在两栖动物肢体再生过程中,维甲酸分解对于近端到远端的位置识别是必需的。
Retinoic acid breakdown is required for proximodistal positional identity during amphibian limb regeneration.
作者信息
Duerr Timothy J, Miller Melissa, Kumar Sage, Bakr Dareen, Griffiths Jackson R, Gautham Aditya K, Douglas Danielle, Voss S Randal, Monaghan James R
机构信息
Northeastern University, Department of Biology, Boston, MA.
Northeastern University, Institute for Chemical Imaging of Living Systems, Boston, MA.
出版信息
bioRxiv. 2024 Aug 9:2024.08.07.607055. doi: 10.1101/2024.08.07.607055.
Regenerating limbs retain their proximodistal (PD) positional identity following amputation. This positional identity is genetically encoded by PD patterning genes that instruct blastema cells to regenerate the appropriate PD limb segment. Retinoic acid (RA) is known to specify proximal limb identity, but how RA signaling levels are established in the blastema is unknown. Here, we show that RA breakdown via CYP26B1 is essential for determining RA signaling levels within blastemas. CYP26B1 inhibition molecularly reprograms distal blastemas into a more proximal identity, phenocopying the effects of administering excess RA. We identify as an RA-responsive gene that is differentially expressed between proximally and distally amputated limbs. Ablation of results in shortened limbs with proximal skeletal elements that fail to initiate endochondral ossification. These results suggest that PD positional identity is determined by RA degradation and RA-responsive genes that regulate PD skeletal element formation during limb regeneration.
肢体再生时,截肢后仍保留其近远轴(PD)位置身份。这种位置身份由PD模式基因进行遗传编码,这些基因指导芽基细胞再生出合适的PD肢体节段。已知视黄酸(RA)可指定近端肢体身份,但RA信号水平如何在芽基中建立尚不清楚。在此,我们表明通过CYP26B1进行的RA分解对于确定芽基内的RA信号水平至关重要。CYP26B1抑制在分子水平上将远端芽基重编程为更接近近端的身份,模拟了给予过量RA的效果。我们鉴定出 作为一个RA反应基因,它在近端和远端截肢的肢体之间差异表达。 的缺失导致肢体缩短,带有近端骨骼元件,且无法启动软骨内骨化。这些结果表明,PD位置身份由RA降解和调节肢体再生过程中PD骨骼元件形成的RA反应基因决定。
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