The retinoic acid-inactivating enzyme CYP26 is essential for establishing an uneven distribution of retinoic acid along the anterio-posterior axis within the mouse embryo

Sakai, Yasuo; Meno, Chikara; Fujii, Hideyuki; Nishino, Jinsuke; Shiratori, Hidetaka; Saijoh, Yukio; Rossant, Janet; Hamada, Hiroshi

doi:10.1101/gad.851501

Cited by 409 publications

(401 citation statements)

References 39 publications

(54 reference statements)

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“…Studies of Cyp26-deficient mice have largely supported the conclusion that 4-hydroxy-retinoic acid and 4-oxoretinoic acid are inactive degradation products of the all-trans isomer. Accordingly, embryos from these mice have abnormalities that mimic all-trans retinoic acid-induced teratogenicity 9,10 . It is possible, however, that some of the abnormalities observed in Cyp26 -/-mice result from a deficiency in Cyp26-generated metabolites that have active biological roles in vivo.…”

Section: Coohmentioning

confidence: 99%

Retinoid metabolism: a balancing act

Perlmann

2002

Nat Genet

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Section: Coohmentioning

confidence: 99%

Retinoid metabolism: a balancing act

Perlmann

2002

Nat Genet

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“…Mice treated with R115866, an inhibitor of Cyp26 activity, have fused cervical vertebrae (Laue et al, 2008). Cyp26a is also seen in small anterior and posterior stripes flanking the position of the forming proximal phalanx in digits II-V. Cyp26a mutant mice exhibit sirenomelia and axial skeletal defects, but forelimbs develop normally (AbuAbed et al, 2001;Sakai et al, 2001).…”

Section: Complex Regulation Of Ra In Later Limb Development Sculpts Tmentioning

confidence: 99%

Expression of key retinoic acid modulating genes suggests active regulation during development and regeneration of the amphibian limb

McEwan

Lynch

Beck

2011

Developmental Dynamics

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We have previously shown differential regulation of components of the Retinoic acid (RA) pathway in Xenopus tadpole hindlimb regeneration. RA is thought to act as a morphogen, providing positional information during development and regeneration. We have investigated the regulation of genes involved in RA synthesis, catabolism, and binding in developing and regenerating Xenopus limbs. Our data indicate that RA is synthesised by Raldh2 in proximal cells during limb bud outgrowth. Furthermore, Cyp26b is expressed transiently in the progress zone of developing limbs and the blastema of regenerating limbs suggesting degradation of RA occurs in both processes. The RA‐binding protein Crabp2 is also upregulated during regeneration. We summarise this data to predict the presence of evolving gradients of RA in the developing amphibian limb. Thus, RA from the stump cells could be responsible for the establishment of proximal‐distal pattern during limb regeneration, as predicted by classical studies. Developmental Dynamics 240:1259–1270, 2011. © 2011 Wiley‐Liss, Inc.

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“…Conditions of RA excess through maternal administration (Marshall et al, 1992;Simeone et al, 1995, and references therein) or Cyp26 knock-down Sakai et al, 2001;Emoto et al, 2005;Hernandez et al, 2007), and of RA deficiency through mutation of Rdh10 or Raldh2 (Niederreither et al, 2000;Sandell et al, 2007), have severe effects on hindbrain development and can lead to changes in rhombomeric molecular identities. Several models have been proposed to account for the effects of endogenous RA in controlling hindbrain development, mainly relying on the establishment of a posterior-toanterior RA diffusion gradient, and/or on the sequential action of CYP26 enzymes to generate RA-depleted areas in specific rhombomere territories (Gavalas, 2002;Maden, 2002;Maves and Kimmel, 2005;Sirbu et al, 2005;Hernandez et al, 2007;White et al, 2007;White and Schilling, 2008).…”

Section: Hindbrainmentioning

confidence: 99%

“…The RARE-hsp68-lacZ transgene has been widely used in subsequent studies (e.g., Malpel et al, 2000;Mic et al, 2002;Niederreither et al, 2002b;Fan et al, 2003;Matt et al, 2003Matt et al, , 2005Yashiro et al, 2004;Sirbu et al, 2005;Molotkov et al, 2006;Sirbu and Duester, 2006;Ribes et al, 2009;Zhao et al, 2009). Three lines of evidence have validated this transgene as a reliable indicator of RA activity: (1) there is a close match between the patterns of lacZ activity and the expression patterns of RA-synthesizing enzymes (Rdh10, Raldhs) at early embryonic stages, (2) activity of the lacZ reporter is severely down-regulated in knockout mice for the above enzymes (Niederreither et al, 1999;Mic et al, 2002;Matt et al, 2005;Molotkov et al, 2006;Sandell et al, 2007), (3) on the other hand, the reporter is almost ubiquitously activated within 6 h after administration of a bolus dose of RA to the pregnant mothers (Rossant et al, 1991), and is ectopically activated when RA-metabolizing enzymes are absent Sakai et al, 2001;Uehara et al, 2009). RARE-containing reporters are available in other species such as in zebrafish where transgenic lines have been generated (Perz-Edwards et al, 2001).…”

Section: Introductionmentioning

confidence: 99%

Fate of retinoic acid–activated embryonic cell lineages

Dollé

Fraulob

Gallego-Llamas

et al. 2010

Developmental Dynamics

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Retinoic acid (RA), a vitamin A derivative, is synthesized by specific cell populations and acts as a diffusible embryonic signal activating ligand‐inducible transcription factors, the RA receptors (RARs). RA‐activatable transgenic systems have revealed many discrete, transient sites of RA action during development. However, there has been no attempt to permanently label the RA‐activated cell lineages during mouse ontogenesis. We describe the characterization of a RA‐activatable Cre transgene, which through crosses with a conditional reporter strain (the ROSA26R lacZ reporter), leads to a stable labeling of the cell populations experiencing RA signaling during embryogenesis. RA response‐element (RARE) ‐driven Cre activity mimics at early stages the known activity of the corresponding RARE‐lacZ transgene (Rossant et al.,1991). Stable labeling of the Cre‐excised cell populations allows to trace the distribution of the RA‐activated cell lineages at later stages. These are described in relationship with current models of RA activity in various developmental systems, including the embryonic caudal region, limb buds, hindbrain, sensory organs, and heart. Developmental Dynamics 239:3260–3274, 2010. © 2010 Wiley‐Liss, Inc.

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The retinoic acid-inactivating enzyme CYP26 is essential for establishing an uneven distribution of retinoic acid along the anterio-posterior axis within the mouse embryo

Cited by 409 publications

References 39 publications

Retinoid metabolism: a balancing act

Retinoid metabolism: a balancing act

Expression of key retinoic acid modulating genes suggests active regulation during development and regeneration of the amphibian limb

Fate of retinoic acid–activated embryonic cell lineages

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