METI: deep profiling of tumor ecosystems by integrating cell morphology and spatial transcriptomics

Jiahui Jiang; Yunhe Liu; Jiangjiang Qin; Jianfeng Chen; Jingjing Wu; Melissa P. Pizzi; Rossana Lazcano; Kohei Yamashita; Zhiyuan Xu; Guangsheng Pei; Kyung Serk Cho; Yanshuo Chu; Ansam Sinjab; Fuduan Peng; Xinmiao Yan; Guangchun Han; Ruiping Wang; Enyu Dai; Yibo Dai; Bogdan A. Czerniak; Andrew Futreal; Anirban Maitra; Alexander Lazar; Humam Kadara; Amir A. Jazaeri; Xiangdong Cheng; Jaffer Ajani; Jianjun Gao; Jian Hu; Linghua Wang

doi:10.1038/s41467-024-51708-9

METI: deep profiling of tumor ecosystems by integrating cell morphology and spatial transcriptomics

Jiahui Jiang, Yunhe Liu, Jiangjiang Qin, Jianfeng Chen, Jingjing Wu, Melissa P. Pizzi, Rossana Lazcano, Kohei Yamashita, Zhiyuan Xu, Guangsheng Pei, Kyung Serk Cho, Yanshuo Chu, Ansam Sinjab, Fuduan Peng, Xinmiao Yan, Guangchun Han, Ruiping Wang, Enyu Dai, Yibo Dai, Bogdan A. CzerniakAndrew Futreal, Anirban Maitra, Alexander Lazar, Humam Kadara, Amir A. Jazaeri, Xiangdong Cheng, Jaffer Ajani, Jianjun Gao, Jian Hu, Linghua Wang

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6 Scopus citations

Abstract

Recent advances in spatial transcriptomics (ST) techniques provide valuable insights into cellular interactions within the tumor microenvironment (TME). However, most analytical tools lack consideration of histological features and rely on matched single-cell RNA sequencing data, limiting their effectiveness in TME studies. To address this, we introduce the Morphology-Enhanced Spatial Transcriptome Analysis Integrator (METI), an end-to-end framework that maps cancer cells and TME components, stratifies cell types and states, and analyzes cell co-localization. By integrating spatial transcriptomics, cell morphology, and curated gene signatures, METI enhances our understanding of the molecular landscape and cellular interactions within the tissue. We evaluate the performance of METI on ST data generated from various tumor tissues, including gastric, lung, and bladder cancers, as well as premalignant tissues. We also conduct a quantitative comparison of METI with existing clustering and cell deconvolution tools, demonstrating METI’s robust and consistent performance.

Original language	English (US)
Article number	7312
Journal	Nature communications
Volume	15
Issue number	1
DOIs	https://doi.org/10.1038/s41467-024-51708-9
State	Published - Dec 2024

ASJC Scopus subject areas

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

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Jiang, J., Liu, Y., Qin, J., Chen, J., Wu, J., Pizzi, M. P., Lazcano, R., Yamashita, K., Xu, Z., Pei, G., Cho, K. S., Chu, Y., Sinjab, A., Peng, F., Yan, X., Han, G., Wang, R., Dai, E., Dai, Y., ... Wang, L. (2024). METI: deep profiling of tumor ecosystems by integrating cell morphology and spatial transcriptomics. Nature communications, 15(1), Article 7312. https://doi.org/10.1038/s41467-024-51708-9

Jiang, J, Liu, Y, Qin, J, Chen, J, Wu, J, Pizzi, MP, Lazcano, R, Yamashita, K, Xu, Z, Pei, G, Cho, KS, Chu, Y, Sinjab, A, Peng, F, Yan, X, Han, G, Wang, R, Dai, E, Dai, Y, Czerniak, BA , Futreal, A , Maitra, A , Lazar, A , Kadara, H , Jazaeri, AA, Cheng, X, Ajani, J , Gao, J, Hu, J & Wang, L 2024, 'METI: deep profiling of tumor ecosystems by integrating cell morphology and spatial transcriptomics', Nature communications, vol. 15, no. 1, 7312. https://doi.org/10.1038/s41467-024-51708-9

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title = "METI: deep profiling of tumor ecosystems by integrating cell morphology and spatial transcriptomics",

abstract = "Recent advances in spatial transcriptomics (ST) techniques provide valuable insights into cellular interactions within the tumor microenvironment (TME). However, most analytical tools lack consideration of histological features and rely on matched single-cell RNA sequencing data, limiting their effectiveness in TME studies. To address this, we introduce the Morphology-Enhanced Spatial Transcriptome Analysis Integrator (METI), an end-to-end framework that maps cancer cells and TME components, stratifies cell types and states, and analyzes cell co-localization. By integrating spatial transcriptomics, cell morphology, and curated gene signatures, METI enhances our understanding of the molecular landscape and cellular interactions within the tissue. We evaluate the performance of METI on ST data generated from various tumor tissues, including gastric, lung, and bladder cancers, as well as premalignant tissues. We also conduct a quantitative comparison of METI with existing clustering and cell deconvolution tools, demonstrating METI{\textquoteright}s robust and consistent performance.",

author = "Jiahui Jiang and Yunhe Liu and Jiangjiang Qin and Jianfeng Chen and Jingjing Wu and Pizzi, {Melissa P.} and Rossana Lazcano and Kohei Yamashita and Zhiyuan Xu and Guangsheng Pei and Cho, {Kyung Serk} and Yanshuo Chu and Ansam Sinjab and Fuduan Peng and Xinmiao Yan and Guangchun Han and Ruiping Wang and Enyu Dai and Yibo Dai and Czerniak, {Bogdan A.} and Andrew Futreal and Anirban Maitra and Alexander Lazar and Humam Kadara and Jazaeri, {Amir A.} and Xiangdong Cheng and Jaffer Ajani and Jianjun Gao and Jian Hu and Linghua Wang",

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doi = "10.1038/s41467-024-51708-9",

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T2 - deep profiling of tumor ecosystems by integrating cell morphology and spatial transcriptomics

AU - Jiang, Jiahui

AU - Liu, Yunhe

AU - Qin, Jiangjiang

AU - Chen, Jianfeng

AU - Wu, Jingjing

AU - Pizzi, Melissa P.

AU - Lazcano, Rossana

AU - Yamashita, Kohei

AU - Xu, Zhiyuan

AU - Pei, Guangsheng

AU - Cho, Kyung Serk

AU - Chu, Yanshuo

AU - Sinjab, Ansam

AU - Peng, Fuduan

AU - Yan, Xinmiao

AU - Han, Guangchun

AU - Wang, Ruiping

AU - Dai, Enyu

AU - Dai, Yibo

AU - Czerniak, Bogdan A.

AU - Futreal, Andrew

AU - Maitra, Anirban

AU - Lazar, Alexander

AU - Kadara, Humam

AU - Jazaeri, Amir A.

AU - Cheng, Xiangdong

AU - Ajani, Jaffer

AU - Gao, Jianjun

AU - Hu, Jian

AU - Wang, Linghua

PY - 2024/12

Y1 - 2024/12

N2 - Recent advances in spatial transcriptomics (ST) techniques provide valuable insights into cellular interactions within the tumor microenvironment (TME). However, most analytical tools lack consideration of histological features and rely on matched single-cell RNA sequencing data, limiting their effectiveness in TME studies. To address this, we introduce the Morphology-Enhanced Spatial Transcriptome Analysis Integrator (METI), an end-to-end framework that maps cancer cells and TME components, stratifies cell types and states, and analyzes cell co-localization. By integrating spatial transcriptomics, cell morphology, and curated gene signatures, METI enhances our understanding of the molecular landscape and cellular interactions within the tissue. We evaluate the performance of METI on ST data generated from various tumor tissues, including gastric, lung, and bladder cancers, as well as premalignant tissues. We also conduct a quantitative comparison of METI with existing clustering and cell deconvolution tools, demonstrating METI’s robust and consistent performance.

AB - Recent advances in spatial transcriptomics (ST) techniques provide valuable insights into cellular interactions within the tumor microenvironment (TME). However, most analytical tools lack consideration of histological features and rely on matched single-cell RNA sequencing data, limiting their effectiveness in TME studies. To address this, we introduce the Morphology-Enhanced Spatial Transcriptome Analysis Integrator (METI), an end-to-end framework that maps cancer cells and TME components, stratifies cell types and states, and analyzes cell co-localization. By integrating spatial transcriptomics, cell morphology, and curated gene signatures, METI enhances our understanding of the molecular landscape and cellular interactions within the tissue. We evaluate the performance of METI on ST data generated from various tumor tissues, including gastric, lung, and bladder cancers, as well as premalignant tissues. We also conduct a quantitative comparison of METI with existing clustering and cell deconvolution tools, demonstrating METI’s robust and consistent performance.

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METI: deep profiling of tumor ecosystems by integrating cell morphology and spatial transcriptomics

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