A xenograft model of macrophage activation syndrome amenable to anti-CD33 and anti–IL-6R treatment
Mark Wunderlich, … , Benjamin Mizukawa, James C. Mulloy
Mark Wunderlich, … , Benjamin Mizukawa, James C. Mulloy
Published September 22, 2016
Citation Information: JCI Insight. 2016;1(15):e88181. https://doi.org/10.1172/jci.insight.88181.
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Research Article Hematology Inflammation

A xenograft model of macrophage activation syndrome amenable to anti-CD33 and anti–IL-6R treatment

Abstract

Transgenic expression of key myelosupportive human cytokines in immune-deficient mice corrects for the lack of cross-species activities of stem cell factor (SCF), IL-3, and GM-CSF. When engrafted with human umbilical cord blood (UCB), these triple-transgenic mice produce BM and spleen grafts with much higher myeloid composition, relative to nontransgenic controls. Shortly after engraftment with UCB, these mice develop a severe, fatal macrophage activation syndrome (MAS) characterized by a progressive drop in rbc numbers, increased reticulocyte counts, decreased rbc half-life, progressive cytopenias, and evidence of chronic inflammation, including elevated human IL-6. The BM becomes strikingly hypocellular, and spleens are significantly enlarged with evidence of extramedullary hematopoiesis and activated macrophages engaged in hemophagocytosis. This manifestation of MAS does not respond to lymphocyte-suppressive therapies such as steroids, i.v. immunoglobulin, or antibody-mediated ablation of human B and T cells, demonstrating a lymphocyte-independent mechanism of action. In contrast, elimination of human myeloid cells using gemtuzumab ozogamicin (anti-CD33) completely reversed the disease. Additionally, the IL-6R antibody tocilizumab delayed progression and prolonged lifespan. This new model of MAS provides an opportunity for investigation of the mechanisms driving this disease and for the testing of directed therapies in a humanized mouse.

Authors

Mark Wunderlich, Courtney Stockman, Mahima Devarajan, Navin Ravishankar, Christina Sexton, Ashish R. Kumar, Benjamin Mizukawa, James C. Mulloy

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Figure 3

Identification and efficacy of targeting IL-6/IL-6R signaling.

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Identification and efficacy of targeting IL-6/IL-6R signaling. (A) Level...
(A) Levels of several human inflammatory cytokines were measured in the plasma of control nonengrafted (CNTL) or long-term UCB-engrafted NSG and NSGS mice by multiplex ELISA. n = 4 CNTL NSGS, n = 9–13 UCB-NSGS, n = 4 CNTL NSG, and n = 7 UCB-NSG samples were used for analysis. LLOQ, lower limit of quantification. *P < 0.05 by Mann-Whitney U test. (B) Plasma levels of human cytokines in UCB-engrafted NSGS mice after the indicated treatments. CAM, Campath/alemtuzumab; MT, Mylotarg/gemtuzumab ozogamicin; R/O, rituximab + OKT3. n = 11 PBS, n = 3 CAM, n = 9 MT, and n = 3 R/O. One-way ANOVA followed by Tukey HSD test was used to determine significance. (C) Tocilizumab treatment was delayed until the mice had significant loss in PB rbc counts. Treatment started after the week 17 baseline measurement. n = 17 mice per group. (D) UCB-engrafted NSGS were treated with PBS or tocilizumab (Tocil) before anemia could be detected. Serial blood counts were taken at the indicated times. Treatment started after the week 8 baseline measurement. n = 10 mice per group. Panels C and D are box and whisker plots with the bounds of the box indicating the 1st and 3rd quartiles, the line within the box showing the mean, and the whiskers comprising the range of the data points. Repeated measures 2-way ANOVA was performed on the data in C and D to determine significance. (E) Treated mice were followed long-term for survival. The log rank test was used to determine differences in survival.