Developmental Biology and Cancer Research, Institute for Medical Research Israel-Canada, Hebrew University-Hadassah Medical School, Jerusalem 91120, Israel.
Proc Natl Acad Sci U S A. 2010 Apr 13;107(15):6930-5. doi: 10.1073/pnas.0910570107. Epub 2010 Mar 29.
Different signaling pathways are deployed in specific developmental contexts to generate sexually dimorphic traits. Recently, Sex-lethal (Sxl), the female determinant in Drosophila melanogaster, was shown to down-regulate Notch (N) signaling to accomplish sex-specific patterning. Paradoxically, however, both Sxl and N are ubiquitously expressed in all of the female cells. This raises a key question as to how, during monomorphic female development, N signaling escapes the negative impact of Sxl. Here, we uncover a regulatory loop involving Hrp48, an abundant Drosophila hnRNP, Sxl and N. Phenotypic consequences of the partial loss of hrp48 resemble that of N but are more pronounced in females than in males. Likewise, N levels are drastically diminished only in females. Interestingly, monomorphic female tissues including wing, eye and antennal discs display considerable increase in Sxl amounts. Finally, female-specific attenuation of N signaling is rescued upon simultaneous removal of Sxl. Thus, our data demonstrate that in monomorphic contexts, Hrp48 functions as a moderator of Sxl expression to achieve adequate levels of N receptor production and signaling. We propose that it is critical to modulate the activities of the master determinant underling sexual dimorphism, to ensure that it does not function inappropriately in monomorphic tissues and disrupt their development.
不同的信号通路在特定的发育环境中被用来产生性别二态性特征。最近,果蝇中的雌性决定因子 Sex-lethal(Sxl)被证明可以下调 Notch(N)信号以实现性别特异性模式。然而,具有讽刺意味的是,Sxl 和 N 在所有雌性细胞中都广泛表达。这就提出了一个关键问题,即在单态雌性发育过程中,N 信号如何逃脱 Sxl 的负面影响。在这里,我们揭示了一个涉及 Hrp48、大量果蝇 hnRNP、Sxl 和 N 的调节环。hrp48 的部分缺失的表型后果类似于 N 的表型后果,但在雌性中比在雄性中更为明显。同样,只有在雌性中 N 水平才会急剧降低。有趣的是,包括翅膀、眼睛和触角盘在内的单态雌性组织中 Sxl 含量明显增加。最后,当同时去除 Sxl 时,N 信号的雌性特异性衰减得到挽救。因此,我们的数据表明,在单态环境中,Hrp48 作为 Sxl 表达的调节剂,以达到足够水平的 N 受体产生和信号。我们提出,在确保主决定因子不会在单态组织中不恰当地发挥作用并破坏其发育的情况下,调节它的活性至关重要。