The aim of this study was to demonstrate the interest of using tumor-infiltrating lymphocytes (TIL) as adjuvant therapy for stage III (regional lymph nodes) melanoma. After lymph node excision, patients without any detectable metastases were randomly assigned to receive either TIL plus interleukin-2 (IL-2) for 2 months, or IL-2 only. The primary endpoint was determination of the duration of the relapse-free interval. Eighty-eight patients determined as eligible for treatment were enrolled in the study. After a median follow-up of 46.9 months, for the study population the analysis did not show a significant extension of the relapse-free interval or overall survival. However, a significant interaction ( P<0.001) was found between the treatment and the number of invaded lymph nodes. In the group with only one invaded lymph node, the estimated relapse rate was significantly lower ( P(adjusted)=0.0285) and the overall survival was increased ( P(adjusted)=0.039) in the TIL+IL-2 arm compared with the IL-2 only arm. No differences between the two arms, either as regards the duration of disease-free survival or overall survival, were noted in the group with more than one invaded lymph node whatever the number of invaded lymph nodes. Treatment was compatible with normal daily activity. This study demonstrates for the first time that the efficiency of TIL in stage III melanoma (AJCC) is directly related to the number of invaded lymph nodes, indicating that tumor burden might be a crucial factor in the efficacy and/or in vitro expansion of T cells specific for autologous tumor antigen, a finding which could be of value in future vaccine development for the treatment of melanoma.
Although interferon-alfa (IFN-alpha) has proved effective in treating epidermotropic cutaneous T-cell lymphoma (ECTL), few studies have considered the follow-up of treated patients and whether complete remission was maintained. We studied 51 patients (one stage Ia, seven stage Ib, one stage IIa, 30 stage IIb, 11 stage III (Sézary syndrome) and one stage IV) who received low-dose IFN-alpha as monotherapy for ECTL (mean daily dose of IFN-alpha 2.7 x 106 units for 14.9 months), giving special consideration to the significance of My7 (CD13) antigen expression by epidermal basal cells in predicting the maintenance of complete remission. For a mean follow-up period of 43.4 months, the results showed 21 complete remissions, 13 partial remissions and 17 patients with stable or progressive disease. Twelve patients died during the follow-up (3-52 months). IFN-alpha led to an improved response in the early stages, with a greater number of complete remissions (P = 0.03) and partial remissions (P = 0.01). The mean time to complete remission was 4 months, regardless of clinical stage (P = 0.1). Of 21 patients in complete remission, 57% had a relapse within a mean period of 7.5 months. For patients maintained in complete remission, the mean period of response was 31 months. The length of complete remission was independent of clinical stage, and My7 antigen expression was not predictive of complete remission.
Adoptive therapy for cancer using tumor-infiltrating lymphocytes (TIL) has mainly been investigated in cancer patients with advanced stage disease. The limited clinical success has not been encouraging, although this might be explained by poor TIL specificity and/or high tumor burden. To re-evaluate the effectiveness of adoptive therapy, we analyzed the capacity of tumor-reactive TIL injection in preventing the further development of disease in stage III melanoma patients after complete tumor resection. A phase II/III randomized trial was performed on 88 melanoma patients, who received autologous TIL plus interleukin-2 (IL-2) or IL-2 only. The duration of relapse-free survival was analyzed, taking into account the immunological specificity of injected TIL and the number of metastatic lymph nodes removed before treatment. Kaplan-Meyer analysis revealed that the injection of tumor-reactive TIL was statistically correlated with prolonged relapse-free survival in patients with only one metastatic lymph node. Therefore, improved clinical outcome could be obtained after adoptive therapy by selecting appropriate groups of patients and monitoring the specificity of the injected TIL populations.
The rationale of treating melanoma patients by infusion with tumor-infiltrating leukocytes (TIL) is to perform an adoptive therapy through injection of tumor-specific T cells. Nonetheless, methods currently used for ex vivo TIL expansion have not been evaluated for their efficacy to expand TAA-specific T cells. We have addressed this question here, using a culture method in which high TIL growth was induced by a polyclonal T cell stimulus. Intracellular cytokine assays were performed to measure the proportion of T cells responding to autologous tumor cells among the lymphocytes from lymph node biopsies (TIL) of 26 patients with stage III melanoma. The data show that TIL from 18 of these patients contained detectable amounts of tumor-specific T cells before expansion. Although they decreased somewhat in percent abundance during expansion, they were still present afterwards, ranging from 0.3 to 13.8%. Since a median number of 1.7 x 10(10) TIL was obtained from these patients (starting from 3.6 x 10(6) TIL), a total amount of tumor-reactive cytokine-secreting TIL of between 2.8 x 10(6) and 1.12 x 10(9) was obtained in each case from 18 patients. The TIL populations from 8 patients did not contain tumor-reactive T cells: neither before expansion, nor after expansion. Lack of tumor-reactive TIL only occurs for patients bearing several tumor-invaded lymph nodes (40%), but not for those having a single invaded lymph node. Therefore, high numbers of tumor-reactive T cells can be produced, through a polyclonal TIL stimulation, from most early stage III melanoma patients but from only about half of the patients with a more disseminated disease. For this last group, the possibility of getting tumor-reactive TIL can be predicted by checking the presence of these cells before expansion.
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