BackgroundMarrow infiltrating lymphocytes (MILsTM) are the product of activating and expanding bone marrow T cells.1 The bone marrow is a specialized niche in the immune system enriched for antigen-experienced, memory T cells. In patients with multiple myeloma and other hematological malignancies that relapse post-transplant, MILs have been shown to contain tumor antigen-specific T cells and adoptive cell therapy (ACT) using MILs has demonstrated antitumor activity.2 3 The bone marrow has been shown to harbor tumor-antigen specific T cells in patients with melanoma,4 5 glioblastoma,6 breast,7 non-small-cell lung8 and pancreatic cancers.9 Here, we sought to determine if tumor-specific MILs could be expanded from the bone marrow of patients with a range of different solid tumors.MethodsBone marrow and blood samples were collected from patients with advanced and metastatic cancers. To date, samples have been collected from a minimum of four patients with non-small cell lung cancer (NSCLC), prostate cancer, head and neck cancer, glioblastoma, and breast cancer. Samples from patients with multiple myeloma were used as a reference control. Utilizing a 10-day proprietary process, MILs and peripheral blood lymphocytes (PBLs) were activated and expanded from patient bone marrow and blood samples, respectively. T cell lineage-specific markers (CD3, CD4 and CD8) were characterized by flow cytometry pre- and post-expansion.Tumor-specific T cells were quantitated in expanded MILs and PBLs using a previously described cytokine-secretion assay [2]. Briefly, autologous antigen-presenting cells (APCs) were pulsed with lysates from allogeneic cancer cell lines and co-cultured with activated MILs or PBLs. APCs pulsed with irrelevant mis-matched cancer cell line lysates or media alone were used as negative controls. Tumor-specific T cells were defined as the IFNgamma-producing population by flow cytometry.ResultsMILs were successfully expanded from all patient bone marrow samples tested, regardless of tumor type. Cytokine-producing tumor-specific CD4+ and CD8+ T cells were detected in each of the expanded MILs. In contrast, tumor-specific T cells were not detected in any of the matched activated and expanded PBLs.ConclusionsMILs have been successfully grown for all solid tumor types evaluated, including NSCLC, prostate, head and neck, glioblastoma and breast cancer. Clinical studies have been completed in patients with multiple myeloma and other hematological cancers. 2 3 A phase IIa trial to evaluate MILs in combination with a checkpoint inhibitor is underway in patients with anti-PD1/PDL1-refractory NSCLC (ClinicalTrials.gov Identifier: NCT04069936). The preclinical data presented herein demonstrate that expanding MILs is feasible. MILs-based therapies hold therapeutic promise across a wide range of tumor indications.Ethics ApprovalThis study was approved by each participating instituion’s IRB.ReferencesBorrello I and Noonan KA. Marrow-Infiltrating Lymphocytes - Role in Biology and Cancer Therapy. Front Immunol 2016 March 30; 7(112)Noonan KA, Huff CA, Davis J, et al. Adoptive transfer of activated marrow-infiltrating lymphocytes induces measurable antitumor immunity in the bone marrow in multiple myeloma. Sci. Transl. Med 2015;7:288ra78.Biavati L, Noonan K, Luznik L, Borrello I. Activated allogeneic donor-derived marrow-infiltrating lymphocytes display measurable in vitro antitumor activity. J Immunother 2019 Apr;42(3):73–80.Müller-Berghaus J, Ehlert K, Ugurel S, et al. Melanoma-reactive T cells in the bone marrow of melanoma patients: association with disease stage and disease duration. Cancer Res 2006;66(12):5997–6001.Letsch A, Keilholz U, Assfalg G, et al., Bone marrow contains melanoma-reactive CD8+ effector T Cells and, compared with peripheral blood, enriched numbers of melanoma-reactive CD8+ memory T cells. Cancer Res 2003 Sep 1;63(17):5582–5586.Chongsathidkiet P, Jackson C, Koyama S, et al., Sequestration of T cells in bone marrow in the setting of glioblastoma and other intracranial tumors. Nature Medicine 2018 Aug 13; 24:1459–1468.Feuerer M, Rocha M, Bai L, et al. Enrichment of memory T cells and other profound immunological changes in the bone marrow from untreated breast cancer patients. Int J Cancer 2001; 92(1):96–105.Safi S, Yamauchi Y, Stamova S, et al. Bone marrow expands the repertoire of functional T cells targeting tumor-associated antigens in patients with resectable non-small-cell lung cancer. Oncoimmunology 2019;8(12):e1671762.Schmitz-Winnenthal FH, Volk C, Z’Graggen K, et al. High frequencies of functional tumor-reactive T cells in bone marrow and blood of pancreatic cancer patients. Cancer Res 2005;65(21):10079–87.
Human memory T cells from the bone marrow are resting and maintain long-lasting systemic memory
