Rescue of cytochrome P450 oxidoreductase (Por) mouse mutants reveals functions in vasculogenesis, brain and limb patterning linked to retinoic acid homeostasis
MESH: Aldehyde Oxidoreductases
0301 basic medicine
Indoles
[SDV.BBM.BM] Life Sciences [q-bio]/Biochemistry, Molecular Biology/Molecular biology
MESH: Mice, Knockout
Mice
MESH: NADPH-Ferrihemoprotein Reductase
Vasculogenesis
Homeostasis
Scanning
MESH: Animals
Limb development
In Situ Hybridization
CYP enzymes
MESH: Indoles
Mice, Knockout
P450 cytochromes
Brain
Aldehyde Oxidoreductases
Immunohistochemistry
POR
Molecular Biology/Molecular biology
Brain patterning
MESH: Homeostasis
MESH: Body Patterning
MESH: Microscopy
571
MESH: Mutation
MESH: Microscopy, Electron, Scanning
Knockout
Tretinoin
Electron
MESH: Brain
Retinoids
03 medical and health sciences
MESH: In Situ Hybridization
Animals
MESH: Galactosides
MESH: Mice
Molecular Biology
Body Patterning
NADPH-Ferrihemoprotein Reductase
MESH: Tretinoin
MESH: Immunohistochemistry
[SDV.BBM.BM]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Molecular biology
Extremities
Galactosides
MESH: Blood Vessels
Cell Biology
[SDV.BBM.BM]Life Sciences [q-bio]/Biochemistry
Mutation
Microscopy, Electron, Scanning
Blood Vessels
MESH: Extremities
Developmental Biology
DOI:
10.1016/j.ydbio.2006.10.032
Publication Date:
2006-10-27T16:12:37Z
AUTHORS (10)
ABSTRACT
Cytochrome P450 oxidoreductase (POR) acts as an electron donor for all cytochrome P450 enzymes. Knockout mouse Por(-/-) mutants, which are early embryonic (E9.5) lethal, have been found to have overall elevated retinoic acid (RA) levels, leading to the idea that POR early developmental function is mainly linked to the activity of the CYP26 RA-metabolizing enzymes (Otto et al., Mol. Cell. Biol. 23, 6103-6116). By crossing Por mutants with a RA-reporter lacZ transgene, we show that Por(-/-) embryos exhibit both elevated and ectopic RA signaling activity e.g. in cephalic and caudal tissues. Two strategies were used to functionally demonstrate that decreasing retinoid levels can reverse Por(-/-) phenotypic defects, (i) by culturing Por(-/-) embryos in defined serum-free medium, and (ii) by generating compound mutants defective in RA synthesis due to haploinsufficiency of the retinaldehyde dehydrogenase 2 (Raldh2) gene. Both approaches clearly improved the Por(-/-) early phenotype, the latter allowing mutants to be recovered up until E13.5. Abnormal brain patterning, with posteriorization of hindbrain cell fates and defective mid- and forebrain development and vascular defects were rescued in E9.5 Por(-/-) embryos. E13.5 Por(-/-); Raldh2(+/-) embryos exhibited abdominal/caudal and limb defects that strikingly phenocopy those of Cyp26a1(-/-) and Cyp26b1(-/-) mutants, respectively. Por(-/-); Raldh2(+/-) limb buds were truncated and proximalized and the anterior-posterior patterning system was not established. Thus, POR function is indispensable for the proper regulation of RA levels and tissue distribution not only during early embryonic development but also in later morphogenesis and molecular patterning of the brain, abdominal/caudal region and limbs.
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