Figure 5.
CDK7 inhibition reduces myeloma burden and enhances survival in vivo mouse models of MM. (A) BMMNC from 3 patients with relapsed MM were treated with 500 nM YKL-5-124 or DMSO for 24 hours. Cell viability in the CD138+ and CD138− cell populations was evaluated by flow cytometry analysis. (B) Primary CD138+ cells were cultured in the absence or presence of YKL-5-124 for 3 days, and apoptotic cell death was assessed by flow cytometric analysis. Percentages of annexin V+/DAPI− (early apoptosis) and annexin V+/DAPI+ (late apoptosis) cells are shown in the graphs. (C) A schematic diagram for the subcutaneous SCID model. (D) In the early treatment model, mice injected with H929 cells were randomized and treated with either YKL-5-124 or vehicle at first detection of tumor (tumor volume ∼100 mm3). Mice received 3 different doses of YKL-5-124 for 5 consecutive days per week for 2 weeks. Tumor volume was measured in 2 perpendicular dimensions by caliper once every week. Baseline values were not significantly different among groups. (E) Sublethally irradiated SCID mice were injected subcutaneously with AMO1 cells expressing CDK7WT (left) or CDK7C312S (right). Mice were randomized to a 5 or 10 mg/kg group, for 5 consecutive days per week for 2 weeks. Tumor volume was evaluated by caliper measurement. P values indicate significant difference between groups. ∗∗∗P < .001. (F) Western blot analysis was performed in cell lysates from tumors excised from representative mice and blotted with Rb and p-Rb antibodies. (G) Western blot analysis was performed in cell lysates from tumors excised from representative mice and blotted with indicated antibodies. Images were analyzed with Image J software and signals normalized to loading control. (H-J) NSG mice were orthotopically xenografted after intravenous injection with Molp8-luc cells. Upon detection of MM lesions (∼2 weeks after tumor cell injection), mice were randomly assigned to receive YKL-5-124 (2.5 or 5 mg/kg, intraperitoneal, 5 days per week, for 4 weeks) or vehicle control. Whole-body bioluminescence images (BLI) (H) and measurements (mean ± SEM) (I) are shown. Survival was evaluated from the first day of treatment until death. Survival curves (Kaplan-Meier) were analyzed using GraphPad analysis software (log-rank test, P = .0002) (J). (K) Monoclonal, tumor-derived, immunoglobulin (M-protein) levels were evaluated in MM-bearing Vk∗MYC mice before and after YKL-5-124 treatment (5 and 10 mg/kg) and normalized to time 0. BMMNC, bone marrow mononuclear cells; DMSO, dimethyl sulfoxide; NSG, NOD/SCID-γ; SCID, severe combined immunodeficiency.

CDK7 inhibition reduces myeloma burden and enhances survival in vivo mouse models of MM. (A) BMMNC from 3 patients with relapsed MM were treated with 500 nM YKL-5-124 or DMSO for 24 hours. Cell viability in the CD138+ and CD138 cell populations was evaluated by flow cytometry analysis. (B) Primary CD138+ cells were cultured in the absence or presence of YKL-5-124 for 3 days, and apoptotic cell death was assessed by flow cytometric analysis. Percentages of annexin V+/DAPI (early apoptosis) and annexin V+/DAPI+ (late apoptosis) cells are shown in the graphs. (C) A schematic diagram for the subcutaneous SCID model. (D) In the early treatment model, mice injected with H929 cells were randomized and treated with either YKL-5-124 or vehicle at first detection of tumor (tumor volume ∼100 mm3). Mice received 3 different doses of YKL-5-124 for 5 consecutive days per week for 2 weeks. Tumor volume was measured in 2 perpendicular dimensions by caliper once every week. Baseline values were not significantly different among groups. (E) Sublethally irradiated SCID mice were injected subcutaneously with AMO1 cells expressing CDK7WT (left) or CDK7C312S (right). Mice were randomized to a 5 or 10 mg/kg group, for 5 consecutive days per week for 2 weeks. Tumor volume was evaluated by caliper measurement. P values indicate significant difference between groups. ∗∗∗P < .001. (F) Western blot analysis was performed in cell lysates from tumors excised from representative mice and blotted with Rb and p-Rb antibodies. (G) Western blot analysis was performed in cell lysates from tumors excised from representative mice and blotted with indicated antibodies. Images were analyzed with Image J software and signals normalized to loading control. (H-J) NSG mice were orthotopically xenografted after intravenous injection with Molp8-luc cells. Upon detection of MM lesions (∼2 weeks after tumor cell injection), mice were randomly assigned to receive YKL-5-124 (2.5 or 5 mg/kg, intraperitoneal, 5 days per week, for 4 weeks) or vehicle control. Whole-body bioluminescence images (BLI) (H) and measurements (mean ± SEM) (I) are shown. Survival was evaluated from the first day of treatment until death. Survival curves (Kaplan-Meier) were analyzed using GraphPad analysis software (log-rank test, P = .0002) (J). (K) Monoclonal, tumor-derived, immunoglobulin (M-protein) levels were evaluated in MM-bearing Vk∗MYC mice before and after YKL-5-124 treatment (5 and 10 mg/kg) and normalized to time 0. BMMNC, bone marrow mononuclear cells; DMSO, dimethyl sulfoxide; NSG, NOD/SCID-γ; SCID, severe combined immunodeficiency.

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