Inferring allele-specific copy number aberrations and tumor phylogeography from spatially resolved transcriptomics

Cong Ma; Metin Balaban; Jingxian Liu; Siqi Chen; Michael J. Wilson; Christopher H. Sun; Li Ding; Benjamin J. Raphael

doi:10.1038/s41592-024-02438-9

Inferring allele-specific copy number aberrations and tumor phylogeography from spatially resolved transcriptomics

Cong Ma, Metin Balaban, Jingxian Liu, Siqi Chen, Michael J. Wilson, Christopher H. Sun, Li Ding, Benjamin J. Raphael

Research output: Contribution to journal › Article › peer-review

Abstract

Analyzing somatic evolution within a tumor over time and across space is a key challenge in cancer research. Spatially resolved transcriptomics (SRT) measures gene expression at thousands of spatial locations in a tumor, but does not directly reveal genomic aberrations. We introduce CalicoST, an algorithm to simultaneously infer allele-specific copy number aberrations (CNAs) and reconstruct spatial tumor evolution, or phylogeography, from SRT data. CalicoST identifies important classes of CNAs—including copy-neutral loss of heterozygosity and mirrored subclonal CNAs—that are invisible to total copy number analysis. Using nine patients’ data from the Human Tumor Atlas Network, CalicoST achieves an average accuracy of 86%, approximately 21% higher than existing methods. CalicoST reconstructs a tumor phylogeography in three-dimensional space for two patients with multiple adjacent slices. CalicoST analysis of multiple SRT slices from a cancerous prostate organ reveals mirrored subclonal CNAs on the two sides of the prostate, forming a bifurcating phylogeography in both genetic and physical space.

Original language	American English
Article number	130
Pages (from-to)	2239-2247
Number of pages	9
Journal	Nature Methods
Volume	21
Issue number	12
DOIs	https://doi.org/10.1038/s41592-024-02438-9
State	Published - Dec 2024
Externally published	Yes

ASJC Scopus subject areas

Biotechnology
Biochemistry
Molecular Biology
Cell Biology

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title = "Inferring allele-specific copy number aberrations and tumor phylogeography from spatially resolved transcriptomics",

abstract = "Analyzing somatic evolution within a tumor over time and across space is a key challenge in cancer research. Spatially resolved transcriptomics (SRT) measures gene expression at thousands of spatial locations in a tumor, but does not directly reveal genomic aberrations. We introduce CalicoST, an algorithm to simultaneously infer allele-specific copy number aberrations (CNAs) and reconstruct spatial tumor evolution, or phylogeography, from SRT data. CalicoST identifies important classes of CNAs—including copy-neutral loss of heterozygosity and mirrored subclonal CNAs—that are invisible to total copy number analysis. Using nine patients{\textquoteright} data from the Human Tumor Atlas Network, CalicoST achieves an average accuracy of 86%, approximately 21% higher than existing methods. CalicoST reconstructs a tumor phylogeography in three-dimensional space for two patients with multiple adjacent slices. CalicoST analysis of multiple SRT slices from a cancerous prostate organ reveals mirrored subclonal CNAs on the two sides of the prostate, forming a bifurcating phylogeography in both genetic and physical space.",

author = "Cong Ma and Metin Balaban and Jingxian Liu and Siqi Chen and Wilson, {Michael J.} and Sun, {Christopher H.} and Li Ding and Raphael, {Benjamin J.}",

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AU - Ma, Cong

AU - Balaban, Metin

AU - Liu, Jingxian

AU - Chen, Siqi

AU - Wilson, Michael J.

AU - Sun, Christopher H.

AU - Ding, Li

AU - Raphael, Benjamin J.

N1 - Publisher Copyright: © The Author(s), under exclusive licence to Springer Nature America, Inc. 2024.

PY - 2024/12

Y1 - 2024/12

N2 - Analyzing somatic evolution within a tumor over time and across space is a key challenge in cancer research. Spatially resolved transcriptomics (SRT) measures gene expression at thousands of spatial locations in a tumor, but does not directly reveal genomic aberrations. We introduce CalicoST, an algorithm to simultaneously infer allele-specific copy number aberrations (CNAs) and reconstruct spatial tumor evolution, or phylogeography, from SRT data. CalicoST identifies important classes of CNAs—including copy-neutral loss of heterozygosity and mirrored subclonal CNAs—that are invisible to total copy number analysis. Using nine patients’ data from the Human Tumor Atlas Network, CalicoST achieves an average accuracy of 86%, approximately 21% higher than existing methods. CalicoST reconstructs a tumor phylogeography in three-dimensional space for two patients with multiple adjacent slices. CalicoST analysis of multiple SRT slices from a cancerous prostate organ reveals mirrored subclonal CNAs on the two sides of the prostate, forming a bifurcating phylogeography in both genetic and physical space.

AB - Analyzing somatic evolution within a tumor over time and across space is a key challenge in cancer research. Spatially resolved transcriptomics (SRT) measures gene expression at thousands of spatial locations in a tumor, but does not directly reveal genomic aberrations. We introduce CalicoST, an algorithm to simultaneously infer allele-specific copy number aberrations (CNAs) and reconstruct spatial tumor evolution, or phylogeography, from SRT data. CalicoST identifies important classes of CNAs—including copy-neutral loss of heterozygosity and mirrored subclonal CNAs—that are invisible to total copy number analysis. Using nine patients’ data from the Human Tumor Atlas Network, CalicoST achieves an average accuracy of 86%, approximately 21% higher than existing methods. CalicoST reconstructs a tumor phylogeography in three-dimensional space for two patients with multiple adjacent slices. CalicoST analysis of multiple SRT slices from a cancerous prostate organ reveals mirrored subclonal CNAs on the two sides of the prostate, forming a bifurcating phylogeography in both genetic and physical space.

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Inferring allele-specific copy number aberrations and tumor phylogeography from spatially resolved transcriptomics

Abstract

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