Waldmann co-discovered the cytokine IL-15 and elucidated its role in the development of NK cells and CD8 memory phenotype T-cells. He demonstrated that IL-15 acts as a cell-membrane associated molecule, that IL-15R alpha on antigen-presenting cells (APCs) presents IL-15 in trans to NK and CD8 T-cells. Waldmann demonstrated IL-15 to be of value in 4 murine models of neoplasia. IL-15 administered by continuous intravenous infusion (CIV) at 20 mcg/kg for 10 days to rhesus macaques was associated with an 80-100-fold increase in the number of circulating CD8 effector memory T-cells. With Kevin Conlon Waldmann executed and reported a first-in-human phase I study of bolus administration of intravenous rhIL-15 in adults with refractory metastatic malignant melanoma and metastatic renal cell cancer. Five of 18 patients manifested a decrease in marker lesions, with 2 having clearing of lung lesions. A collaborative trial with the Cancer Immunotherapy Network (CITN) of subcutaneous Escherichia coli rhIL-15 has been completed where the MTD was 3 mcg/kg/day. Nineteen patients were enrolled at escalating doses with a profound expansion of circulating NK cells, especially among the CD56bright subset. A proportional but less dramatic increase was found among circulating CD8 T-cells with a maximal 3-fold expansion. An additional trial with continuous intravenous infusion of IL-15 had an MTD of 2 mcg/kg/day. Following the termination of CIV administration there was a 38-fold increase in the number of circulating NK cells and an over 358-fold increase in the number of CD56bright NK cells that were shown to be quite effective at antibody-dependent cellular cytotoxicity (ADCC), NKG2D/MIC and natural cytotoxicity. A major conclusion is that for IL-15 and its capacity to activate NK cells, a very attractive antitumor strategy is to use IL-15 in conjunction with antitumor monoclonal antibodies to augment their ADCC. In one syngeneic model EL4 leukemic cells were transfected with human CD20 and administered intravenously to immunologically intact mice. Mice treated with either IL-15 or rituximab (anti-CD20) alone showed modest efficacy. This efficacy was markedly augmented when the two agents were administered together. In a second xenograft model, SCID/NOD mice bearing MET-1 ATL leukemia receiving either alemtuzumab (CAMPATH) or IL-15 alone had only modest efficacy that was markedly augmented by the combination of IL-15 plus alemtuzumab. This efficacy was lost in FcR gamma deleted mice supporting the hypothesis that its efficacy was due to ADCC. In additional studies, we demonstrated that both NK cells and macrophages are needed for optimal tumor clearance mediated by the combination of IL-15 and rituximab. In a working model of innate recognition, NK cells were induced by IL-15 to express NKG2D and FcrgamaIV and macrophages to express the partner Rea-1 during antitumor immune responses, thus IL-15 activated macrophages license NK cells to perform ADCC. These observations have been translated by the initiation of a clinical trial involving alemtuzumab plus IL-15 for patients with ATL, NCT number is NCT02689453. A trial has been initiated in patients with refractory and relapsed CLL with obinutuzumab plus IL-15, NCT number is NCT03759184. In addition, to translate preclinical studies, a trial has been initiated using IL-15 in combination with anti-CTLA-4 and anti-PD-L1, NCT number is NCT3388632. Furthermore, to translate the observation of increase in activated CD8 T-cells, the combination of IL-15 with an agonistic anti-CD40 monoclonal antibody has shown augmented tumor antigen specific CD8 T-cells and increased tumor efficacy. Sckisel and coworkers demonstrated that the administration of a gamma cytokine (e.g., IL-15) leads to paralysis of CD4 but not CD8 T-cells that was mediated through transient expression of suppressor cytokine signaling-3 (SOCS3). This paralysis of CD4 cells leads to a lack of required help for cytotoxic CD8 T-cells.The generation of helpless CD8 T-cells can be avoided by the administration of an agonistic anti-CD40 antibody. In our studies the combination of IL-15 with an agonistic CD40 antibody demonstrated synergy in the TRAMP-C2 prostatic cancer model. In this model the combination was associated with a marked increase in the number of TRAMP-C2 tumor-specific SPAS-1/SNC9-H8, tetramer positive CD8 T-cells. This observation is being translated into a clinical trial using intralesional optimized anti-CD40 monoclonal antibody plus IL-15 in patients with metastatic malignancy. In an additional study, in a clinical trial previously we demonstrated a putative gain-of-function CCR4 mutation in 26% of adult T-cell leukemia (ATL) cells. Furthermore, over 95% of ATL cells express CCR4. To translate this observation, an anti-CCR4 CAR has been generated and will be utilized in clinical trials of patients with ATL and those with cutaneous T-cell lymphoma. Frequently a combination of IL-15 and IL-2 drive T-cell malignancies including T-cell large granular lymphocytic leukemia (T-LGLL) and HTLV-1 driven adult T-cell leukemia (ATL). BNZ-1 is a PEGylated peptide designed to specifically bind to the common gamma receptor to selectively block IL-2, IL-15 and IL-9 signaling. Our results demonstrated that in vitro treatment of T-cell LGL cell lines and ex vivo treatment of ATL patient cells inhibited cytokine mediated viability and proliferation. Furthermore, BNZ-1 drastically reduced leukemic burden in an IL-15 driven human ATL mouse xenograft model. Thus, BNZ-1 shows great promise as a novel therapy for T-cell LGL, ATL and other IL-2 or IL-15 driven hematopoietic malignancies. We demonstrated rapid progression of indolent adult T-cell leukemia/lymphoma after PD-1 inhibitor therapy. Consistent and rapid amplification of cancer in 3 of 3 patients with ATL after a single dose of nivolumab provides support for the probable role of PD-1 functioning as a tumor suppressor in humans with these disorders. Despite recent recommendations to consider the use of PD-1 inhibitor therapy for ATL, our clinical experience provides examples of cases in which this treatment may have led to rapid disease progression.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Production Facilities Intramural Research (ZIB)
Project #
1ZIBBC010906-12
Application #
10015016
Study Section
Project Start
Project End
Budget Start
Budget End
Support Year
12
Fiscal Year
2019
Total Cost
Indirect Cost
Name
National Cancer Institute Division of Basic Sciences
Department
Type
DUNS #
City
State
Country
Zip Code
Ratner, Lee; Waldmann, Thomas A; Janakiram, Murali et al. (2018) Rapid Progression of Adult T-Cell Leukemia-Lymphoma after PD-1 Inhibitor Therapy. N Engl J Med 378:1947-1948
Perera, Liyanage P; Zhang, Meili; Nakagawa, Masao et al. (2017) Chimeric antigen receptor modified T cells that target chemokine receptor CCR4 as a therapeutic modality for T-cell malignancies. Am J Hematol 92:892-901
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Waldmann, Thomas A (2015) The shared and contrasting roles of IL2 and IL15 in the life and death of normal and neoplastic lymphocytes: implications for cancer therapy. Cancer Immunol Res 3:219-27
Yu, Huifeng; Sui, Yongjun; Wang, Yichuan et al. (2015) Interleukin-15 Constrains Mucosal T Helper 17 Cell Generation: Influence of Mononuclear Phagocytes. PLoS One 10:e0143001
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Pilipow, Karolina; Roberto, Alessandra; Roederer, Mario et al. (2015) IL15 and T-cell Stemness in T-cell-Based Cancer Immunotherapy. Cancer Res 75:5187-5193
Conlon, Kevin C; Lugli, Enrico; Welles, Hugh C et al. (2015) Redistribution, hyperproliferation, activation of natural killer cells and CD8 T cells, and cytokine production during first-in-human clinical trial of recombinant human interleukin-15 in patients with cancer. J Clin Oncol 33:74-82
Zhang, Yi; Tian, Shenghe; Liu, Zuqiang et al. (2014) Dendritic cell-derived interleukin-15 is crucial for therapeutic cancer vaccine potency. Oncoimmunology 3:e959321
Valkenburg, Sophie A; Li, Olive T W; Mak, Polly W Y et al. (2014) IL-15 adjuvanted multivalent vaccinia-based universal influenza vaccine requires CD4+ T cells for heterosubtypic protection. Proc Natl Acad Sci U S A 111:5676-81

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