Temporal recording of mammalian development and precancer

Mirazul Islam; Yilin Yang; Alan J. Simmons; Vishal M. Shah; Krushna Pavan Musale; Yanwen Xu; Naila Tasneem; Zhengyi Chen; Linh T. Trinh; Paola Molina; Marisol A. Ramirez-Solano; Iannish D. Sadien; Jinzhuang Dou; Andrea Rolong; Ken Chen; Mark A. Magnuson; Jeffrey C. Rathmell; Ian G. Macara; Douglas J. Winton; Qi Liu; Hamim Zafar; Reza Kalhor; George M. Church; Martha J. Shrubsole; Robert J. Coffey; Ken S. Lau

doi:10.1038/s41586-024-07954-4

Temporal recording of mammalian development and precancer

Mirazul Islam, Yilin Yang, Alan J. Simmons, Vishal M. Shah, Krushna Pavan Musale, Yanwen Xu, Naila Tasneem, Zhengyi Chen, Linh T. Trinh, Paola Molina, Marisol A. Ramirez-Solano, Iannish D. Sadien, Jinzhuang Dou, Andrea Rolong, Ken Chen, Mark A. Magnuson, Jeffrey C. Rathmell, Ian G. Macara, Douglas J. Winton, Qi LiuHamim Zafar, Reza Kalhor, George M. Church, Martha J. Shrubsole, Robert J. Coffey, Ken S. Lau

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

Abstract

Temporal ordering of cellular events offers fundamental insights into biological phenomena. Although this is traditionally achieved through continuous direct observations^1,2, an alternative solution leverages irreversible genetic changes, such as naturally occurring mutations, to create indelible marks that enables retrospective temporal ordering^3–5. Using a multipurpose, single-cell CRISPR platform, we developed a molecular clock approach to record the timing of cellular events and clonality in vivo, with incorporation of cell state and lineage information. Using this approach, we uncovered precise timing of tissue-specific cell expansion during mouse embryonic development, unconventional developmental relationships between cell types and new epithelial progenitor states by their unique genetic histories. Analysis of mouse adenomas, coupled to multiomic and single-cell profiling of human precancers, with clonal analysis of 418 human polyps, demonstrated the occurrence of polyclonal initiation in 15–30% of colonic precancers, showing their origins from multiple normal founders. Our study presents a multimodal framework that lays the foundation for in vivo recording, integrating synthetic or natural indelible genetic changes with single-cell analyses, to explore the origins and timing of development and tumorigenesis in mammalian systems.

Original language	English (US)
Pages (from-to)	1187-1195
Number of pages	9
Journal	Nature
Volume	634
Issue number	8036
DOIs	https://doi.org/10.1038/s41586-024-07954-4
State	Published - Oct 31 2024
Externally published	Yes

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Islam, M., Yang, Y., Simmons, A. J., Shah, V. M., Musale, K. P., Xu, Y., Tasneem, N., Chen, Z., Trinh, L. T., Molina, P., Ramirez-Solano, M. A., Sadien, I. D., Dou, J., Rolong, A., Chen, K., Magnuson, M. A., Rathmell, J. C., Macara, I. G., Winton, D. J., ... Lau, K. S. (2024). Temporal recording of mammalian development and precancer. Nature, 634(8036), 1187-1195. https://doi.org/10.1038/s41586-024-07954-4

Islam, M, Yang, Y, Simmons, AJ, Shah, VM, Musale, KP, Xu, Y, Tasneem, N, Chen, Z, Trinh, LT, Molina, P, Ramirez-Solano, MA, Sadien, ID, Dou, J, Rolong, A, Chen, K, Magnuson, MA, Rathmell, JC, Macara, IG, Winton, DJ, Liu, Q, Zafar, H, Kalhor, R, Church, GM, Shrubsole, MJ, Coffey, RJ & Lau, KS 2024, 'Temporal recording of mammalian development and precancer', Nature, vol. 634, no. 8036, pp. 1187-1195. https://doi.org/10.1038/s41586-024-07954-4

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title = "Temporal recording of mammalian development and precancer",

abstract = "Temporal ordering of cellular events offers fundamental insights into biological phenomena. Although this is traditionally achieved through continuous direct observations1,2, an alternative solution leverages irreversible genetic changes, such as naturally occurring mutations, to create indelible marks that enables retrospective temporal ordering3–5. Using a multipurpose, single-cell CRISPR platform, we developed a molecular clock approach to record the timing of cellular events and clonality in vivo, with incorporation of cell state and lineage information. Using this approach, we uncovered precise timing of tissue-specific cell expansion during mouse embryonic development, unconventional developmental relationships between cell types and new epithelial progenitor states by their unique genetic histories. Analysis of mouse adenomas, coupled to multiomic and single-cell profiling of human precancers, with clonal analysis of 418 human polyps, demonstrated the occurrence of polyclonal initiation in 15–30% of colonic precancers, showing their origins from multiple normal founders. Our study presents a multimodal framework that lays the foundation for in vivo recording, integrating synthetic or natural indelible genetic changes with single-cell analyses, to explore the origins and timing of development and tumorigenesis in mammalian systems.",

author = "Mirazul Islam and Yilin Yang and Simmons, {Alan J.} and Shah, {Vishal M.} and Musale, {Krushna Pavan} and Yanwen Xu and Naila Tasneem and Zhengyi Chen and Trinh, {Linh T.} and Paola Molina and Ramirez-Solano, {Marisol A.} and Sadien, {Iannish D.} and Jinzhuang Dou and Andrea Rolong and Ken Chen and Magnuson, {Mark A.} and Rathmell, {Jeffrey C.} and Macara, {Ian G.} and Winton, {Douglas J.} and Qi Liu and Hamim Zafar and Reza Kalhor and Church, {George M.} and Shrubsole, {Martha J.} and Coffey, {Robert J.} and Lau, {Ken S.}",

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doi = "10.1038/s41586-024-07954-4",

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AU - Islam, Mirazul

AU - Yang, Yilin

AU - Simmons, Alan J.

AU - Shah, Vishal M.

AU - Musale, Krushna Pavan

AU - Xu, Yanwen

AU - Tasneem, Naila

AU - Chen, Zhengyi

AU - Trinh, Linh T.

AU - Molina, Paola

AU - Ramirez-Solano, Marisol A.

AU - Sadien, Iannish D.

AU - Dou, Jinzhuang

AU - Rolong, Andrea

AU - Chen, Ken

AU - Magnuson, Mark A.

AU - Rathmell, Jeffrey C.

AU - Macara, Ian G.

AU - Winton, Douglas J.

AU - Liu, Qi

AU - Zafar, Hamim

AU - Kalhor, Reza

AU - Church, George M.

AU - Shrubsole, Martha J.

AU - Coffey, Robert J.

AU - Lau, Ken S.

PY - 2024/10/31

Y1 - 2024/10/31

N2 - Temporal ordering of cellular events offers fundamental insights into biological phenomena. Although this is traditionally achieved through continuous direct observations1,2, an alternative solution leverages irreversible genetic changes, such as naturally occurring mutations, to create indelible marks that enables retrospective temporal ordering3–5. Using a multipurpose, single-cell CRISPR platform, we developed a molecular clock approach to record the timing of cellular events and clonality in vivo, with incorporation of cell state and lineage information. Using this approach, we uncovered precise timing of tissue-specific cell expansion during mouse embryonic development, unconventional developmental relationships between cell types and new epithelial progenitor states by their unique genetic histories. Analysis of mouse adenomas, coupled to multiomic and single-cell profiling of human precancers, with clonal analysis of 418 human polyps, demonstrated the occurrence of polyclonal initiation in 15–30% of colonic precancers, showing their origins from multiple normal founders. Our study presents a multimodal framework that lays the foundation for in vivo recording, integrating synthetic or natural indelible genetic changes with single-cell analyses, to explore the origins and timing of development and tumorigenesis in mammalian systems.

AB - Temporal ordering of cellular events offers fundamental insights into biological phenomena. Although this is traditionally achieved through continuous direct observations1,2, an alternative solution leverages irreversible genetic changes, such as naturally occurring mutations, to create indelible marks that enables retrospective temporal ordering3–5. Using a multipurpose, single-cell CRISPR platform, we developed a molecular clock approach to record the timing of cellular events and clonality in vivo, with incorporation of cell state and lineage information. Using this approach, we uncovered precise timing of tissue-specific cell expansion during mouse embryonic development, unconventional developmental relationships between cell types and new epithelial progenitor states by their unique genetic histories. Analysis of mouse adenomas, coupled to multiomic and single-cell profiling of human precancers, with clonal analysis of 418 human polyps, demonstrated the occurrence of polyclonal initiation in 15–30% of colonic precancers, showing their origins from multiple normal founders. Our study presents a multimodal framework that lays the foundation for in vivo recording, integrating synthetic or natural indelible genetic changes with single-cell analyses, to explore the origins and timing of development and tumorigenesis in mammalian systems.

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Temporal recording of mammalian development and precancer

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