Mary Jo Rademacher , Mary L. Faber , Kathleen M. Bone , Jeffrey A. Medin , Nathan J. Schloemer
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Despite increasing utilization, there remains limited data on immune consequences or tumor-directed effects of fate control.</p></div><div><h3>Objectives</h3><p>We sought to engage the mutant thymidylate kinase (mTMPK) metabolic fate control system to regulate systemic inflammation and assess the impact on NK cell effector functions.</p></div><div><h3>Methods</h3><p>Primary human sarcoma short-passage samples and cell lines were transduced with LV/hu-IL-12_mTMPK engineering expression of IL-12 and an AZT-associated fate control enzyme. We assessed transduced sarcoma responses to AZT engagement and subsequent modulation of NK cell functions as measured by inflammatory cytokine production and cytotoxicity.</p></div><div><h3>Results</h3><p>AZT administration to transduced (LV/hu-IL-12_mTMPK) short-passage primary human sarcomas and human Ewing sarcoma, osteosarcoma, and rhabdomyosarcoma cell lines, abrogated the robust expression of human IL-12. Fate control activation elicited a specific dose-dependent cytotoxic effect measured by metabolic activity (WST-1) and cell death (Incucyte). NK effector functions of IFN-γ and cytotoxic granule release were significantly augmented despite IL-12 abrogation. This correlated with preferentially induced expression of NK cell activation ligands.</p></div><div><h3>Conclusions</h3><p>mTMPK fate control engagement terminates transduced sarcoma IL-12 production and triggers cell death, but also augments an NK cell-mediated response coinciding with metabolic stress activating surface ligand induction. 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Sarcomas transduced with lentiviruses to express human IL-12 are only cleared in mice bearing mature human NK cells. However, systemic inflammation limits IL-12 utilization. Fate control a.k.a. “suicide mechanisms” regulate unchecked systemic inflammation caused by cellular immunotherapies. Despite increasing utilization, there remains limited data on immune consequences or tumor-directed effects of fate control.</p></div><div><h3>Objectives</h3><p>We sought to engage the mutant thymidylate kinase (mTMPK) metabolic fate control system to regulate systemic inflammation and assess the impact on NK cell effector functions.</p></div><div><h3>Methods</h3><p>Primary human sarcoma short-passage samples and cell lines were transduced with LV/hu-IL-12_mTMPK engineering expression of IL-12 and an AZT-associated fate control enzyme. We assessed transduced sarcoma responses to AZT engagement and subsequent modulation of NK cell functions as measured by inflammatory cytokine production and cytotoxicity.</p></div><div><h3>Results</h3><p>AZT administration to transduced (LV/hu-IL-12_mTMPK) short-passage primary human sarcomas and human Ewing sarcoma, osteosarcoma, and rhabdomyosarcoma cell lines, abrogated the robust expression of human IL-12. Fate control activation elicited a specific dose-dependent cytotoxic effect measured by metabolic activity (WST-1) and cell death (Incucyte). NK effector functions of IFN-γ and cytotoxic granule release were significantly augmented despite IL-12 abrogation. 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引用次数: 0
摘要
导言NK细胞是一种尚未开发的癌症治疗资源。用慢病毒转导表达人类 IL-12 的肉瘤只有在携带成熟人类 NK 细胞的小鼠体内才能被清除。然而,全身性炎症限制了IL-12的利用。命运控制又称 "自杀机制",可调节细胞免疫疗法引起的不受限制的全身炎症。我们试图利用突变胸苷酸激酶(mTMPK)代谢命运控制系统来调节全身炎症,并评估其对 NK 细胞效应功能的影响。方法用 LV/hu-IL-12_mTMPK 工程表达 IL-12 和 AZT 相关命运控制酶转导原发性人类肉瘤短通道样本和细胞系。结果对转导(LV/hu-IL-12_mTMPK)的短通道原代人类肉瘤和人类尤文肉瘤、骨肉瘤和横纹肌肉瘤细胞系施用 AZT 后,人类 IL-12 的强健表达消失了。通过代谢活性(WST-1)和细胞死亡(Incucyte)测量,命运控制激活可引起特定剂量依赖性的细胞毒性效应。尽管 IL-12 被削弱,但 IFN-γ 和细胞毒性颗粒释放的 NK 效应功能仍显著增强。结论mTMPK命运控制参与能终止转导肉瘤IL-12的产生并引发细胞死亡,还能增强NK细胞介导的反应,同时还能激活表面配体诱导的代谢应激。命运控制参与可为 NK 细胞介导的癌症清除提供一种新的免疫激活方法。
Fate control engagement augments NK cell responses in LV/hu-IL-12 transduced sarcoma
Introduction
NK cells are an untapped resource for cancer therapy. Sarcomas transduced with lentiviruses to express human IL-12 are only cleared in mice bearing mature human NK cells. However, systemic inflammation limits IL-12 utilization. Fate control a.k.a. “suicide mechanisms” regulate unchecked systemic inflammation caused by cellular immunotherapies. Despite increasing utilization, there remains limited data on immune consequences or tumor-directed effects of fate control.
Objectives
We sought to engage the mutant thymidylate kinase (mTMPK) metabolic fate control system to regulate systemic inflammation and assess the impact on NK cell effector functions.
Methods
Primary human sarcoma short-passage samples and cell lines were transduced with LV/hu-IL-12_mTMPK engineering expression of IL-12 and an AZT-associated fate control enzyme. We assessed transduced sarcoma responses to AZT engagement and subsequent modulation of NK cell functions as measured by inflammatory cytokine production and cytotoxicity.
Results
AZT administration to transduced (LV/hu-IL-12_mTMPK) short-passage primary human sarcomas and human Ewing sarcoma, osteosarcoma, and rhabdomyosarcoma cell lines, abrogated the robust expression of human IL-12. Fate control activation elicited a specific dose-dependent cytotoxic effect measured by metabolic activity (WST-1) and cell death (Incucyte). NK effector functions of IFN-γ and cytotoxic granule release were significantly augmented despite IL-12 abrogation. This correlated with preferentially induced expression of NK cell activation ligands.
Conclusions
mTMPK fate control engagement terminates transduced sarcoma IL-12 production and triggers cell death, but also augments an NK cell-mediated response coinciding with metabolic stress activating surface ligand induction. Fate control engagement could offer a novel immune activation method for NK cell-mediated cancer clearance.
期刊介绍:
Under new editorial leadership, Experimental and Molecular Pathology presents original articles on disease processes in relation to structural and biochemical alterations in mammalian tissues and fluids and on the application of newer techniques of molecular biology to problems of pathology in humans and other animals. The journal also publishes selected interpretive synthesis reviews by bench level investigators working at the "cutting edge" of contemporary research in pathology. In addition, special thematic issues present original research reports that unravel some of Nature''s most jealously guarded secrets on the pathologic basis of disease.
Research Areas include: Stem cells; Neoangiogenesis; Molecular diagnostics; Polymerase chain reaction; In situ hybridization; DNA sequencing; Cell receptors; Carcinogenesis; Pathobiology of neoplasia; Complex infectious diseases; Transplantation; Cytokines; Flow cytomeric analysis; Inflammation; Cellular injury; Immunology and hypersensitivity; Athersclerosis.
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