内体分拣复合物(ESCRT)在血液祖细胞维持、血系选择和免疫反应中发挥着多种作用。

IF 1.8 4区 生物学 Q3 BIOLOGY Biology Open Pub Date : 2024-06-15 Epub Date: 2024-06-18 DOI:10.1242/bio.060412
Arindam Ray, Yashashwinee Rai, Maneesha S Inamdar
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引用次数: 0

摘要

大多数血液恶性肿瘤都与需要运输的内体分拣复合物(ESCRT)的一种或多种成分表达减少有关。然而,ESCRT在干细胞和祖细胞维持中的作用尚未解决。解析与ESCRT典型作用相关的信号通路是一项挑战。果蝇的造血器官--幼虫淋巴腺--为剖析ESCRT等细胞运输途径在血液发育和维持中的作用提供了一条途径。果蝇有13种ESCRT核心成分。敲除单个ESCRT后发现,只有Vps28和Vp36在所有淋巴腺祖细胞中都是必需的。以保存完好的 ESCRT-II 复合物为例,我们展示了 ESCRT 缺失后出现的一系列表型,表明 ESCRT 在祖细胞的维持和分化中既有细胞自主作用,也有非自主作用。ESCRT 缺失还能使后叶祖细胞对免疫原性黄蜂侵袭做出反应。我们还发现了ESCRT在位置依赖性控制Notch激活以抑制晶体细胞分化中的关键异型作用。我们的研究表明,货物分拣机制决定了祖细胞的身份及其对动态微环境的适应性。这些控制细胞命运的机制可能会在多种情况下调整发育的多样性。
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The Endosomal Sorting Complex, ESCRT, has diverse roles in blood progenitor maintenance, lineage choice and immune response.

Most hematological malignancies are associated with reduced expression of one or more components of the Endosomal Sorting Complex Required for Transport (ESCRT). However, the roles of ESCRT in stem cell and progenitor maintenance are not resolved. Parsing signaling pathways in relation to the canonical role of ESCRT poses a challenge. The Drosophila hematopoietic organ, the larval lymph gland, provides a path to dissect the roles of cellular trafficking pathways such as ESCRT in blood development and maintenance. Drosophila has 13 core ESCRT components. Knockdown of individual ESCRTs showed that only Vps28 and Vp36 were required in all lymph gland progenitors. Using the well-conserved ESCRT-II complex as an example of the range of phenotypes seen upon ESCRT depletion, we show that ESCRTs have cell-autonomous as well as non-autonomous roles in progenitor maintenance and differentiation. ESCRT depletion also sensitized posterior lobe progenitors to respond to immunogenic wasp infestation. We also identify key heterotypic roles for ESCRT in position-dependent control of Notch activation to suppress crystal cell differentiation. Our study shows that the cargo sorting machinery determines the identity of progenitors and their adaptability to the dynamic microenvironment. These mechanisms for control of cell fate may tailor developmental diversity in multiple contexts.

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来源期刊
Biology Open
Biology Open BIOLOGY-
CiteScore
3.90
自引率
0.00%
发文量
162
审稿时长
8 weeks
期刊介绍: Biology Open (BiO) is an online Open Access journal that publishes peer-reviewed original research across all aspects of the biological sciences. BiO aims to provide rapid publication for scientifically sound observations and valid conclusions, without a requirement for perceived impact.
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