1. Automated cell type annotation and exploration of single-cell signaling dynamics using mass cytometry.
- Author
-
Kleftogiannnis D, Gavasso S, Tislevoll BS, van der Meer N, Motzfeldt IKF, Hellesøy M, Gullaksen SE, Griessinger E, Fagerholt O, Lenartova A, Fløisand Y, Schuringa JJ, Gjertsen BT, and Jonassen I
- Abstract
Mass cytometry by time-of-flight (CyTOF) is an emerging technology allowing for in-depth characterization of cellular heterogeneity in cancer and other diseases. Unfortunately, high-dimensional analyses of CyTOF data remain quite demanding. Here, we deploy a bioinformatics framework that tackles two fundamental problems in CyTOF analyses namely (1) automated annotation of cell populations guided by a reference dataset and (2) systematic utilization of single-cell data for effective patient stratification. By applying this framework on several publicly available datasets, we demonstrate that the Scaffold approach achieves good trade-off between sensitivity and specificity for automated cell type annotation. Additionally, a case study focusing on a cohort of 43 leukemia patients reported salient interactions between signaling proteins that are sufficient to predict short-term survival at time of diagnosis using the XGBoost algorithm. Our work introduces an automated and versatile analysis framework for CyTOF data with many applications in future precision medicine projects., Competing Interests: The authors declare no competing interests., (© 2024 The Authors.)
- Published
- 2024
- Full Text
- View/download PDF