In silico-labeled ghost cytometry

Author:

Ugawa Masashi123ORCID,Kawamura Yoko1,Toda Keisuke1,Teranishi Kazuki1,Morita Hikari1,Adachi Hiroaki1,Tamoto Ryo1ORCID,Nomaru Hiroko1,Nakagawa Keiji1,Sugimoto Keiki1,Borisova Evgeniia4,An Yuri4,Konishi Yusuke5,Tabata Seiichiro5,Morishita Soji6,Imai Misa6,Takaku Tomoiku6,Araki Marito6,Komatsu Norio6,Hayashi Yohei4ORCID,Sato Issei13,Horisaki Ryoichi137,Noji Hiroyuki3,Ota Sadao137ORCID

Affiliation:

1. Thinkcyte Inc

2. Center for Advanced Intelligence Project, RIKEN

3. The University of Tokyo

4. BioResource Research Center, RIKEN

5. Sysmex Corporation

6. Juntendo University

7. PRESTO, Japan Science and Technology Agency

Abstract

Characterization and isolation of a large population of cells are indispensable procedures in biological sciences. Flow cytometry is one of the standards that offers a method to characterize and isolate cells at high throughput. When performing flow cytometry, cells are molecularly stained with fluorescent labels to adopt biomolecular specificity which is essential for characterizing cells. However, molecular staining is costly and its chemical toxicity can cause side effects to the cells which becomes a critical issue when the cells are used downstream as medical products or for further analysis. Here, we introduce a high-throughput stain-free flow cytometry called in silico-labeled ghost cytometry which characterizes and sorts cells using machine-predicted labels. Instead of detecting molecular stains, we use machine learning to derive the molecular labels from compressive data obtained with diffractive and scattering imaging methods. By directly using the compressive ‘imaging’ data, our system can accurately assign the designated label to each cell in real time and perform sorting based on this judgment. With this method, we were able to distinguish different cell states, cell types derived from human induced pluripotent stem (iPS) cells, and subtypes of peripheral white blood cells using only stain-free modalities. Our method will find applications in cell manufacturing for regenerative medicine as well as in cell-based medical diagnostic assays in which fluorescence labeling of the cells is undesirable.

Funder

Takeda Science Foundation

New Energy and Industrial Technology Development Organization

Japan Science and Technology Agency

Mochida Memorial Foundation for Medical and Pharmaceutical Research

Nakatani Foundation for Advancement of Measuring Technologies in Biomedical Engineering

Publisher

eLife Sciences Publications, Ltd

Subject

General Immunology and Microbiology,General Biochemistry, Genetics and Molecular Biology,General Medicine,General Neuroscience

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