Notch1 Mutations Drive Clonal Expansion in Normal Esophageal Epithelium but Impair Tumor Growth

Overview

Journal Nat Genet

Specialty Genetics

Date 2023 Jan 19

PMID 36658434

Authors

Emilie Abby

Stefan C Dentro

Michael W J Hall

Joanna C Fowler

Swee Hoe Ong

Roshan Sood

Albert Herms

Gabriel Piedrafita

Irina Abnizova

Christian W Siebel

Moritz Gerstung

Benjamin A Hall

Philip H Jones

Affiliations

Soon will be listed here.

Abstract

NOTCH1 mutant clones occupy the majority of normal human esophagus by middle age but are comparatively rare in esophageal cancers, suggesting NOTCH1 mutations drive clonal expansion but impede carcinogenesis. Here we test this hypothesis. Sequencing NOTCH1 mutant clones in aging human esophagus reveals frequent biallelic mutations that block NOTCH1 signaling. In mouse esophagus, heterozygous Notch1 mutation confers a competitive advantage over wild-type cells, an effect enhanced by loss of the second allele. Widespread Notch1 loss alters transcription but has minimal effects on the epithelial structure and cell dynamics. In a carcinogenesis model, Notch1 mutations were less prevalent in tumors than normal epithelium. Deletion of Notch1 reduced tumor growth, an effect recapitulated by anti-NOTCH1 antibody treatment. Notch1 null tumors showed reduced proliferation. We conclude that Notch1 mutations in normal epithelium are beneficial as wild-type Notch1 favors tumor expansion. NOTCH1 blockade may have therapeutic potential in preventing esophageal squamous cancer.

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