统一质量成像绘制脊椎动物发育过程的脂质体图谱

Halima Hannah Schede, Leila Haj Abdullah Alieh, Laurel Rohde, Antonio Hererra, Anjalie Schlaeppi, Guillaume Valentin, Alireza Gargoori Motlagh, Albert Hannah Dominguez Mantes, Chloe Jollivet, Jonathan Paz Montoya, Laura Capolupo, Irina Khven, Andrew C Oates, Giovanni D'Angelo, Gioele La Manno
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引用次数: 0

摘要

胚胎发育需要形成具有不同生化成分的解剖结构。与基因调控方面的丰富知识相比,我们对胚胎发育过程中代谢程序的了解十分有限。质谱成像(MSI)具有绘制胚胎发育过程中代谢物分布图的潜力。在这里,我们建立了一个分析框架,用于联合分析大型 MSI 数据集,从而构建多维代谢组图谱。利用这一框架,我们以准单细胞分辨率绘制了丹瑞欧胚胎中百余种脂质的四维分布图。我们发现了与形态发生同步展开的代谢轨迹,并揭示了大量测量所忽略的空间组织生化协调。有趣的是,脂质图谱揭示了鞘脂和甘油三酯的意外分布,表明它们参与了形态建立和器官发育。我们的方法有助于建立新一代的全生物体代谢组图谱,并发现空间组织的代谢回路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Unified Mass Imaging Maps the Lipidome of Vertebrate Development
Embryo development entails the formation of anatomical structures with distinct biochemical compositions. Compared with the wealth of knowledge on gene regulation, our understanding of metabolic programs operating during embryogenesis is limited. Mass spectrometry imaging (MSI) has the potential to map the distribution of metabolites across embryo development. Here, we established an analytical framework for the joint analysis of large MSI datasets that allows for the construction of multidimensional metabolomic atlases. Employing this framework, we mapped the 4D distribution of over a hundred lipids at quasi-single-cell resolution in Danio rerio embryos. We discovered metabolic trajectories that unfold in concert with morphogenesis and revealed spatially organized biochemical coordination overlooked by bulk measurements. Interestingly, lipid mapping revealed unexpected distributions of sphingolipid and triglyceride species, suggesting their involvement in pattern establishment and organ development. Our approach empowers a new generation of whole-organism metabolomic atlases and enables the discovery of spatially organized metabolic circuits.
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