Single-cell Dissection of Transcriptional Heterogeneity in Human Colon Tumors

Overview

Journal Nat Biotechnol

Specialty Biotechnology

Date 2011 Nov 15

PMID 22081019

Citations 370

Authors

Piero Dalerba

Tomer Kalisky

Debashis Sahoo

Pradeep S Rajendran

Michael E Rothenberg

Anne A Leyrat

Sopheak Sim

Jennifer Okamoto

Darius M Johnston

Dalong Qian

Maider Zabala

Janet Bueno

Norma F Neff

Jianbin Wang

Andrew A Shelton

Brendan Visser

Shigeo Hisamori

Yohei Shimono

Marc van de Wetering

Hans Clevers

Michael F Clarke

Stephen R Quake

Affiliations

Soon will be listed here.

Abstract

Cancer is often viewed as a caricature of normal developmental processes, but the extent to which its cellular heterogeneity truly recapitulates multilineage differentiation processes of normal tissues remains unknown. Here we implement single-cell PCR gene-expression analysis to dissect the cellular composition of primary human normal colon and colon cancer epithelia. We show that human colon cancer tissues contain distinct cell populations whose transcriptional identities mirror those of the different cellular lineages of normal colon. By creating monoclonal tumor xenografts from injection of a single (n = 1) cell, we demonstrate that the transcriptional diversity of cancer tissues is largely explained by in vivo multilineage differentiation and not only by clonal genetic heterogeneity. Finally, we show that the different gene-expression programs linked to multilineage differentiation are strongly associated with patient survival. We develop two-gene classifier systems (KRT20 versus CA1, MS4A12, CD177, SLC26A3) that predict clinical outcomes with hazard ratios superior to those of pathological grade and comparable to those of microarray-derived multigene expression signatures.

Citing Articles

Identification of cancer-associated fibroblast signature genes for prognostic prediction in colorectal cancer.

Jin W, Lu Y, Lu J, Wang Z, Yan Y, Liang B Front Genet. 2025; 16:1476092.

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The E2F4 transcriptional repressor is a key mechanistic regulator of colon cancer resistance to (CPT-11).

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