@article{ee06aaf3ae2d4e6594fe9e4f812b247f,
title = "Computational Models Accurately Predict Multi-Cell Biomarker Profiles in Inflammation and Cancer",
abstract = "Individual computational models of single myeloid, lymphoid, epithelial, and cancer cells were created and combined into multi-cell computational models and used to predict the collective chemokine, cytokine, and cellular biomarker profiles often seen in inflamed or cancerous tissues. Predicted chemokine and cytokine output profiles from multi-cell computational models of gingival epithelial keratinocytes (GE KER), dendritic cells (DC), and helper T lymphocytes (HTL) exposed to lipopolysaccharide (LPS) or synthetic triacylated lipopeptide (Pam3CSK4) as well as multi-cell computational models of multiple myeloma (MM) and DC were validated using the observed chemokine and cytokine responses from the same cell type combinations grown in laboratory multi-cell cultures with accuracy. Predicted and observed chemokine and cytokine responses of GE KER + DC + HTL exposed to LPS and Pam3CSK4 matched 75% (15/20, p = 0.02069) and 80% (16/20, P = 0.005909), respectively. Multi-cell computational models became {\textquoteleft}personalized{\textquoteright} when cell line-specific genomic data were included into simulations, again validated with the same cell lines grown in laboratory multi-cell cultures. Here, predicted and observed chemokine and cytokine responses of MM cells lines MM.1S and U266B1 matched 75% (3/4) and MM.1S and U266B1 inhibition of DC marker expression in co-culture matched 100% (6/6). Multi-cell computational models have the potential to identify approaches altering the predicted disease-associated output profiles, particularly as high throughput screening tools for anti-inflammatory or immuno-oncology treatments of inflamed multi-cellular tissues and the tumor microenvironment.",
author = "Fischer, {Carol L.} and Bates, {Amber M.} and Lanzel, {Emily A.} and Guthmiller, {Janet M.} and Johnson, {Georgia K.} and Singh, {Neeraj Kumar} and Ansu Kumar and Robinson Vidva and Taher Abbasi and Shireen Vali and Xie, {Xian Jin} and Erliang Zeng and Brogden, {Kim A.}",
note = "Funding Information: This work was supported by NIH NIDCR grant R01 DE014390. The data presented herein were obtained at the Flow Cytometry Facility, which is a Carver College of Medicine and Holden Comprehensive Cancer Center core research facility at the University of Iowa. The facility is funded through user fees and the generous financial support of the Carver College of Medicine, Holden Comprehensive Cancer Center, and Iowa City Veteran{\textquoteright}s Administration Medical Center. Funding Information: Taher Abbasi, Shireen Vali, Carol L Fischer, and Kim A Brogden conceived the research. Neeraj Kumar Singh, Ansu Kumar, Robinson Vidva, Taher Abbasi, and Shireen Vali developed the predictive computational models and predicted the pathways and transcription factor responses to trigger agonists. Carol L Fischer and Amber M Bates performed the tissue co-culture work and determined the chemokine and cytokine analysis. Janet M Guthmiller and Georgia K Johnson obtained the gingival tissues from patients and isolated the gingival epithelial keratinocytes. Emily A. Lanzel assessed the purity of the gingival epithelial keratinocytes. Xian Jin Xie and Erliang Zeng performed the biostatistics and computational biology analysis. Carol L Fischer, Amber M Bates, Emily A. Lanzel, Janet M Guthmiller, Georgia K Johnson, Neeraj Kumar Singh, Ansu Kumar, Robinson Vidva, Taher Abbasi, Shireen Vali, Xian Jin Xie, Erliang Zeng, and Kim A Brogden all wrote their respective portions of the manuscript and proofed the final draft. A portion of Kim A Brogden{\textquoteright}s research was funded under an industrial funded research award from Cellworks Group, Inc., San Jose, CA to the University of Iowa. Taher Abbasi and Shireen Vali work for Cellworks Group, Inc., San Jose, CA. Neeraj Kumar Singh, Ansu Kumar, and Robinson Vidva are employees of Cellworks Research India Pvt Ltd, a fully owned subsidiary of Cellworks Group Inc. Carol L Fischer, Amber M Bates, Emily A. Lanzel, Janet M Guthmiller, Georgia K Johnson, Xian Jin Xie, and Erliang Zeng declare no competing financial interests. Kim A Brogden is an unpaid Editorial Board Member of Scientific Reports. Carol L Fischer, Amber M Bates, Emily A. Lanzel, Janet M. Guthmiller, Georgia K. Johnson, Neeraj Kumar Singh, Ansu Kumar, Robinson Vidva, Taher Abbasi, Shireen Vali, Xian Jin Xie, and Erliang Zeng declare no non-financial competing interests. Publisher Copyright: {\textcopyright} 2019, The Author(s).",
year = "2019",
month = dec,
day = "1",
doi = "10.1038/s41598-019-47381-4",
language = "English (US)",
volume = "9",
journal = "Scientific Reports",
issn = "2045-2322",
publisher = "Nature Publishing Group",
number = "1",
}