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Targeted inactivation of the EGF and amphiregulin genes reveals distinct roles for EGF receptor ligands in mouse mammary gland development.

Publication ,  Journal Article
Luetteke, NC; Qiu, TH; Fenton, SE; Troyer, KL; Riedel, RF; Chang, A; Lee, DC
Published in: Development
June 1999

Targeted mice lacking functional EGF or amphiregulin (AR) were derived and bred to the TGFalpha-knockout to generate mice lacking various combinations of the three ligands. In contrast to EGF receptor (EGFR) knockout mice, triple null mice lacking half of the EGFR ligand family were healthy and fertile, indicative of overlapping or compensatory functions among EGF family members. Nevertheless, pups born to triple null dams frequently died or were runted, suggesting a mammary gland defect. Comparison of individual and combinatorial knockouts established that specific loss of AR severely stunted ductal outgrowth during puberty, consistent with dramatic expression of AR transcripts in normal developing ducts. Surprisingly, loss of all three ligands did not significantly affect cellular proliferation, apoptosis, or ERK activation within terminal end buds. Following pregnancy, most AR single null females, but few triple null females could nurse their young, revealing collaborative roles for EGF and TGFalpha in mammopoiesis and lactogenesis. In triple null glands, alveoli were poorly organized and differentiated, and milk protein gene expression was decreased. Additionally, Stat5a activation was frequently reduced in AR single and combinatorial nulls in association with impaired lactation. Collectively, our results provide genetic confirmation of a requirement for EGFR signaling throughout the development of the mouse mammary gland, and reveal stage-dependent activities for different EGFR ligands. Finally, the additional loss of growth factors from pups nursed by triple null dams further worsened their survival and growth, establishing functions for both maternal- and neonatal-derived growth factors.

Duke Scholars

Published In

Development

DOI

ISSN

0950-1991

Publication Date

June 1999

Volume

126

Issue

12

Start / End Page

2739 / 2750

Location

England

Related Subject Headings

  • Transforming Growth Factor alpha
  • Transcription, Genetic
  • Survival Rate
  • Pregnancy
  • Mutation
  • Morphogenesis
  • Mice, Knockout
  • Mice, Inbred C57BL
  • Mice
  • Mammary Glands, Animal
 

Citation

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Luetteke, N. C., Qiu, T. H., Fenton, S. E., Troyer, K. L., Riedel, R. F., Chang, A., & Lee, D. C. (1999). Targeted inactivation of the EGF and amphiregulin genes reveals distinct roles for EGF receptor ligands in mouse mammary gland development. Development, 126(12), 2739–2750. https://doi.org/10.1242/dev.126.12.2739
Luetteke, N. C., T. H. Qiu, S. E. Fenton, K. L. Troyer, R. F. Riedel, A. Chang, and D. C. Lee. “Targeted inactivation of the EGF and amphiregulin genes reveals distinct roles for EGF receptor ligands in mouse mammary gland development.Development 126, no. 12 (June 1999): 2739–50. https://doi.org/10.1242/dev.126.12.2739.
Luetteke NC, Qiu TH, Fenton SE, Troyer KL, Riedel RF, Chang A, et al. Targeted inactivation of the EGF and amphiregulin genes reveals distinct roles for EGF receptor ligands in mouse mammary gland development. Development. 1999 Jun;126(12):2739–50.
Luetteke, N. C., et al. “Targeted inactivation of the EGF and amphiregulin genes reveals distinct roles for EGF receptor ligands in mouse mammary gland development.Development, vol. 126, no. 12, June 1999, pp. 2739–50. Pubmed, doi:10.1242/dev.126.12.2739.
Luetteke NC, Qiu TH, Fenton SE, Troyer KL, Riedel RF, Chang A, Lee DC. Targeted inactivation of the EGF and amphiregulin genes reveals distinct roles for EGF receptor ligands in mouse mammary gland development. Development. 1999 Jun;126(12):2739–2750.
Journal cover image

Published In

Development

DOI

ISSN

0950-1991

Publication Date

June 1999

Volume

126

Issue

12

Start / End Page

2739 / 2750

Location

England

Related Subject Headings

  • Transforming Growth Factor alpha
  • Transcription, Genetic
  • Survival Rate
  • Pregnancy
  • Mutation
  • Morphogenesis
  • Mice, Knockout
  • Mice, Inbred C57BL
  • Mice
  • Mammary Glands, Animal