Jim Hartnett scite author profile

Apoptosis is an important and necessary cell death program which promotes homeostasis and organismal survival. When dysregulated, however, it can lead to a myriad of pathologies from neurodegenerative diseases to cancer. Apoptosis is therefore the subject of intense study aimed at dissecting its pathways and molecular mechanisms. Although many assay methods exist for confirming whether an apoptotic response has occurred in vitro, most methods are destructive and involve laborious operator effort or specialized instrumentation. Here we describe a real-time, no-wash, microplate method which utilizes recombinant annexin V fusion proteins containing evolved binary subunits of NanoBiT™ luciferase. The fusion proteins, a time-released enzymatic substrate, a necrosis detection dye and exogenous calcium ions are delivered via an optimized and physiologically inert reagent directly to cells in culture at the time of treatment or dosing. Luminescent signals proportional to phosphatidylserine (PS) exposure and fluorescent signals generated as a result of loss of membrane integrity are then collected using a standard multimode plate reader at scheduled intervals over the exposure. The resulting luminescent and fluorescent data are then used to define the kinetics and magnitude of an apoptotic response. This study details our efforts to develop, characterize, and demonstrate the features of the assay by providing relevant examples from diverse cell models for programmed cell death.

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Protein–protein interaction studies on protein arrays: Effect of detection strategies on signal-to-background ratios

Hurst

Hook

Slater

et al. 2009

Analytical Biochemistry

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A luminescent assay for real-time measurements of receptor endocytosis in living cells

Robers

Binkowski

Cong

et al. 2015

Analytical Biochemistry

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Determining ADCC Activity of Antibody‐Based Therapeutic Molecules using Two Bioluminescent Reporter‐Based Bioassays

et al. 2021

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Antibody Fc effector function is one of the main mechanisms of action (MoA) for therapeutic monoclonal antibodies. Measurement of antibody‐dependent cellular cytotoxicity (ADCC) is critical for understanding the Fc effector function during monoclonal antibody development. This article covers two cell‐based ADCC bioassays which can quantitatively measure the antibody potency in ADCC. Basic Protocol 1 describes the ADCC reporter bioassay using engineered ADCC effector cells which measures the FcγRIIIa‐mediated luciferase reporter activation upon the binding of antibody‐coated target cells. Basic Protocol 2 describes the PBMC ADCC bioassay using primary peripheral blood mononuclear cells (PBMC) as effector cells and engineered HiBiT target cells in an assay that measures the release of HiBiT from target cells upon antibody‐mediated target lysis. Optimization of several key assay parameters including cell handling, effector:target (E:T) ratios, assay plate, and plate reader requirement, and how these parameters impact assay performance are discussed. © 2021 Promega Corporation. Current Protocols published by Wiley Periodicals LLC. Basic Protocol 1: ADCC reporter bioassay using engineered ADCC bioassay effector cells Basic Protocol 2: PBMC ADCC bioassay using primary PBMC and engineered HiBiT target cells

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Abstract 5440: Novel PD-1 blockade bioassay to assess therapeutic antibodies in PD-1 and PD-L1 immunotherapy programs

Cheng

Karassina

Grailer

et al. 2015

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Programmed death receptor-1 (PD-1) and its ligand (PD-L1) are among the few important immunotherapy targets for cancer. Current PD1 assays measure cell proliferation or cytokine production in primary T cells which are tedious, have high assay variation and small assay window. To enable quantitative potency measurement for key anti-PD-1 drugs in the market or in clinical trials such as pembrolizumab and nivolumab, as well as anti-PD-L1 drugs in clinical trials such as MPDL3280A and BMS-936559, here we report the development of a robust bioluminescent cell-based PD1 blockade bioassay. For this, we built a PD-1 effector cells in Jurkat cells which stably express human PD-1 and a NFAT-RE-luciferase reporter, and a PD-L1 positive artificial Antigen Presenting Cells (PD-L1+ aAPC) in CHO-K1 cells which stably express PD-L1 and an engineered TCR activator. Once these two cell types were co-cultivated, transcriptional activation of NFAT pathway in PD-1 effector cells, mediated by binding of TCR complex with TCR activator in PD-L1+ aAPC, is significantly suppressed by PD-1/PD-L1 engagement. This inhibition can then be specifically reversed by co-incubation of PD-1 or PD-L1 blocking antibodies in dose-dependent manner, but not by the antibody for other immune checkpoint receptors such as anti-CTLA4 ipilimumab. We further developed both PD-1 effector cells and PD-L1+ aAPC in Thaw-and-Use format so the cells can be plated for assay without the need of cell culture. The resultant PD-1 assay using Thaw-and-Use cells brings the benefit of convenience, low day-to-day variation, and easy lab-to-lab assay transfer. We demonstrate the assay is able to measure relative potency for antibody biologics, and also can detect potency changes for stressed antibody samples. In summary, the reporter-based PD-1 blockade assay provides a valuable tool for both drug screening and characterization in early drug discovery, and lot release and stability study in drug manufacture for therapeutic antibody drug candidates in PD-1 and PD-L1 immunotherapy programs. Citation Format: Zhi-Jie Jey Cheng, Natasha Karassina, Jamison Grailer, Jim Hartnett, Frank Fan, Mei Cong. Novel PD-1 blockade bioassay to assess therapeutic antibodies in PD-1 and PD-L1 immunotherapy programs. [abstract]. In: Proceedings of the 106th Annual Meeting of the American Association for Cancer Research; 2015 Apr 18-22; Philadelphia, PA. Philadelphia (PA): AACR; Cancer Res 2015;75(15 Suppl):Abstract nr 5440. doi:10.1158/1538-7445.AM2015-5440

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Jim Hartnett

A real-time, bioluminescent annexin V assay for the assessment of apoptosis

Protein–protein interaction studies on protein arrays: Effect of detection strategies on signal-to-background ratios

A luminescent assay for real-time measurements of receptor endocytosis in living cells

Determining ADCC Activity of Antibody‐Based Therapeutic Molecules using Two Bioluminescent Reporter‐Based Bioassays

Abstract 5440: Novel PD-1 blockade bioassay to assess therapeutic antibodies in PD-1 and PD-L1 immunotherapy programs

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