Homeobox gene <i>Nkx6</i>.<i>1</i> lies downstream of <i>Nkx2</i>.<i>2</i> in the major pathway of β-cell formation in the pancreas

Maike Sander(University of California, San Francisco), Lori Sussel(University of California, San Francisco), Jennifer R. Conners(University of California, San Francisco), David Scheel(University of California, San Francisco), Julie Kalamaras(University of California, San Francisco), Filemon S. Dela Cruz(University of California, San Francisco), Valérie Schwitzgebel(University of California, San Francisco), Andrea Hayes‐Jordan(University of California, San Francisco), Michael S. German(University of California, San Francisco)
Development
December 15, 2000
10.1242/dev.127.24.5533
Cited by 520

Abstract

Most insulin-producing beta-cells in the fetal mouse pancreas arise during the secondary transition, a wave of differentiation starting at embryonic day 13. Here, we show that disruption of homeobox gene Nkx6.1 in mice leads to loss of beta-cell precursors and blocks beta-cell neogenesis specifically during the secondary transition. In contrast, islet development in Nkx6. 1/Nkx2.2 double mutant embryos is identical to Nkx2.2 single mutant islet development: beta-cell precursors survive but fail to differentiate into beta-cells throughout development. Together, these experiments reveal two independently controlled pathways for beta-cell differentiation, and place Nkx6.1 downstream of Nkx2.2 in the major pathway of beta-cell differentiation.

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