Combined use of interferon alpha-1b, interleukin-2, and thalidomide to reverse the AML1-ETO fusion gene in acute myeloid leukemia

Role of interleukins in acute myeloid leukemia

Acute myeloid leukemia (AML) is a hematological malignancy with strong heterogeneity. Immune disorders are a feature of various malignancies, including AML. Interleukins (ILs) and other cytokines participate in a series of biological processes of immune disorders in the microenvironment, and serve as a bridge for communication between various cellular components in the immune system. The role of ILs in AML is complex and pleiotropic. It can not only play an anti-AML role by enhancing anti-leukemia immunity and directly inducing AML cell apoptosis, but also promote the growth, proliferation and drug resistance of AML. These properties of ILs can be used to explore their potential efficacy in disease monitoring, prognosis assessment, and development of new treatment strategies for AML. This review aims to clarify some of the complex roles of ILs in AML and their clinical applications.

Potential Use of Thalidomide in Glioblastoma Treatment: An Updated Brief Overview

Glioblastoma is the most common malignant primary brain tumor in adults. Thalidomide is a vascular endothelial growth factor inhibitor that demonstrates antiangiogenic activity, and may provide additive or synergistic anti-tumor effects when co-administered with other antiangiogenic medications. This study is a comprehensive review that highlights the potential benefits of using thalidomide, in combination with other medications, to treat glioblastoma and its associated inflammatory conditions. Additionally, the review examines the mechanism of action of thalidomide in different types of tumors, which may be beneficial in treating glioblastoma. To our knowledge, a similar study has not been conducted. We found that thalidomide, when used in combination with other medications, has been shown to produce better outcomes in several conditions or symptoms, such as myelodysplastic syndromes, multiple myeloma, Crohn's disease, colorectal cancer, renal failure carcinoma, breast cancer, glioblastoma, and hepatocellular carcinoma. However, challenges may persist for newly diagnosed or previously treated patients, with moderate side effects being reported, particularly with the various mechanisms of action observed for thalidomide. Therefore, thalidomide, used alone, may not receive significant attention for use in treating glioblastoma in the future. Conducting further research by replicating current studies that show improved outcomes when thalidomide is combined with other medications, using larger sample sizes, different demographic groups and ethnicities, and implementing enhanced therapeutic protocol management, may benefit these patients. A meta-analysis of the combinations of thalidomide with other medications in treating glioblastoma is also needed to investigate its potential benefits further.

A retrospective study on effectiveness of combined recombinant human interferon-α-1b, interleukin-2, and thalidomide for the treatment of acute myeloid leukemia in various disease states

Background

Interferon-α-1b, interleukin-2 combined with thalidomide (ITI) improved the outcome and prognosis of some acute myeloid leukemia (AML) patients, but the cases was insufficient. This study observed the efficacy and safety of this regimen in the treatment of numbers of AML patients in various disease states.

Methods

Starting in January 2014, patients with AML (n=188) were treated with ITI regimen, including 60 refractory/relapses patients in group A, 40 patients in group B remained minimal residual disease-positive (MRD) or changed from negative to positive again after consolidation therapy, and 88 patients in group C with initial complete remission of AML received the ITI treatment after routine consolidation therapy. Bone marrow, fusion gene and MRD were detected to judge the curative effect and the adverse reactions were observed. The remission rate, MRD status and long-term survival of three groups were analyzed. An AML mouse model was constructed to observe the anti-leukemia effect of the three drugs in vivo.

Results

Sixty patients with primary AML who were unable to receive chemotherapy, or with relapsed/refractory AML, showed a total response rate of 28.3% (17/60) after receiving the ITI regimen. Forty patients with morphologically complete remission and MRD-positive achieved a response rate of 77.5% (31/40); the MRD converted to negative in 19 patients and was mitigated in 12 patients. Among 88 patients with initial complete remission, 11 failed to maintain the negative MRD, and the relapse rate was 12.5%, which was significantly lower than that of the non-maintenance treatment group (54.3%). In the mouse model, interferon, interleukin-2, and thalidomide exerted an anti-leukemia effect, prolonged the survival time of the mice, and the anti-leukemia effect was further enhanced after administration of the combination ITI regimen.

Conclusions

For suitable patients, hematopoietic stem cell transplantation is still strong recommended. The ITI regimen may be an effective option for patients with AML who cannot tolerate conventional chemotherapy, including those with relapsed/refractory disease, those with a complete remission status but are MRD-positive, or those who require maintenance treatment after consolidation therapy. However, a rigorous clinical randomized controlled trial and more in-depth mechanism exploration are still needed to verify this conclusion.