Human IL-6 fosters long-term engraftment of patient-derived disease-driving myeloma cells in immunodeficient mice
Zainul S. Hasanali, Alfred L. Garfall, Lisa Burzenski, Leonard D. Shultz, Yan Tang, Siddhant Kadu, Neil C. Sheppard, Wei Liu, Derek Dopkin, Dan T. Vogl, Adam D. Cohen, Adam J. Waxman, Sandra P. Susanibar-Adaniya, Martin Carroll, Edward A. Stadtmauer, David Allman
Zainul S. Hasanali, Alfred L. Garfall, Lisa Burzenski, Leonard D. Shultz, Yan Tang, Siddhant Kadu, Neil C. Sheppard, Wei Liu, Derek Dopkin, Dan T. Vogl, Adam D. Cohen, Adam J. Waxman, Sandra P. Susanibar-Adaniya, Martin Carroll, Edward A. Stadtmauer, David Allman
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Resource and Technical Advance Hematology

Human IL-6 fosters long-term engraftment of patient-derived disease-driving myeloma cells in immunodeficient mice

Abstract

Multiple myeloma is a largely incurable and life-threatening malignancy of antibody-secreting plasma cells. An effective and widely available animal model that recapitulates human myeloma and related plasma cell disorders is lacking. We show that busulfan-conditioned human IL-6–transgenic (hIL-6–transgenic) NSG (NSG+hIL6) mice reliably support the engraftment of malignant and premalignant human plasma cells, including from patients diagnosed with monoclonal gammopathy of undetermined significance, pre- and postrelapse myeloma, plasma cell leukemia, and amyloid light chain amyloidosis. Consistent with human disease, NSG+hIL6 mice engrafted with patient-derived myeloma cells developed serum M spikes, and a majority developed anemia, hypercalcemia, and/or bone lesions. Single-cell RNA sequencing showed nonmalignant and malignant cell engraftment, the latter expressing a wide array of mRNAs associated with myeloma cell survival and proliferation. Myeloma-engrafted mice given CAR T cells targeting plasma cells or bortezomib experienced reduced tumor burden. Our results establish NSG+hIL6 mice as an effective patient-derived xenograft model for study and preclinical drug development of multiple myeloma and related plasma cell disorders.

Authors

Zainul S. Hasanali, Alfred L. Garfall, Lisa Burzenski, Leonard D. Shultz, Yan Tang, Siddhant Kadu, Neil C. Sheppard, Wei Liu, Derek Dopkin, Dan T. Vogl, Adam D. Cohen, Adam J. Waxman, Sandra P. Susanibar-Adaniya, Martin Carroll, Edward A. Stadtmauer, David Allman

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Figure 5

Myeloma-engrafted NSG+hIL6 mice with sequelae of human disease.

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Myeloma-engrafted NSG+hIL6 mice with sequelae of human disease. (A) Urin...
(A) Urine from NSG+hIL6 mice (n = 6) engrafted 15 weeks previously with MM1 BM cells and unengrafted controls (n = 3) was evaluated for human Ig. (B) RBC counts from engrafted (n = 18) versus unengrafted (n = 21) mice at 15 weeks after injection. (C) Serum ionized calcium concentrations in engrafted (n = 15) compared with unengrafted controls (n = 5) at 15 weeks. (D) Flow cytometric analysis of Ig kappa and Ig lambda expression for permeabilized BM cells from an unengrafted NSG+hIL6 mouse (left plot), the left femur (middle plot), and right femur (right plot) of a serum human IgG+ NSG+hIL6 mouse given MM1 BM cells 12 weeks previously. BM cells were only injected into the left femur. Columns and error bars indicate the mean and standard deviation of the mean, respectively. Statistics were calculated with 2-tailed Mann-Whitney t tests. Flow cytometric images in D are representative of 12 mice with similar findings.