Summary of Study ST001476
This data is available at the NIH Common Fund's National Metabolomics Data Repository (NMDR) website, the Metabolomics Workbench, https://www.metabolomicsworkbench.org, where it has been assigned Project ID PR001000. The data can be accessed directly via it's Project DOI: 10.21228/M8F982 This work is supported by NIH grant, U2C- DK119886.
See: https://www.metabolomicsworkbench.org/about/howtocite.php
| Study ID | ST001476 |
| Study Title | Design of Experiments for Maximizing T cell endpoints |
| Study Summary | Purified T cells from a single healthy donor were expanded in vitro with either magnetic beads or degradable micro-scaffold (DMS) particles. Magnetic bead cultures were expanded according to manufacturer’s instructions, while DMS cultures were expanded with varying DMS particle concentration, IL2 concentration, and antigen surface density on the particles, according to a design of experiments. Media of each culture of was sampled repeatedly over the course of a 14 day period. Quantities and characteristics of activated T cells were assessed at the end of the culture period, and media was analyzed by 1H-NMR. Analysis of spectra resulted in a set of 20 features that was used in predictive modeling of T cell endpoints, along with culture parameters described above and cytokine data. A second validation experiment was performed with different values for culture parameters, using the same culture, sampling, and NMR analysis methods. |
| Institute | University of Georgia |
| Department | Complex Carbohydrate Research Center |
| Laboratory | Edison |
| Last Name | Colonna |
| First Name | Max |
| Address | 315 Riverbend Rd |
| maxwellbaca@uga.edu | |
| Phone | 7065420257 |
| Submit Date | 2020-08-12 |
| Num Groups | 2 |
| Total Subjects | 1 |
| Raw Data Available | Yes |
| Analysis Type Detail | NMR |
| Release Date | 2020-09-10 |
| Release Version | 1 |
Select appropriate tab below to view additional metadata details:
Project:
| Project ID: | PR001000 |
| Project DOI: | doi: 10.21228/M8F982 |
| Project Title: | Predicting T Cell Quality During Manufacturing Through an AI-based Integrative Multi-omics Analytical Platform |
| Project Summary: | Large-scale, reproducible manufacturing of therapeutic cells with consistent high quality is vital for translation to clinically effective and widely accessible cell-therapies for patients. However, the biological and logistical complexity of manufacturing a living product, including challenges associated with their inherent variability as well as uncertainties of process parameters, currently make it difficult to achieve predictable cell-product quality. Using a degradable microscaffold-based T cell manufacturing process as an example, we developed an Artificial Intelligence (AI)-driven experimental-computational platform to identify a multivariate set of critical process parameters (CPPs) and critical quality attributes (CQAs) from heterogeneous, high dimensional, time-dependent multi-omics data, measurable during early stages of manufacturing and that are predictive of end-of-manufacturing product quality. Sequential, Design-of-Experiment (DOE)-based studies, coupled with a set of agnostic machine-learning framework, was used to extract multiple feature combinations from Day 4 to 6 media assessment, that were highly predictive (R2>90%) of the end-product phenotypes, specifically the total live CD4+ and CD8+ naïve and central memory T cells (CD63L+CCR7+ cells), and the CD4+/CD8+ T cell ratio. This generalizable workflow and computational platform could be broadly applied to any cell-therapy manufacturing process to identify multivariate early CQAs and CPPs that are predictable of final product quality. |
| Institute: | University of Georgia;Georgia Institute of Technology;University of Puerto Rico Mayaguez |
| Last Name: | Colonna |
| First Name: | Maxwell |
| Address: | 315 Riverbend Rd, Athens, Georgia, 30602, USA |
| Email: | maxwellbaca@uga.edu |
| Phone: | 7065420257 |
| Funding Source: | NSF EEC-1648035 |
| Publications: | Predicting T Cell Quality During Manufacturing Through an AI-based Integrative Multi-omics Analytical Platform |
| Contributors: | Valerie Odeh-Couvertier, Nathan J. Dwarshuis, Maxwell B. Colonna, Bruce L. Levine, Arthur S. Edison, Theresa Kotanchek, Krishnendu Roy, and Wandaliz Torres-Garcia |
Subject:
| Subject ID: | SU001550 |
| Subject Type: | Cultured cells |
| Subject Species: | Homo sapiens |
| Taxonomy ID: | 9606 |
| Cell Biosource Or Supplier: | Astarte Bio |
| Cell Strain Details: | Cat 1017-3975JY18 |
Factors:
Subject type: Cultured cells; Subject species: Homo sapiens (Factor headings shown in green)
| mb_sample_id | local_sample_id | method |
|---|---|---|
| SA124598 | batch1_92 | Beads | timepoint:11 | il2_conc:20 | carrier_conc:n/a | abs_surface_density:n/a |
| SA124599 | batch1_67 | Beads | timepoint:11 | il2_conc:20 | carrier_conc:n/a | abs_surface_density:n/a |
| SA124600 | batch1_103 | Beads | timepoint:11 | il2_conc:20 | carrier_conc:n/a | abs_surface_density:n/a |
| SA124601 | batch1_32 | Beads | timepoint:11 | il2_conc:20 | carrier_conc:n/a | abs_surface_density:n/a |
| SA124602 | batch1_72 | Beads | timepoint:11 | il2_conc:20 | carrier_conc:n/a | abs_surface_density:n/a |
| SA124603 | batch1_118 | Beads | timepoint:11 | il2_conc:20 | carrier_conc:n/a | abs_surface_density:n/a |
| SA124604 | batch1_20 | Beads | timepoint:14 | il2_conc:20 | carrier_conc:n/a | abs_surface_density:n/a |
| SA124605 | batch1_78 | Beads | timepoint:14 | il2_conc:20 | carrier_conc:n/a | abs_surface_density:n/a |
| SA124606 | batch1_11 | Beads | timepoint:14 | il2_conc:20 | carrier_conc:n/a | abs_surface_density:n/a |
| SA124607 | batch1_2 | Beads | timepoint:14 | il2_conc:20 | carrier_conc:n/a | abs_surface_density:n/a |
| SA124608 | batch1_36 | Beads | timepoint:14 | il2_conc:20 | carrier_conc:n/a | abs_surface_density:n/a |
| SA124609 | batch1_26 | Beads | timepoint:4 | il2_conc:20 | carrier_conc:n/a | abs_surface_density:n/a |
| SA124610 | batch1_39 | Beads | timepoint:4 | il2_conc:20 | carrier_conc:n/a | abs_surface_density:n/a |
| SA124611 | batch1_119 | Beads | timepoint:4 | il2_conc:20 | carrier_conc:n/a | abs_surface_density:n/a |
| SA124612 | batch1_63 | Beads | timepoint:4 | il2_conc:20 | carrier_conc:n/a | abs_surface_density:n/a |
| SA124613 | batch1_101 | Beads | timepoint:4 | il2_conc:20 | carrier_conc:n/a | abs_surface_density:n/a |
| SA124614 | batch1_28 | Beads | timepoint:4 | il2_conc:20 | carrier_conc:n/a | abs_surface_density:n/a |
| SA124615 | batch1_116 | Beads | timepoint:6 | il2_conc:20 | carrier_conc:n/a | abs_surface_density:n/a |
| SA124616 | batch1_31 | Beads | timepoint:6 | il2_conc:20 | carrier_conc:n/a | abs_surface_density:n/a |
| SA124617 | batch1_117 | Beads | timepoint:6 | il2_conc:20 | carrier_conc:n/a | abs_surface_density:n/a |
| SA124618 | batch1_45 | Beads | timepoint:6 | il2_conc:20 | carrier_conc:n/a | abs_surface_density:n/a |
| SA124619 | batch1_51 | Beads | timepoint:6 | il2_conc:20 | carrier_conc:n/a | abs_surface_density:n/a |
| SA124620 | batch1_65 | Beads | timepoint:6 | il2_conc:20 | carrier_conc:n/a | abs_surface_density:n/a |
| SA124621 | batch1_62 | Beads | timepoint:8 | il2_conc:20 | carrier_conc:n/a | abs_surface_density:n/a |
| SA124622 | batch1_108 | Beads | timepoint:8 | il2_conc:20 | carrier_conc:n/a | abs_surface_density:n/a |
| SA124623 | batch1_123 | Beads | timepoint:8 | il2_conc:20 | carrier_conc:n/a | abs_surface_density:n/a |
| SA124624 | batch1_59 | Beads | timepoint:8 | il2_conc:20 | carrier_conc:n/a | abs_surface_density:n/a |
| SA124625 | batch1_18 | Beads | timepoint:8 | il2_conc:20 | carrier_conc:n/a | abs_surface_density:n/a |
| SA124626 | batch1_9 | Beads | timepoint:8 | il2_conc:20 | carrier_conc:n/a | abs_surface_density:n/a |
| SA124633 | batch2_108 | Buffer_control_last | timepoint:n/a | il2_conc:n/a | carrier_conc:n/a | abs_surface_density:n/a |
| SA124634 | batch1_130 | Buffer_control_last | timepoint:n/a | il2_conc:n/a | carrier_conc:n/a | abs_surface_density:n/a |
| SA124627 | batch1_48 | Buffer_control | timepoint:n/a | il2_conc:n/a | carrier_conc:n/a | abs_surface_density:n/a |
| SA124628 | batch1_96 | Buffer_control | timepoint:n/a | il2_conc:n/a | carrier_conc:n/a | abs_surface_density:n/a |
| SA124629 | batch2_1 | Buffer_control | timepoint:n/a | il2_conc:n/a | carrier_conc:n/a | abs_surface_density:n/a |
| SA124630 | batch2_96 | Buffer_control | timepoint:n/a | il2_conc:n/a | carrier_conc:n/a | abs_surface_density:n/a |
| SA124631 | batch2_48 | Buffer_control | timepoint:n/a | il2_conc:n/a | carrier_conc:n/a | abs_surface_density:n/a |
| SA124632 | batch1_1 | Buffer_control | timepoint:n/a | il2_conc:n/a | carrier_conc:n/a | abs_surface_density:n/a |
| SA124635 | batch1_128 | DMS | timepoint:11 | il2_conc:10 | carrier_conc:1500 | abs_surface_density:80 |
| SA124636 | batch1_16 | DMS | timepoint:11 | il2_conc:10 | carrier_conc:2500 | abs_surface_density:100 |
| SA124637 | batch1_89 | DMS | timepoint:11 | il2_conc:10 | carrier_conc:2500 | abs_surface_density:60 |
| SA124638 | batch1_5 | DMS | timepoint:11 | il2_conc:10 | carrier_conc:500 | abs_surface_density:100 |
| SA124639 | batch1_40 | DMS | timepoint:11 | il2_conc:10 | carrier_conc:500 | abs_surface_density:60 |
| SA124640 | batch1_70 | DMS | timepoint:11 | il2_conc:20 | carrier_conc:1500 | abs_surface_density:100 |
| SA124641 | batch1_34 | DMS | timepoint:11 | il2_conc:20 | carrier_conc:1500 | abs_surface_density:60 |
| SA124642 | batch1_6 | DMS | timepoint:11 | il2_conc:20 | carrier_conc:20 | abs_surface_density:20 |
| SA124643 | batch1_79 | DMS | timepoint:11 | il2_conc:20 | carrier_conc:20 | abs_surface_density:20 |
| SA124644 | batch1_106 | DMS | timepoint:11 | il2_conc:20 | carrier_conc:2500 | abs_surface_density:80 |
| SA124645 | batch1_37 | DMS | timepoint:11 | il2_conc:20 | carrier_conc:2500 | abs_surface_density:80 |
| SA124646 | batch1_110 | DMS | timepoint:11 | il2_conc:20 | carrier_conc:500 | abs_surface_density:80 |
| SA124647 | batch2_21 | DMS | timepoint:11 | il2_conc:30 | carrier_conc:1500 | abs_surface_density:1282 |
| SA124648 | batch2_20 | DMS | timepoint:11 | il2_conc:30 | carrier_conc:1500 | abs_surface_density:1729 |
| SA124649 | batch1_82 | DMS | timepoint:11 | il2_conc:30 | carrier_conc:1500 | abs_surface_density:80 |
| SA124650 | batch1_112 | DMS | timepoint:11 | il2_conc:30 | carrier_conc:1500 | abs_surface_density:80 |
| SA124651 | batch1_21 | DMS | timepoint:11 | il2_conc:30 | carrier_conc:2500 | abs_surface_density:100 |
| SA124652 | batch2_71 | DMS | timepoint:11 | il2_conc:30 | carrier_conc:2500 | abs_surface_density:1282 |
| SA124653 | batch2_61 | DMS | timepoint:11 | il2_conc:30 | carrier_conc:2500 | abs_surface_density:1729 |
| SA124654 | batch1_90 | DMS | timepoint:11 | il2_conc:30 | carrier_conc:2500 | abs_surface_density:60 |
| SA124655 | batch1_27 | DMS | timepoint:11 | il2_conc:30 | carrier_conc:500 | abs_surface_density:100 |
| SA124656 | batch2_103 | DMS | timepoint:11 | il2_conc:30 | carrier_conc:500 | abs_surface_density:1282 |
| SA124657 | batch2_15 | DMS | timepoint:11 | il2_conc:30 | carrier_conc:500 | abs_surface_density:1729 |
| SA124658 | batch1_33 | DMS | timepoint:11 | il2_conc:30 | carrier_conc:500 | abs_surface_density:60 |
| SA124659 | batch2_46 | DMS | timepoint:11 | il2_conc:35 | carrier_conc:1000 | abs_surface_density:1282 |
| SA124660 | batch2_7 | DMS | timepoint:11 | il2_conc:35 | carrier_conc:1000 | abs_surface_density:1729 |
| SA124661 | batch2_14 | DMS | timepoint:11 | il2_conc:35 | carrier_conc:2000 | abs_surface_density:1282 |
| SA124662 | batch2_91 | DMS | timepoint:11 | il2_conc:35 | carrier_conc:2000 | abs_surface_density:1729 |
| SA124663 | batch2_32 | DMS | timepoint:11 | il2_conc:35 | carrier_conc:3000 | abs_surface_density:1282 |
| SA124664 | batch2_72 | DMS | timepoint:11 | il2_conc:35 | carrier_conc:3000 | abs_surface_density:1729 |
| SA124665 | batch2_77 | DMS | timepoint:11 | il2_conc:40 | carrier_conc:1500 | abs_surface_density:1282 |
| SA124666 | batch2_83 | DMS | timepoint:11 | il2_conc:40 | carrier_conc:1500 | abs_surface_density:1729 |
| SA124667 | batch2_40 | DMS | timepoint:11 | il2_conc:40 | carrier_conc:2500 | abs_surface_density:1282 |
| SA124668 | batch2_4 | DMS | timepoint:11 | il2_conc:40 | carrier_conc:2500 | abs_surface_density:1729 |
| SA124669 | batch2_73 | DMS | timepoint:11 | il2_conc:40 | carrier_conc:3500 | abs_surface_density:1282 |
| SA124670 | batch2_98 | DMS | timepoint:11 | il2_conc:40 | carrier_conc:3500 | abs_surface_density:1729 |
| SA124671 | batch2_54 | DMS | timepoint:11 | il2_conc:40 | carrier_conc:500 | abs_surface_density:1282 |
| SA124672 | batch2_60 | DMS | timepoint:11 | il2_conc:40 | carrier_conc:500 | abs_surface_density:1729 |
| SA124673 | batch1_52 | DMS | timepoint:14 | il2_conc:10 | carrier_conc:1500 | abs_surface_density:80 |
| SA124674 | batch1_15 | DMS | timepoint:14 | il2_conc:10 | carrier_conc:2500 | abs_surface_density:100 |
| SA124675 | batch1_10 | DMS | timepoint:14 | il2_conc:10 | carrier_conc:2500 | abs_surface_density:60 |
| SA124676 | batch1_74 | DMS | timepoint:14 | il2_conc:10 | carrier_conc:500 | abs_surface_density:100 |
| SA124677 | batch1_107 | DMS | timepoint:14 | il2_conc:10 | carrier_conc:500 | abs_surface_density:60 |
| SA124678 | batch1_55 | DMS | timepoint:14 | il2_conc:20 | carrier_conc:1500 | abs_surface_density:100 |
| SA124679 | batch1_109 | DMS | timepoint:14 | il2_conc:20 | carrier_conc:1500 | abs_surface_density:60 |
| SA124680 | batch1_7 | DMS | timepoint:14 | il2_conc:20 | carrier_conc:20 | abs_surface_density:20 |
| SA124681 | batch1_84 | DMS | timepoint:14 | il2_conc:20 | carrier_conc:20 | abs_surface_density:20 |
| SA124682 | batch1_61 | DMS | timepoint:14 | il2_conc:20 | carrier_conc:2500 | abs_surface_density:80 |
| SA124683 | batch1_124 | DMS | timepoint:14 | il2_conc:20 | carrier_conc:2500 | abs_surface_density:80 |
| SA124684 | batch1_88 | DMS | timepoint:14 | il2_conc:20 | carrier_conc:500 | abs_surface_density:80 |
| SA124685 | batch2_50 | DMS | timepoint:14 | il2_conc:30 | carrier_conc:1500 | abs_surface_density:1282 |
| SA124686 | batch2_84 | DMS | timepoint:14 | il2_conc:30 | carrier_conc:1500 | abs_surface_density:1729 |
| SA124687 | batch1_129 | DMS | timepoint:14 | il2_conc:30 | carrier_conc:1500 | abs_surface_density:80 |
| SA124688 | batch1_43 | DMS | timepoint:14 | il2_conc:30 | carrier_conc:1500 | abs_surface_density:80 |
| SA124689 | batch1_64 | DMS | timepoint:14 | il2_conc:30 | carrier_conc:2500 | abs_surface_density:100 |
| SA124690 | batch2_59 | DMS | timepoint:14 | il2_conc:30 | carrier_conc:2500 | abs_surface_density:1282 |
| SA124691 | batch2_37 | DMS | timepoint:14 | il2_conc:30 | carrier_conc:2500 | abs_surface_density:1729 |
| SA124692 | batch1_49 | DMS | timepoint:14 | il2_conc:30 | carrier_conc:2500 | abs_surface_density:60 |
| SA124693 | batch1_120 | DMS | timepoint:14 | il2_conc:30 | carrier_conc:500 | abs_surface_density:100 |
| SA124694 | batch2_66 | DMS | timepoint:14 | il2_conc:30 | carrier_conc:500 | abs_surface_density:1282 |
| SA124695 | batch2_97 | DMS | timepoint:14 | il2_conc:30 | carrier_conc:500 | abs_surface_density:1729 |
| SA124696 | batch1_91 | DMS | timepoint:14 | il2_conc:30 | carrier_conc:500 | abs_surface_density:60 |
| SA124697 | batch2_17 | DMS | timepoint:14 | il2_conc:35 | carrier_conc:1000 | abs_surface_density:1282 |
Collection:
| Collection ID: | CO001545 |
| Collection Summary: | Conditioned culture media (Miltenyi Texmacs media). Was collected via pipetting as described in sample prep protocol document. |
| Sample Type: | T-cells |
| Collection Method: | Pipette |
| Volumeoramount Collected: | 60 uL |
| Storage Conditions: | -80℃ |
Treatment:
| Treatment ID: | TR001565 |
| Treatment Summary: | Cultures were prepared with varied IL2 concentration, DMS concentration, and DMS surface densities as described in study design. Culture media was replenished on days 4, 6, 8, 11 after sampling. |
| Cell Media: | Miltenyi Texmacs (Cat. 170-076-307) |
Sample Preparation:
| Sampleprep ID: | SP001558 |
| Sampleprep Summary: | Media samples were thawed at 4°C, then centrifuged at maximum speed for 15 minutes. 45 uL were transferred directly to NMR tube containing 5 uL of D2O with 100 uM DSS and mixed. Remaining supernatant from each sample combined for internal controls. |
| Sampleprep Protocol Filename: | mbcolonna_20200812_100701_PR_SP_protocol.pdf |
| Processing Storage Conditions: | 4℃ |
| Extraction Method: | None |
Analysis:
| Analysis ID: | AN002452 |
| Laboratory Name: | Edison |
| Analysis Type: | NMR |
| Operator Name: | Maxwell Colonna |
| Data Format: | Bruker |
| Num Factors: | 183 |
| Rt Units: | No RT Data |
| Results File: | ST001476_AN002452_Results.txt |
| Units: | UNITS:AU |
NMR:
| NMR ID: | NM000183 |
| Analysis ID: | AN002452 |
| Instrument Name: | Bruker Avance III HD |
| Instrument Type: | FT-NMR |
| NMR Experiment Type: | 1D-1H |
| Field Frequency Lock: | Deuterium |
| Spectrometer Frequency: | 600 MHz |
| NMR Probe: | 5mm TCI |
| NMR Solvent: | 90% H2O, 10% D2O |
| NMR Tube Size: | 1.7mm |
| Shimming Method: | Topshim |
| Pulse Sequence: | noesypr1d |
| Water Suppression: | Presaturation |
| Pulse Width: | 7.45 us |
| Power Level: | 5.5584 W |
| Receiver Gain: | 203 |
| Offset Frequency: | 2819.9 Hz |
| Presaturation Power Level: | 1.2333e-05 W |
| Chemical Shift Ref Cpd: | DSS |
| Temperature: | 25 |
| Number Of Scans: | 128 |
| Dummy Scans: | 4 |
| Acquisition Time: | 2.72 s |
| Relaxation Delay: | 4 s |
| Spectral Width: | 20 ppm |
| Num Data Points Acquired: | 65382 |
| Line Broadening: | 0.3 Hz |
| Baseline Correction Method: | Polynomial order 5 |
