AI Article Synopsis
- The study investigates intra-tumor heterogeneity (ITH) in a mouse colorectal cancer model, focusing on single-cell sequencing to understand how cancer cell diversity develops over time.
- The researchers found that after transplantation of organoids into mice, the diversity in RNA (transcriptome) increased, while the genetic diversity (exome) decreased, indicating changes in how cancer cells adapt to their environment.
- The findings suggest that the emergence of new transcriptional subpopulations contributes to cancer progression and adaptation, with implications for understanding metastasis in human colorectal cancer cases.
Article Abstract
Background: Intra-tumor heterogeneity (ITH) encompasses cellular differences in tumors and is related to clinical outcomes such as drug resistance. However, little is known about the dynamics of ITH, owing to the lack of time-series analysis at the single-cell level. Mouse models that recapitulate cancer development are useful for controlled serial time sampling.
Results: We performed single-cell exome and transcriptome sequencing of 200 cells to investigate how ITH is generated in a mouse colorectal cancer model. In the model, a single normal intestinal cell is grown into organoids that mimic the intestinal crypt structure. Upon RNAi-mediated downregulation of a tumor suppressor gene APC, the transduced organoids were serially transplanted into mice to allow exposure to in vivo microenvironments, which play relevant roles in cancer development. The ITH of the transcriptome increased after the transplantation, while that of the exome decreased. Mutations generated during organoid culture did not greatly change at the bulk-cell level upon the transplantation. The RNA ITH increase was due to the emergence of new transcriptional subpopulations. In contrast to the initial cells expressing mesenchymal-marker genes, new subpopulations repressed these genes after the transplantation. Analyses of colorectal cancer data from The Cancer Genome Atlas revealed a high proportion of metastatic cases in human subjects with expression patterns similar to the new cell subpopulations in mouse. These results suggest that the birth of transcriptional subpopulations may be a key for adaptation to drastic micro-environmental changes when cancer cells have sufficient genetic alterations at later tumor stages.
Conclusions: This study revealed an evolutionary dynamics of single-cell RNA and DNA heterogeneity in tumor progression, giving insights into the mesenchymal-epithelial transformation of tumor cells at metastasis in colorectal cancer.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8456589 | PMC |
| http://dx.doi.org/10.1186/s12915-021-01147-5 | DOI Listing |
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