Natural killer (NK) cells are a promising cellular therapy for cancer, with challenges in the field including persistence, functional activity, and tumor recognition. Briefly, priming blood NK cells ...with recombinant human (rh)IL-12, rhIL-15, and rhIL-18 (12/15/18) results in memory-like NK cell differentiation and enhanced responses against cancer. However, the lack of available, scalable Good Manufacturing Process (GMP)-grade reagents required to advance this approach beyond early-phase clinical trials is limiting. To address this challenge, we developed a novel platform centered upon an inert tissue factor scaffold for production of heteromeric fusion protein complexes (HFPC). The first use of this platform combined IL-12, IL-15, and IL-18 receptor engagement (HCW9201), and the second adds CD16 engagement (HCW9207). This unique HFPC expression platform was scalable with equivalent protein quality characteristics in small- and GMP-scale production. HCW9201 and HCW9207 stimulated activation and proliferation signals in NK cells, but HCW9207 had decreased IL-18 receptor signaling. RNA sequencing and multidimensional mass cytometry revealed parallels between HCW9201 and 12/15/18. HCW9201 stimulation improved NK cell metabolic fitness and resulted in the DNA methylation remodeling characteristic of memory-like differentiation. HCW9201 and 12/15/18 primed similar increases in short-term and memory-like NK cell cytotoxicity and IFNγ production against leukemia targets, as well as equivalent control of leukemia in NSG mice. Thus, HFPCs represent a protein engineering approach that solves many problems associated with multisignal receptor engagement on immune cells, and HCW9201-primed NK cells can be advanced as an ideal approach for clinical GMP-grade memory-like NK cell production for cancer therapy.
Atherosclerosis is a chronic inflammatory disease caused by deposition of oxidative low-density lipoprotein (LDL) in the arterial intima which triggers the innate immune response through myeloid ...cells such as macrophages. Regulatory T cells (Tregs) play an important role in controlling the progression or regression of atherosclerosis by resolving macrophage-mediated inflammatory functions. Interleukin-2 (IL-2) signaling is essential for homeostasis of Tregs. Since recombinant IL-2 has an unfavorable pharmacokinetic profile limiting its therapeutic use, we constructed a fusion protein, designated HCW9302, containing two IL-2 domains linked by an extracellular tissue factor domain. We found that HCW9302 exhibited a longer serum half-life with an approximately 1000-fold higher affinity for the IL-2Rα than IL-2. HCW9302 could be administered to mice at a dosing range that expanded and activated Tregs but not CD4
effector T cells. In an
mouse model, HCW9302 treatment curtailed the progression of atherosclerosis through Treg activation and expansion, M2 macrophage polarization and myeloid-derived suppressor cell induction. HCW9302 treatment also lessened inflammatory responses in the aorta. Thus, HCW9302 is a potential therapeutic agent to expand and activate Tregs for treatment of inflammatory and autoimmune diseases.
Abstract
Regulatory T cells (CD4+CD25+FoxP3+) (Tregs) are a subset of CD4 T cells that suppress the activities of other immune cells and have applications in the treatment of autoimmune and ...inflammatory diseases. Their use as an adoptive cell therapy has been limited by the practicality of expanding and purifying clinically sufficient numbers of cells. HCW9213 and HCW9302 are fusion proteins based on HCW Biologics’ TOBI™ technology platform, consisting of anti-CD3/anti-CD28 antibody domains and IL-2 domains, respectively. When used in combination, these fusion proteins were capable of expanding human Treg cells in vitro without the use of anti-CD3/CD28 magnetic beads and/or feeder cells, improving the overall yield, process efficiency and overcoming regulatory hurdles in manufacturing. Tregs generated with these molecules displayed similar phenotypes and suppressive cytokine production as Tregs expanded with recombinant human IL-2. Using a proprietary anti-CD39 antibody to isolate CD39+ Tregs, we have also been able to generate a Treg population with twice the suppressive activity against CD4+ T responder cells as traditional CD4+CD25+CD127lo Tregs. Thus, using its novel fusion proteins, HCW Biologics has been able to develop a superior Treg cell product ideal for the use in adoptive cell transfer. Additionally, this Treg platform can potentially be further optimized with addition of disease-targeted chimeric antigen receptors (CAR).
Therapy induced senescence (TIS) in tumors and TIS cancer cells secrete proinflammatory senescence-associated secretory phenotype (SASP) factors. SASP factors promote TIS cancer cells to re-enter the ...growth cycle with stemness characteristics, resulting in chemo-resistance and disease relapse. Herein, we show that the immunotherapeutic HCW9218, comprising transforming growth factor-β (TGF-β) receptor II and interleukin (IL)-15/IL-15 receptor α domains, enhances metabolic and cytotoxic activities of immune cells and reduces TIS tumor cells in vivo to improve the efficacy of docetaxel and gemcitabine plus nab-paclitaxel against B16F10 melanoma and SW1990 pancreatic tumors, respectively. Mechanistically, HCW9218 treatment reduces the immunosuppressive tumor microenvironment and enhances immune cell infiltration and cytotoxicity in the tumors to eliminate TIS cancer cells. Immuno-depletion analysis suggests that HCW9218-activated natural killer cells play a pivotal role in TIS cancer cell removal. HCW9218 treatment following docetaxel chemotherapy further enhances efficacy of tumor antigen-specific and anti-programmed death-ligand 1 (PD-L1) antibodies in B16F10 tumor-bearing mice. We also show that HCW9218 treatment decreases TIS cells and lowers SASP factors in off-target tissues caused by chemotherapy of tumor-bearing mice. Collectively, HCW9218 has the potential to significantly enhance anti-tumor efficacy of chemotherapy, therapeutic antibodies, and checkpoint blockade by eliminating TIS cancer cells while reducing TIS-mediated proinflammatory side effects in normal tissues.
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An immunotherapeutic molecule, HCW9218, demonstrated anti-tumor efficacy by eliminating chemotherapy-induced senescent cells and reducing the off-target effects mediated by chemotherapy. HCW9218 represents a potent anti-cancer immunotherapeutic for use in combination with approved therapies to improve the health span and life span of treated patients.
Advances in immunostimulatory and anti-immunosuppressive therapeutics have revolutionized cancer treatment. However, novel immunotherapeutics with these dual functions are not frequently reported. ...Here we describe the creation of a heterodimeric bifunctional fusion molecule, HCW9218, constructed using our soluble tissue factor (TF)-based scaffold technology. This complex comprises extracellular domains of the human transforming growth factor-β (TGF-β) receptor II and a human interleukin-15 (IL-15)/IL-15 receptor α complex. HCW9218 can be readily expressed in CHO cells and purified using antibody-based affinity chromatography in a large-scale manufacturing setting. HCW9218 potently activates mouse natural killer (NK) cells and CD8+ T cells in vitro and in vivo to enhance cell proliferation, metabolism, and antitumor cytotoxic activities. Similarly, human immune cells become activated with increased cytotoxicity following incubation with HCW9218. This fusion complex also exhibits TGF-β neutralizing activity in vitro and sequesters plasma TGF-β in vivo. In a syngeneic B16F10 melanoma model, HCW9218 displayed strong antitumor activity mediated by NK cells and CD8+ T cells and increased their infiltration into tumors. Repeat-dose subcutaneous administration of HCW9218 was well tolerated by mice, with a half-life sufficient to provide long-lasting biological activity. Thus, HCW9218 may serve as a novel therapeutic to simultaneously provide immunostimulation and lessen immunosuppression associated with tumors.
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A bifunctional fusion protein, HCW9218, was created using tissue factor-based scaffold technology. HCW9218 comprises the extracellular domains of human transforming growth factor-β receptor II and human interleukin-15 (IL-15)/IL-15 receptor α. This fusion protein represents a potent anti-cancer immunotherapeutic to simultaneously provide immune stimulation and lessen immunosuppressive activities associated with tumors.
Abstract
Adoptive cell therapy (ACT) using NK cells is a promising armament in the fight against cancer. Cytokine induced memory like (CIML) NK cells have been shown in clinical studies to have ...potent antitumor activity with superior in vivo persistence. Currently, the expansion of NK cells for clinical development is mainly based on feeder cells, which imposes significant regulatory hurdles and increases the costs for manufacturing. We have developed fusion proteins, HCW9201 and HCW9206 comprising of IL-15/IL-18/IL-12 and IL15/IL-7/IL-21, respectively, capable of priming memory-like differentiation and expanding CIML NK cell products without using feeder cells. This “Kick and Expand” strategy allows greater than 100x expansion of CIML NK cells from donor PBMCs in as little as 14 days without the use of exogenous feeder cells. Continued expansion can yield sufficient CIML NK cells for cryopreservation and multiple ACT infusions. The NK cells generated have bona fide memory-like properties: enhanced antitumor activity across multiple cancer cell lines, higher metabolic capacity, stable epigenetic demethylation of the IFN-γ promoter and increased persistence in NSG mice, when compared to conventional NK cells. In conclusion, this “Kick and Expand” process supports generation of abundant CIML NK cells for multiple ACT infusions and provides simpler, more regulatory friendly, off-the-shelf platform for generating NK cell products, including those with chimeric antigen receptor (CAR) constructs.
Accumulation of senescent cells (SNCs) with a senescence‐associated secretory phenotype (SASP) has been implicated as a major source of chronic sterile inflammation leading to many age‐related ...pathologies. Herein, we provide evidence that a bifunctional immunotherapeutic, HCW9218, with capabilities of neutralizing TGF‐β and stimulating immune cells, can be safely administered systemically to reduce SNCs and alleviate SASP in mice. In the diabetic db/db mouse model, subcutaneous administration of HCW9218 reduced senescent islet β cells and SASP resulting in improved glucose tolerance, insulin resistance, and aging index. In naturally aged mice, subcutaneous administration of HCW9218 durably reduced the level of SNCs and SASP, leading to lower expression of pro‐inflammatory genes in peripheral organs. HCW9218 treatment also reverted the pattern of key regulatory circadian gene expression in aged mice to levels observed in young mice and impacted genes associated with metabolism and fibrosis in the liver. Single‐nucleus RNA Sequencing analysis further revealed that HCW9218 treatment differentially changed the transcriptomic landscape of hepatocyte subtypes involving metabolic, signaling, cell‐cycle, and senescence‐associated pathways in naturally aged mice. Long‐term survival studies also showed that HCW9218 treatment improved physical performance without compromising the health span of naturally aged mice. Thus, HCW9218 represents a novel immunotherapeutic approach and a clinically promising new class of senotherapeutic agents targeting cellular senescence‐associated diseases.
Bifunctional immunotherapeutic HCW9218 functions as a novel SNC‐reducing and senomorphic agent in mice. Subcutaneous administration of HCW9218 activates NK, innate lymphoid group‐1, and CD8+ T cells, and neutralizes TGF‐ß to reduce senescent cells (SNC‐reducing) and SASP (senomorphic) leading to lower chronic inflammation and restored tissue homeostasis.
Cross-linking mass spectrometry (XL-MS) has evolved into a pivotal technique for probing protein interactions. This study describes the implementation of Parallel Accumulation-Serial Fragmentation ...(PASEF) on timsTOF instruments, enhancing the detection and analysis of protein interactions by XL-MS. Addressing the challenges in XL-MS, such as the interpretation of complex spectra, low abundant cross-linked peptides, and a data acquisition bias, our current study integrates a peptide-centric approach for the analysis of XL-MS data and presents the foundation for integrating data-independent acquisition (DIA) in XL-MS with a vendor-neutral and open-source platform. A novel workflow is described for processing data-dependent acquisition (DDA) of PASEF-derived information. For this, software by Bruker Daltonics is used, enabling the conversion of these data into a format that is compatible with MeroX and Skyline software tools. Our approach significantly improves the identification of cross-linked products from complex mixtures, allowing the XL-MS community to overcome current analytical limitations.
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•An optimal allocation system for scarce resources should simultaneously ensure maximal utility, but also equity.•Large differences exist between centers and countries for ethical and ...legislative reasons.•A future globally applicable strategy should combine donor and recipient factors.•This strategy must predict probability of death on the waiting list, post-transplant survival and morbidity, and costs.
An optimal allocation system for scarce resources should simultaneously ensure maximal utility, but also equity. The most frequent principles for allocation policies in liver transplantation are therefore criteria that rely on pre-transplant survival (sickest first policy), post-transplant survival (utility), or on their combination (benefit). However, large differences exist between centers and countries for ethical and legislative reasons. The aim of this study was to report the current worldwide practice of liver graft allocation and discuss respective advantages and disadvantages.
Countries around the world that perform 95 or more deceased donor liver transplantations per year were analyzed for donation and allocation policies, as well as recipient characteristics.
Most countries use the model for end-stage liver disease (MELD) score, or variations of it, for organ allocation, while some countries opt for center-based allocation systems based on their specific requirements, and some countries combine both a MELD and center-based approach. Both the MELD and center-specific allocation systems have inherent limitations. For example, most countries or allocation systems address the limitations of the MELD system by adding extra points to recipient’s laboratory scores based on clinical information. It is also clear from this study that cancer, as an indication for liver transplantation, requires special attention.
The sickest first policy is the most reasonable basis for the allocation of liver grafts. While MELD is currently the standard for this model, many adjustments were implemented in most countries. A future globally applicable strategy should combine donor and recipient factors, predicting probability of death on the waiting list, post-transplant survival and morbidity, and perhaps costs.
An optimal allocation system for scarce resources should simultaneously ensure maximal utility, but also equity. While the model for end-stage liver disease is currently the standard for this model, many adjustments were implemented in most countries. A future globally applicable strategy should combine donor and recipient factors predicting probability of death on the waiting list, post-transplant survival and morbidity, and perhaps costs.