Follistatin and Soluble Endoglin Predict 1-Year Nonrelapse Mortality after Allogeneic Hematopoietic Cell Transplantation.

Damage-associated angiogenic factors (AFs), including follistatin (FS) and soluble endoglin (sEng), are elevated in circulation at the onset of acute graft-versus-host disease (GVHD). We hypothesized that regimen-related tissue injury also might be associated with aberrant AF levels and sought to determine the relevance of these AF on nonrelapse mortality (NRM) in patients with acute GVHD and those without acute GVHD. To test our hypothesis, we analyzed circulating levels of FS, sEng, angiopoietin-2 (Ang2), epidermal growth factor (EGF), vascular endothelial growth factor (VEGF) A and B, placental growth factor (PlGF), and soluble VEGF receptor (sVEGFR)-1 and -2, in plasma samples from patients enrolled on Blood and Marrow Transplant Clinical Trials Network (BMT CTN) 0402 (n = 221), which tested GVHD prophylaxis after myeloablative hematopoietic stem cell transplantation (HCT). We found that the interaction between FS and sEng had an additive effect in their association with 1-year NRM. In multivariate analysis, patients with the highest levels of day +28 FS and sEng had a 14.9-fold greater hazard ratio (HR) of NRM (95% confidence interval, 3.2 to 69.4; P < .01) when compared with low levels of FS and sEng. We validated these findings using an external cohort of patients (n = 106). Pre-HCT measurements of FS and sEng were not associated with NRM, suggesting that elevations in these factors early post-HCT may be consequences of early regimen-related toxicity. Determining the mechanisms responsible for patient-specific vulnerability to treatment toxicities and endothelial damage associated with specific AF elevation may guide interventions to reduce NRM post-HCT.

Enhanced ADCC and NK Cell Activation of an Anticarcinoma Bispecific Antibody by Genetic Insertion of a Modified IL-15 Cross-linker.

Previously, we constructed a bispecific NK-cell-engager (BiKE) bearing single-chain variable fragments (scFv) against CD16 on NK cells and EpCAM on tumor cells. This BiKE facilitated antigen-specific antibody-dependent cell-mediated cytotoxicity (ADCC) but did not induce NK cell expansion. We incorporated a modified interleukin-15 cross-linker to create a trispecific construct (TriKE) in order to improve activation, proliferation, and survival of NK cells. Synthesis and assembly of hybrid genes encoding the TriKE was accomplished using DNA-shuffling and DNA-ligation techniques. The TriKE was tested for specificity, efficacy, proliferative capability, and cytokine profile using functional assays. The molecular modifications improved yield without compromising binding to EpCAM(+) HT-29 colorectal carcinoma cells. (51)Chromium-release and degranulation assays showed better killing rates with TriKE compared to BiKE. TriKE was more active in a variety of different carcinoma cell lines. TriKE showed the ability to stimulate expansion of CD56(+)CD3(-) NK cells. BiKE and TriKE showed enhanced but not supraphysiologic levels of cytokine secretion. 1615EpCAM TriKE drives enhanced ADCC while significantly improving proliferation, activation, and survival of NK cell effectors. The TriKE provides a selectively delivered self-sustaining signal at the NK/tumor cell synapse. Targeted cytokine stimulation, rather than systemic cytokine administration, may impact toxicity in patients rendering the TriKE a promising new off-the-shelf carcinoma therapy.

Induced Pluripotent Stem Cell-Derived Natural Killer Cells for Treatment of Ovarian Cancer.

Natural killer (NK) cells can provide effective immunotherapy for ovarian cancer. Here, we evaluated the ability of NK cells isolated from peripheral blood (PB) and NK cells derived from induced pluripotent stem cell (iPSC) to mediate killing of ovarian cancer cells in a mouse xenograft model. A mouse xenograft model was used to evaluate the intraperitoneal delivery of three different NK cell populations: iPSC-derived NK cells, PB-NK cells that had been activated and expanded in long-term culture, and overnight activated PB-NK cells that were isolated through CD3/CD19 depletion of PB B and T cells. Bioluminescent imaging was used to monitor tumor burden of luciferase expressing tumor lines. Tumors were allowed to establish prior to administering NK cells via intraperitoneal injection. These studies demonstrate a single dose of any of the three NK cell populations significantly reduced tumor burden. When mice were given three doses of either iPSC-NK cells or expanded PB-NK cells, the median survival improved from 73 days in mice untreated to 98 and 97 days for treated mice, respectively. From these studies, we conclude iPSC-derived NK cells mediate antiovarian cancer killing at least as well as PB-NK cells, making these cells a viable resource for immunotherapy for ovarian cancer. Due to their ability to be easily differentiated into NK cells and their long-term expansion potential, iPSCs can be used to produce large numbers of well-defined NK cells that can be banked and used to treat a large number of patients including treatment with multiple doses if necessary.