Cell autonomous and non-cell autonomous functions of Otx2 in patterning the rostral brain

M Rhinn, A Dierich, ML Meur, SL Ang - Development, 1999 - journals.biologists.com
M Rhinn, A Dierich, ML Meur, SL Ang
Development, 1999journals.biologists.com
Previous studies have shown that the homeobox gene Otx2 is required first in the visceral
endoderm for induction of forebrain and midbrain, and subsequently in the neurectoderm for
its regional specification. Here, we demonstrate that Otx2 functions both cell autonomously
and non-cell autonomously in neurectoderm cells of the forebrain and midbrain to regulate
expression of region-specific homeobox and cell adhesion genes. Using chimeras
containing both Otx2 mutant and wild-type cells in the brain, we observe a reduction or loss …
Abstract
Previous studies have shown that the homeobox gene Otx2 is required first in the visceral endoderm for induction of forebrain and midbrain, and subsequently in the neurectoderm for its regional specification. Here, we demonstrate that Otx2 functions both cell autonomously and non-cell autonomously in neurectoderm cells of the forebrain and midbrain to regulate expression of region-specific homeobox and cell adhesion genes. Using chimeras containing both Otx2 mutant and wild-type cells in the brain, we observe a reduction or loss of expression of Rpx/Hesx1, Wnt1, R-cadherin and ephrin-A2 in mutant cells, whereas expression of En2 and Six3 is rescued by surrounding wild-type cells. Forebrain Otx2 mutant cells subsequently undergo apoptosis. Altogether, this study demonstrates that Otx2 is an important regulator of brain patterning and morphogenesis, through its regulation of candidate target genes such as Rpx/Hesx1, Wnt1, R-cadherin and ephrin-A2.
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