To the editor:
Hematologic relapse after an allogeneic hemopoietic stem cell transplantation (HSCT) in patients with acute leukemia is associated with a poor outcome, despite further cell therapy in the form of donor lymphocyte infusions (DLIs).1 This has been taken as evidence that acute leukemia is less sensitive to the so-called graft-versus-leukemia (GVL) effect, especially if compared with chronic myeloid leukemia (CML), in which DLI alone can induce durable long-term molecular remissions.2 However, several reports suggest a strong protection exerted by chronic graft-versus-host disease (GVHD) in acute lymphoid leukemia (ALL) and acute myeloid leukemia (AML),3,4 and low-dose immunosuppression in the first days after transplantation also reduces the risk of relapse.5,6 Perhaps DLI would be effective in patients with ALL and AML if given when the tumor burden is low. Attempts to monitor minimal residual disease (MRD) in acute leukemia after HSCT have been reported and seem to predict hematologic relapse.7,8 Some of these patients were given immune intervention to prevent hematologic relapse.9
In this study we wished to assess (1) the predictive value of MRD on hematologic relapse after transplantation in patients with AML/ALL and (2) whether cellular therapy with DLI would protect against leukemia relapse. We studied 80 patients with ALL (n = 44) or AML (n = 36) undergoing an allogeneic HSCT. MRD was evaluated monthly on bone marrow samples using a qualitative nested polymerase chain reaction (PCR) for IgH VDJ, as previously described,10 and T-cell receptor (TCR) gene rearrangement for T-ALL. Real-time PCR for Wilms tumor 1 (WT1) expression was used in AML.11 MRD was considered positive in AML when WT1 copy numbers every 104 copies of Abl were more than 180. Molecular positivity was defined as a positive PCR assay in the presence of a marrow sample in hematologic remission (blast count less than 5%).
The cumulative incidence of MRD positivity was 45%, with a median interval from transplantation to first MRD positivity of 120 days, and from transplantation to hematologic relapse of 203 days. Hematologic relapse was significantly higher in MRD+ patients (36%) compared with MRD− patients (16%; P = .03). Patients were analyzed according to whether they were always MRD− (n = 44), MRD+ receiving DLI (MRD+DLI+; n = 17) or MRD+ not receiving DLI (MRD+DLI−; n = 19). Reasons for not giving DLI were presence or development of GVHD after cessation of immunosuppressive therapy (n = 7), donor unavailable (n = 8), early relapse (n = 2), or other (n = 2). Hematologic relapse was 16% in MRD− patients, 6% in MRD+DLI+ patients, and 63% in MRD+DLI− patients (P < .001; Figure 1); the actuarial 3-year survival in these 3 groups was 78%, 80%, and 26%, respectively (P = .001; Figure 1). Mortality due to acute GVHD following DLI was 12%. In multivariate Cox analysis, the MRD group predicted relapse (P < .001) and survival (P = .01), together with disease phase and chronic GVHD. In MRD+ patients, DLI protected against relapse (P = .003) and improved survival (P = .01).
Actuarial survival and cumulative incidence of leukemia relapse in patients with acute leukemia undergoing an allogeneic stem cell transplantation. The patients are divided into 3 groups: MRD+DLI+, n = 17 (patients with positive minimal residual disease, receiving donor lymphocyte infusion); MRD–, n = 44 (patients with negative MRD); and MRD+DLI–, n = 19 (patients with positive MRD who did not receive DLI). The actuarial survival of MRD+DLI+ patients is comparable to the actuarial survival of MRD– patients, due to a low risk of relapse in both groups. Survival of MRD+DLI– patients is significantly worse, due to a higher risk of leukemia relapse in this group (P < .001).
Actuarial survival and cumulative incidence of leukemia relapse in patients with acute leukemia undergoing an allogeneic stem cell transplantation. The patients are divided into 3 groups: MRD+DLI+, n = 17 (patients with positive minimal residual disease, receiving donor lymphocyte infusion); MRD–, n = 44 (patients with negative MRD); and MRD+DLI–, n = 19 (patients with positive MRD who did not receive DLI). The actuarial survival of MRD+DLI+ patients is comparable to the actuarial survival of MRD– patients, due to a low risk of relapse in both groups. Survival of MRD+DLI– patients is significantly worse, due to a higher risk of leukemia relapse in this group (P < .001).
In conclusion, we confirm that MRD detected after transplantation is a significant predictor of relapse. Treatment of MRD with DLIs appears to protect against leukemia relapse, although caution with DLI dosing needs to be used because of the potential risk of GVHD.
Authorship
This work was supported in part by Associazione Italiana Ricerca contro il Cancro (AIRC) Milano, Foundation Fondazione Ricerca Trapianto di Midollo Osseo (FA-RITMO), and Casa di Risparmio di Genova e Imperia (CARIGE) Genova.
Contribution: A.D., design of the trial, treatment of patients, manuscript revision; S.P., molecular biology, WT1; M.M., molecular biology, VDJ, and treatment of patients; F.A., data analyses; G.P., marrow morphology; F.B., molecular biology, VDJ; R.G., molecular biology, VDJ; S.Z., molecular biology, TCR; A.M.R., treatment of patients; M.G., treatment of patients; F.F., treatment of patients; and A.B., design of the study, data analyses, and manuscript preparation.
The authors declare no competing financial interests.
Correspondence: Andrea Bacigalupo, Divisione Ematologia 2, Ospedale San Martino, Largo Rosanna Benzi 10, 16132 Genova, Italy; e-mail : andrea.bacigalupo@hsanmartino.it.
