No

No. Jurkat cells were plated in a 96-well plate and incubated at 37C overnight. The next day, cells were incubated with the indicated concentrations of HERA-CD27L, trimeric CD27L, or anti-CD27 antibody. Productive CD27 signaling induced by treatment with the agonistic compounds drives expression of firefly luciferase in the NFB-luc2/CD27 Jurkat cells. After 6 h of induction at 37C, the luciferase assay reagent was added and luminescence (RLU) was measured (Tecan Infinite F500). The fold induction of measured luminescence was calculated by the formula: RLUstimulated/RLUunstimulated control in order to compare multiple experiments. Functional binding of hexavalent HERA-CD27L and trimeric CD27L to human, mouse, and cynomolgus monkey CD27-FC For ELISA assays assessing functional binding of CD27L to its corresponding receptor CD27, coating of microtiter plates was performed with 0.75 g/mL human or mouse CD27-Fc (Bio-Techne GmbH) or cynomolgus monkey CD27-Fc. Cynomolgus monkey (T cell activation, proliferation, and differentiation assays To test the activity of HERA-CD27L and trimeric CD27L on primary human T cells, na?ve CD4+ or CD8+ T cells were isolated from PBMCs using indirect magnetic bead-based isolation kits (Cat. No. 130-094-131 and Cat. No. 130-093-244, Miltenyi). Purified T cells were labeled with CFSE (CFSE Cell Division Tracker Kit, BioLegend), resuspended in medium (AIM-V w/o FCS + AlbuMax, Gibco) and stimulated with pre-coated anti-CD3 antibody (overnight, clone OKT3, 1 g/mL) or medium control. HERA-CD27L or trimeric CD27L, both 100 ng/mL, was added immediately. Between days 2 and 6, T cells were harvested and examined by flow Glimepiride cytometry (analyzed markers as described below). For intracellular staining, cells were treated with PMA (20 ng/ml), Ionomycin (1 M), and Brefeldin A (1:1,000) at 37C for 5 h prior to being fixed, permeabilized, stained, and examined by flow cytometry. Flow cytometry For flow cytometry (FCM), cells Glimepiride were labeled with the following antibodies (clone): anti-mouse CD4 (RM4-5), CD8a Glimepiride (53-6.7 or KT15 for tetramer binding studies), and CD44 (IM7) and anti-human CD134 (OX40) (Ber-ACT35), CD137 (4-1BB) (4B4-1), CD25 (BC96), CD27 (O323), CD28 (CD28.2), CD3 (OKT3), CD357 (GITR) (ebioAITR), CD4 (OKT4), CD45RA (HI100), CD45RO (UCHL1), CD8 (SK1), IFN- (B27), IL-2 (MQ1-17H12), and TNF- (MAb11) (all BD Bioscience or Biolegend). Cells were acquired using the FACSCelesta BVR12 (BD Biosciences) or Guava EasyCyte 12 Flow Cytometer (EMD Millipore). Antibody quality was checked and gating was performed using isotype controls. FlowJo Software (10.2) (FlowJo, LLC) was used for the analysis of FCM data. Storage, freeze/thaw, heat stress, and pH stability assays For storage stability, HERA-CD27L was stored at 37 2C, room temperature or 5 3C for 1 h, 1 and 4 days, and 2 weeks (at 5 3C), 1 and 4 days and 2 weeks (at room temperature or 37 2C) before stability analysis. For freeze/thaw stability, HERA-CD27L was frozen at <-15C and subsequently thawed at room temperature. Samples were exposed to one, three or five additional freeze/thaw cycles before stability analysis. For pH stability, HERA-CD27L was exposed to pH 2.0, pH 3.0, or pH 4.0 (20 mM Na-citrate/HCl) (S?rensen), pH 7.0 (20 mM phosphate) (S?rensen) or pH 10.0, pH 11.0, TIAM1 pH 12.0 (20 mM glycine/NaOH, 20 mM NaCl) (S?rensen). At 30 min, 2 or 24 h after re-buffering, aliquots were taken and frozen at <-65C prior to stability analysis. For heat stress, HERA-CD27L was exposed for 10 min in a thermo-block to.