果蝇横向抑制过程中的对称性破坏和命运分化

IF 3.7 2区 生物学 Q1 DEVELOPMENTAL BIOLOGY Development Pub Date : 2024-11-01 Epub Date: 2024-11-08 DOI:10.1242/dev.203165
Minh-Son Phan, Jang-Mi Kim, Cara Picciotto, Lydie Couturier, Nisha Veits, Khallil Mazouni, François Schweisguth
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引用次数: 0

摘要

侧向抑制介导替代性细胞命运决定,并通过细胞间负反馈环放大Notch活性的微小随机差异,产生具有命运对称性破坏(SB)的规则细胞命运模式。在这里,我们利用内源性绒毛膜因子 Scute(Sc)和 Notch 活性报告物的定量实时成像来研究果蝇蛹腹部感觉器官前体细胞(SOP)的出现。在 Sc 水平较低时就能观察到 SB,而在此之前并没有中等的 Sc 表达和 Notch 活性阶段。因此,在这种情况下,相互抑制可能只是短暂的。为支持细胞间反馈回路模型,细胞间 Sc 水平的变化促进了命运的分化。竞争细胞顶端区域的大小并没有对这种命运选择产生明显的影响。令人惊讶的是,SB发生时直接接触的细胞可以采用SOP命运,尽管频率很低(10%)。这些横向抑制缺陷是通过细胞重排而不是细胞命运改变来纠正的,这凸显了细胞-细胞插层在模式完善中的作用。
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Symmetry breaking and fate divergence during lateral inhibition in Drosophila.

Lateral inhibition mediates alternative cell fate decision and produces regular cell fate patterns with fate symmetry breaking (SB) relying on the amplification of small stochastic differences in Notch activity via an intercellular negative-feedback loop. Here, we used quantitative live imaging of endogenous Scute (Sc), a proneural factor, and of a Notch activity reporter to study the emergence of sensory organ precursor cells in the pupal abdomen of Drosophila. SB was observed at low Sc levels and was not preceded by a phase of intermediate Sc expression and Notch activity. Thus, mutual inhibition may only be transient in this context. In support of the intercellular feedback loop model, cell-to-cell variations in Sc levels promoted fate divergence. The size of the apical area of competing cells did not detectably bias this fate choice. Surprisingly, cells that were in direct contact at the time of SB could adopt the sensory organ precursor cell fate, albeit at low frequency (10%). These lateral inhibition defects were corrected by cellular rearrangements, not cell fate change, highlighting the role of cell-cell intercalation in pattern refinement.

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来源期刊
Development
Development 生物-发育生物学
CiteScore
6.70
自引率
4.30%
发文量
433
审稿时长
3 months
期刊介绍: Development’s scope covers all aspects of plant and animal development, including stem cell biology and regeneration. The single most important criterion for acceptance in Development is scientific excellence. Research papers (articles and reports) should therefore pose and test a significant hypothesis or address a significant question, and should provide novel perspectives that advance our understanding of development. We also encourage submission of papers that use computational methods or mathematical models to obtain significant new insights into developmental biology topics. Manuscripts that are descriptive in nature will be considered only when they lay important groundwork for a field and/or provide novel resources for understanding developmental processes of broad interest to the community. Development includes a Techniques and Resources section for the publication of new methods, datasets, and other types of resources. Papers describing new techniques should include a proof-of-principle demonstration that the technique is valuable to the developmental biology community; they need not include in-depth follow-up analysis. The technique must be described in sufficient detail to be easily replicated by other investigators. Development will also consider protocol-type papers of exceptional interest to the community. We welcome submission of Resource papers, for example those reporting new databases, systems-level datasets, or genetic resources of major value to the developmental biology community. For all papers, the data or resource described must be made available to the community with minimal restrictions upon publication. To aid navigability, Development has dedicated sections of the journal to stem cells & regeneration and to human development. The criteria for acceptance into these sections is identical to those outlined above. Authors and editors are encouraged to nominate appropriate manuscripts for inclusion in one of these sections.
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