Engineered Interleukin-15 Autocrine Signaling Invigorates Anti-CD123 CAR-NK Cells

Introduction : Acute Myeloid Leukemia (AML) is an aggressive neoplastic disorder with poor outcomes in children and adults. NK cell adoptive transfer is an anti-cancer immunotherapy that has promise for AML treatment. We aimed to improve NK cell anti-tumor efficacy with expression of a Chimeric Antigen Receptor (CAR) on the cell surface. Our CAR consists of an extracellular single-chain variable fragment targeting the AML-associated antigen CD123 (IL3Rα) and intracellular domains derived from 2B4 and TCRζ. We sought to improve the persistence and long-term functionality of our CAR-NKs by introducing transgenic interleukin-15 (IL15). Methods: CD3-depleted PBMCs were first activated with lethally irradiated feeder cells, then transduced with transiently produced replication incompetent γ-retrovirus (αCD123.2B4.ζ, αCD123.2B4.ζ-IRES-sIL15, sIL15-IRES-mOrange) on day 4 of culture. CAR expression was measured on day 8 using FACS. Secretion of IL15 was verified with ELISA. Cytotoxicity was measured using ffLuc expressing target cells and bioluminescence (BL) measurement. In serial stimulation assays, target cells were repleted daily to maintain a 1:1 effector:target ratio. Immunophenotype and cell counts were assessed by FACS. Transcriptomic analysis (RNAseq) was performed on RNA derived from NK cells purified on D10. Xenograft modeling was performed using NSG mice engrafted with MV-4-11.ffLuc or MOLM-13.ffLuc AML cell lines. Mice were treated with NK cells on D4 or D4-7-10. Untreated mice served as controls. Tumor growth was serially tracked in vivo using BL imaging. NK cell persistence and expansion were measured in peripheral blood. Results: The 2B4.ζ CAR was well expressed on the surface of transduced NK cells (median transduction efficiency 95%, range 85-97%, n=3). 2B4.ζ CAR-NK treatment prolonged survival of AML engrafted mice when compared to treatment with unmodified NKs (median survival: 63 vs 55 days; n=8 mice; p=0.014). Serial peripheral blood analysis revealed a steady decline in circulating NK cells, which were undetectable in all cohorts within 21 days. NK cells were then engineered for constitutive secretion of IL15, with and without CAR expression. 2B4.ζ/sIL15 CAR-NKs had the most potent 24h-cytotoxicity against CD123+ targets (Fig. 1). After a 10-day chronic stimulation with MV-4-11, 2B4.ζ/sIL15- and sIL15-NKs expanded (x1.2 and x5.9 respectively), while NK cells without sIL15 decreased in number. In this assay, only 2B4.ζ/sIL15 CAR-NKs exhibited sustained tumor killing. Transcriptomic analysis after 10 days of serial stimulation showed sample clustering dependent on IL15 secretion. Differential gene expression analysis (DESeq2) identified upregulation of genes associated with cell cycle progression, apoptosis regulation, chemokine signaling, and NK cell mediated cytotoxicity in NK cells secreting IL15 compared to those without. In multiparameter flow cytometric analysis, 2B4.ζ/sIL15 CAR-NKs had a higher percentage of NK cells populating clusters defined by higher surface expression of NK cell activating receptors (NKp30, NKG2D, LFA-1) compared to 2B4.ζ and unmodified NK cells. In our MV-4-11 xenograft model, NKs armed with secreted IL15 expanded in vivo and had improved persistence. A single dose (D4) of 2B4.ζ/sIL15 CAR-NKs demonstrated an initial antitumor response, equivalent to that seen following 3 doses (D4-7-10) of 2B4.ζ CAR-NKs. However, mice treated with IL15-secreting NKs had short survival (Fig. 2). Compared to control mice, peripheral blood analysis showed increasing systemic hIL15 and higher levels of hTNFα. In our more aggressive MOLM-13 xenograft model, both single dose 2B4.ζ/sIL15 CAR-NK and multiple dose 2B4.ζ CAR-NK treatment prolonged survival compared to treatment with unmodified NKs. (27 and 26 vs 20 days; n=5 mice; p<0.01; Fig. 2). Conclusion: 2B4.ζ CAR-NKs have limited antitumor efficacy and short persistence in vivo. NK cells armored with secreted IL15 have enhanced anti-AML cytotoxicity and in vitro persistence. Introduction of IL15 secretion confers a distinctly activated phenotype that is maintained during chronic antigen stimulation. Constitutive local IL15 secretion improves in vivo NK cell persistence but may cause lethal toxicity when employed against AML. These results warrant further study and should impact the development of CAR-NK clinical products for patients with AML. Figure 1 Figure 1. Disclosures Ho: Rodeo Therapeutics/Amgen: Patents & Royalties; Exelixis: Consultancy; Sanofi: Research Funding. Bonifant: Kiadis Pharma: Research Funding; BMS: Research Funding; Merck, Sharpe, Dohme: Research Funding.

The Combined Use of Cytokine Serum Values with Laboratory Parameters Improves Mortality Prediction of COVID-19 Patients: The Interleukin-15-to-Albumin Ratio

Laboratory parameters display limited accuracy in predicting mortality in coronavirus disease 2019 (COVID-19) patients, as with serum albumin. Emerging evidence suggests that cytokine serum values may enhance the predictive capacity of albumin, especially interleukin (IL)-15. We thus investigated whether the use of the IL-15-to-albumin ratio enables improving mortality prediction at hospital admission in a large group of COVID-19 patients. In this prospective cross-sectional study, we enrolled and followed up three hundred and seventy-eight patients with a COVID-19 diagnosis until hospital discharge or death. Two hundred and fifty-five patients survived, whereas one hundred and twenty-three died. Student’s T-test revealed that non-survivors had a significant two-fold increase in the IL-15-to-albumin ratio compared to survivors (167.3 ± 63.8 versus 74.2 ± 28.5), a difference that was more evident than that found for IL-15 or albumin separately. Likewise, mortality prediction considerably improved when using the IL-15-to-albumin ratio with a cut-off point > 105.4, exhibiting an area under the receiver operating characteristic curve of 0.841 (95% Confidence Interval, 0.725–0.922, p < 0.001). As we outlined here, this is the first study showing that combining IL-15 serum values with albumin improves mortality prediction in COVID-19 patients.

Interleukin-15 in Outcomes of Pregnancy

Interleukin-15 (IL-15) is a pleiotropic cytokine that classically acts to support the development, maintenance, and function of killer lymphocytes. IL-15 is abundant in the uterus prior to and during pregnancy, but it is subject to tight spatial and temporal regulation. Both mouse models and human studies suggest that homeostasis of IL-15 is essential for healthy pregnancy. Dysregulation of IL-15 is associated with adverse outcomes of pregnancy. Herein, we review producers of IL-15 and responders to IL-15, including non-traditional responders in the maternal uterus and fetal placenta. We also review regulation of IL-15 at the maternal–fetal interface and propose mechanisms of action of IL-15 to facilitate additional study of this critical cytokine in the context of pregnancy.

IL-15 Is Overexpressed in γδ T Cells and Correlates with Disease Severity in Relapsing-Remitting Multiple Sclerosis

Interleukin 15 (IL-15) is known to be involved in the pathogenesis of multiple sclerosis (MS). An animal study revealed a distinct subset of IL-15-producing γδ T cells that correlate with disease severity. The aim of the current study was to test whether such a subset is also present in humans and its importance for the pathogenesis of MS. The peripheral blood from 29 patients with relapsing-remitting MS (including 6 relapses) and 22 controls was stained with monoclonal antibodies and analyzed with flow cytometry. The existence of IL-15+ γδ T cells was confirmed. Moreover, the percentage of IL-15+ γδ T is significantly increased in MS patients and correlates with disease severity. Nevertheless, additional functional studies are needed to fully understand the importance of those cells in multiple sclerosis pathogenesis

Genetic Deletion of Interleukin-15 Is Not Associated with Major Structural Changes Following Experimental Post-Traumatic Knee Osteoarthritis in Rats

Post-traumatic osteoarthritis (PTOA) is a degenerative joint disease, leading to articular cartilage breakdown, osteophyte formation, and synovitis, caused by an initial joint trauma. Pro-inflammatory cytokines increase catabolic activity and may perpetuate inflammation following joint trauma. Interleukin-15 (IL-15), a pro-inflammatory cytokine, is increased in OA patients, although its roles in PTOA pathophysiology are not well characterized. Here, we utilized Il15 deficient rats to examine the role of IL-15 in PTOA pathogenesis in an injury-induced model. OA was surgically induced in Il15 deficient Holtzman Sprague-Dawley rats and control wild-type rats to compare PTOA progression. Semi-quantitative scoring of the articular cartilage, subchondral bone, osteophyte size, and synovium was performed by two blinded observers. There was no significant difference between Il15 deficient rats and wild-type rats following PTOA-induction across articular cartilage damage, subchondral bone damage, and osteophyte scoring. Similarly, synovitis scoring across six parameters found no significant difference between genetic variants. Overall, IL-15 does not appear to play a key role in the development of structural changes in this surgically-induced rat model of PTOA.

Skeletal Muscle O-GlcNAc Transferase Action on Global Metabolism Is Partially Mediated Through Interleukin-15

Besides its roles in locomotion and thermogenesis, skeletal muscle plays a significant role in global glucose metabolism and insulin sensitivity through complex nutrient sensing networks. Our previous work showed that the muscle-specific ablation of O-GlcNAc transferase (OGT) led to a lean phenotype through enhanced interleukin-15 (IL-15) expression. We also showed OGT epigenetically modified and repressed the Il15 promoter. However, whether there is a causal relationship between OGT ablation-induced IL-15 secretion and the lean phenotype remains unknown. To address this question, we generated muscle specific OGT and interleukin-15 receptor alpha subunit (IL-15rα) double knockout mice (mDKO). Deletion of IL-15rα in skeletal muscle impaired IL-15 secretion. When fed with a high-fat diet, mDKO mice were no longer protected against HFD-induced obesity compared to wild-type mice. After 22 weeks of HFD feeding, mDKO mice had an intermediate body weight and glucose sensitivity compared to wild-type and OGT knockout mice. Taken together, these data suggest that OGT action is partially mediated by muscle IL-15 production and provides some clarity into how disrupting the O-GlcNAc nutrient signaling pathway leads to a lean phenotype. Further, our work suggests that interfering with the OGT-IL15 nutrient sensing axis may provide a new avenue for combating obesity and metabolic disorders.