui Medical University, Hefei, China.
  • 6 Institute of Clinical Pharmacology, Anhui Medical University, Hefei, Anhui, China ll-zhang@hotmail.com.
  • # Contributed equally.
Abstract

Background: In allogeneic-hematopoietic stem cell transplantation for acute myeloid leukemia (AML), donor T cells combat leukemia through the graft-versus-leukemia (GVL) effect, while they also pose a risk of triggering life-threatening graft-versus-host disease (GVHD) by interacting with recipient cells. The onset of GVHD hinges on the interplay between donor T cells and recipient antigen-presenting cells (APCs), sparking T-cell activation. However, effective methods to balance GVHD and GVL are lacking.

Methods: In our study, we crafted nanocapsules by layering polycationic aminated gelatin and polyanionic alginate onto the surface of T cells, examining potential alterations in their fundamental physiological functions. Subsequently, we established an AML mouse model and treated it with transplantation of bone marrow cells (BMCs) combined with encapsulated T cells to investigate the GVL and anti-GVHD effects of encapsulated T cells. In vitro co-culture was employed to probe the effects of encapsulation on immune synapses, co-stimulatory molecules, and tumor-killing pathways.

Results: Transplantation of BMCs combined with donor T cells selectively encapsulated onto AML mice significantly alleviates GVHD symptoms while preserving essential GVL effects. Encapsulated T cells exerted their immunomodulatory effects by impeding the formation of immune synapses with recipient APCs, thereby downregulating co-stimulatory signals such as CD28-CD80, ICOS-ICOSL, and CD40L-CD40. Recipient mice receiving encapsulated T-cell transplantation exhibited a marked increase in donor Ly-5.1-BMC cell numbers, accompanied by unaltered in vivo expression levels of perforin and granzyme B. While transient inhibition of donor T-cell cytotoxicity in the tumor microenvironment was observed in vitro following single-cell nanoencapsulation, subsequent restoration to normal antitumor activity ensued, attributed to selective permeability of encapsulated vesicle shells and material degradation. Moreover, the expression of apoptotic proteins and FAS-FAS ligand pathway at normal levels was still observed in leukemia tumor cells.

Conclusions: Encapsulated donor T cells effectively mitigate GVHD while preserving the GVL effect by minimizing co-stimulatory signaling with APCs through early immune isolation. Subsequent degradation of nanocapsules restores T-cell cytotoxic efficacy against AML cells, mediated by cytotoxic pathways. Using transplant-encapsulated T cells offers a promising strategy to suppress GVHD while preserving the GVL effect.

Keywords

Graft versus host disease - GVHD; Graft versus leukemia; Nanoparticle; T cell.

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