发育和癌症中的器官间通讯。

Q1 Biochemistry, Genetics and Molecular Biology
Edel Alvarez-Ochoa, Francesca Froldi, Louise Y Cheng
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引用次数: 6

摘要

对模式生物的研究表明,在发育过程中和癌症等疾病中,远端器官之间都发生了广泛的交流。器官之间相互沟通以协调生长并达到正确的大小,而肿瘤细胞的命运取决于它们与免疫系统和外周组织相互作用的结果。在这篇综述中,我们概述了最近在果蝇方面的研究,这些研究使我们能够更好地理解在生物体和肿瘤生长的背景下器官之间复杂的串扰。我们认为果蝇是研究这些相互作用的强大模式生物,这些研究有可能提高我们对介导这种保守的器官间串扰的信号通路和候选因子的理解。本文的分类为:空间和时间模式的建立>早期胚胎发育的大小、比例和时间的调节>向基本形体发育的无脊椎动物器官发生>苍蝇。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Interorgan communication in development and cancer.

Studies in model organisms have demonstrated that extensive communication occurs between distant organs both during development and in diseases such as cancer. Organs communicate with each other to coordinate growth and reach the correct size, while the fate of tumor cells depend on the outcome of their interaction with the immune system and peripheral tissues. In this review, we outline recent studies in Drosophila, which have enabled an improved understanding of the complex crosstalk between organs in the context of both organismal and tumor growth. We argue that Drosophila is a powerful model organism for studying these interactions, and these studies have the potential for improving our understanding of signaling pathways and candidate factors that mediate this conserved interorgan crosstalk. This article is categorized under: Establishment of Spatial and Temporal Patterns > Regulation of Size, Proportion, and Timing Early Embryonic Development > Development to the Basic Body Plan Invertebrate Organogenesis > Flies.

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期刊介绍: Developmental biology is concerned with the fundamental question of how a single cell, the fertilized egg, ultimately produces a complex, fully patterned adult organism. This problem is studied on many different biological levels, from the molecular to the organismal. Developed in association with the Society for Developmental Biology, WIREs Developmental Biology will provide a unique interdisciplinary forum dedicated to fostering excellence in research and education and communicating key advances in this important field. The collaborative and integrative ethos of the WIREs model will facilitate connections to related disciplines such as genetics, systems biology, bioengineering, and psychology. The topical coverage of WIREs Developmental Biology includes: Establishment of Spatial and Temporal Patterns; Gene Expression and Transcriptional Hierarchies; Signaling Pathways; Early Embryonic Development; Invertebrate Organogenesis; Vertebrate Organogenesis; Nervous System Development; Birth Defects; Adult Stem Cells, Tissue Renewal and Regeneration; Cell Types and Issues Specific to Plants; Comparative Development and Evolution; and Technologies.
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