Minnelide suppresses GVHD and enhances survival while maintaining GVT responses
Sabrina N. Copsel, Vanessa T. Garrido, Henry Barreras, Cameron S. Bader, Brent Pfeiffer, Beatriz Mateo-Victoriano, Dietlinde Wolf, Miguel Gallardo, Sophie Paczesny, Krishna V. Komanduri, Cara L. Benjamin, Alejandro V. Villarino, Ashok K. Saluja, Robert B. Levy
Sabrina N. Copsel, Vanessa T. Garrido, Henry Barreras, Cameron S. Bader, Brent Pfeiffer, Beatriz Mateo-Victoriano, Dietlinde Wolf, Miguel Gallardo, Sophie Paczesny, Krishna V. Komanduri, Cara L. Benjamin, Alejandro V. Villarino, Ashok K. Saluja, Robert B. Levy
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Research Article Immunology Transplantation

Minnelide suppresses GVHD and enhances survival while maintaining GVT responses

Abstract

Allogeneic hematopoietic stem cell transplantation (aHSCT) can cure patients with otherwise fatal leukemias and lymphomas. However, the benefits of aHSCT are limited by graft-versus-host disease (GVHD). Minnelide, a water-soluble analog of triptolide, has demonstrated potent antiinflammatory and antitumor activity in several preclinical models and has proven both safe and efficacious in clinical trials for advanced gastrointestinal malignancies. Here, we tested the effectiveness of Minnelide in preventing acute GVHD as compared with posttransplant cyclophosphamide (PTCy). Strikingly, we found Minnelide improved survival, weight loss, and clinical scores in an MHC-mismatched model of aHSCT. These benefits were also apparent in minor MHC–matched aHSCT and xenogeneic HSCT models. Minnelide was comparable to PTCy in terms of survival, GVHD clinical score, and colonic length. Notably, in addition to decreased donor T cell infiltration early after aHSCT, several regulatory cell populations, including Tregs, ILC2s, and myeloid-derived stem cells in the colon were increased, which together may account for Minnelide’s GVHD suppression after aHSCT. Importantly, Minnelide’s GVHD prevention was accompanied by preservation of graft-versus-tumor activity. As Minnelide possesses anti–acute myeloid leukemia (anti-AML) activity and is being applied in clinical trials, together with the present findings, we conclude that this compound might provide a new approach for patients with AML undergoing aHSCT.

Authors

Sabrina N. Copsel, Vanessa T. Garrido, Henry Barreras, Cameron S. Bader, Brent Pfeiffer, Beatriz Mateo-Victoriano, Dietlinde Wolf, Miguel Gallardo, Sophie Paczesny, Krishna V. Komanduri, Cara L. Benjamin, Alejandro V. Villarino, Ashok K. Saluja, Robert B. Levy

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Figure 2

Minnelide treatment promotes lymphoid engraftment after MHC-mismatched aHSCT.

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Minnelide treatment promotes lymphoid engraftment after MHC-mismatched a...
(AH) An aHSCT was performed utilizing the same model as in Figure 1 (B6→BALB/c donor and recipient strain combination), but transplanted BM was derived from congenic B6-CD45.1 donors and T cells from B6-CD45.2 donors. Recipients were treated with 0.1 mg/kg Minnelide from day −2 to 28 after transplantation. Seven weeks after aHSCT, splenic and thymic tissues were analyzed for total cell numbers (A and C), splenic CD4+/CD8+ ratio (B), and CD4+CD8+ DP thymocytes (D). (E) Representative flow cytometry contour plots and frequency of donor (transplanted hematopoietic progenitors) BM–derived (Kb+CD45.1+) CD4+ and CD8+ cells in the spleen seven weeks after aHSCT are shown. Kb, MHC H2Kb. Frequency of splenic CD19+ (F), CD11b+ (G), and NK1.1+ (H) cells derived from donor BM 7 weeks after transplantation. GVHD, n = 3; Minnelide, n = 3; BM only + Minnelide, n = 3. Groups compared using 1-way ANOVA with Dunnett’s multiple-comparison test. *P < 0.05; **P < 0.01; ***P < 0.001. Data are presented as mean ± SEM.