Ge Changhui, Liu Tongyi, Hou Xinghua, Stanley Pamela
Department of Cell Biology, Albert Einstein College of Medicine, New York, NY-10461, USA.
BMC Dev Biol. 2008 Apr 29;8:48. doi: 10.1186/1471-213X-8-48.
Notch signaling is highly conserved in the metazoa and is critical for many cell fate decisions. Notch activation occurs following ligand binding to Notch extracellular domain. In vitro binding assays have identified epidermal growth factor (EGF) repeats 11 and 12 as the ligand binding domain of Drosophila Notch. Here we show that an internal deletion in mouse Notch1 of EGF repeats 8-12, including the putative ligand binding domain (lbd), is an inactivating mutation in vivo. We also show that maternal and zygotic Notch1(lbd/lbd) mutant embryos develop through gastrulation to mid-gestation.
Notch1(lbd/lbd) embryos died at mid-gestation with a phenotype indistinguishable from Notch1 null mutants. In embryonic stem (ES) cells, Notch1(lbd) was expressed on the cell surface at levels equivalent to wild type Notch1, but Delta1 binding was reduced to the same level as in Notch1 null cells. In an ES cell co-culture assay, Notch signaling induced by Jagged1 or Delta1 was reduced to a similar level in Notch1(lbd) and Notch1 null cells. However, the Notch1(lbd/lbd) allele was expressed similarly to wild type Notch1 in Notch1(lbd/lbd) ES cells and embryos at E8.75, indicating that Notch1 signaling is not essential for the Notch1 gene to be expressed. In addition, maternal and zygotic Notch1 mutant blastocysts developed through gastrulation.
Mouse Notch1 lacking the ligand binding domain is expressed at the cell surface but does not signal in response to the canonical Notch ligands Delta1 and Jagged1. Homozygous Notch1(lbd/lbd) mutant embryos die at approximately E10 similar to Notch1 null embryos. While Notch1 is expressed in oocytes and blastocysts, Notch1 signaling via canonical ligands is dispensable during oogenesis, blastogenesis, implantation and gastrulation.
Notch信号通路在多细胞动物中高度保守,对许多细胞命运决定至关重要。Notch激活发生在配体与Notch细胞外结构域结合之后。体外结合试验已确定表皮生长因子(EGF)重复序列11和12为果蝇Notch的配体结合结构域。在此我们表明,小鼠Notch1中EGF重复序列8 - 12的内部缺失,包括假定的配体结合结构域(lbd),在体内是一种失活突变。我们还表明,母源和合子Notch1(lbd/lbd)突变胚胎在原肠胚形成至妊娠中期均可发育。
Notch1(lbd/lbd)胚胎在妊娠中期死亡,其表型与Notch1基因敲除突变体无法区分。在胚胎干细胞(ES细胞)中,Notch1(lbd)在细胞表面的表达水平与野生型Notch1相当,但Delta1结合水平降低至与Notch1基因敲除细胞相同的水平。在ES细胞共培养试验中,由Jagged1或Delta1诱导的Notch信号通路在Notch1(lbd)和Notch1基因敲除细胞中降低至相似水平。然而,在E8.75时,Notch1(lbd/lbd)等位基因在Notch1(lbd/lbd) ES细胞和胚胎中的表达与野生型Notch1相似,这表明Notch1信号通路对于Notch1基因的表达并非必需。此外,母源和合子Notch1突变囊胚可通过原肠胚形成。
缺乏配体结合结构域的小鼠Notch1在细胞表面表达,但对经典Notch配体Delta1和Jagged1不产生信号响应。纯合Notch1(lbd/lbd)突变胚胎在约E10时死亡,与Notch1基因敲除胚胎相似。虽然Notch1在卵母细胞和囊胚中表达,但在卵子发生、胚泡形成、着床和原肠胚形成过程中,通过经典配体的Notch1信号通路并非必需。
