Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Time‐Lapse Acquisition of Both Freely Secreted Proteome and Exosome Encapsulated Proteome in Live Organoids’ Microenvironment
Proteomic communications in neighboring microenvironments during early organ development is a dynamic process that continuously reshapes human embryonic stem cells (hESCs) developmental fate. Such dynamic proteomic alteration in the microenvironment consists of both freely secreted proteome and exosome‐encapsulated proteome. Simultaneous monitoring of the time‐lapse shift of both proteomes with live organoids remains technically challenging. Here, a continuous organoid secretion/encapsulation proteome tandem LC‐MS/MS (COSEP‐LCM) is introduced, which permits time‐lapse monitoring of proteomic alterations both in free secretion form and in exosome encapsulated form at live organoids’ microenvironment. Continuous growth of human cerebral organoids (COs) and free‐secretion/exosome‐encapsulation proteomics acquisition with COSEP‐LCM for 60 days is demonstrated. SERPINF1, F5, and EFNB1 are initially enriched inside exosomes as encapsulated excretion and then gradually enriched outside exosomes as freely secreted excretion, while C3 is initially enriched outside exosomes as freely secreted excretion and gradually enriched inside exosomes as encapsulated excretion. Such dynamic excretion pattern paradigm shift may imply critical developmental strategy evolution during early human cerebral development. COSEP‐LCM offers a platform technique for continuous inside/outside exosome proteomics co‐analysis in live organoids’ microenvironment.
Time‐Lapse Acquisition of Both Freely Secreted Proteome and Exosome Encapsulated Proteome in Live Organoids’ Microenvironment
Proteomic communications in neighboring microenvironments during early organ development is a dynamic process that continuously reshapes human embryonic stem cells (hESCs) developmental fate. Such dynamic proteomic alteration in the microenvironment consists of both freely secreted proteome and exosome‐encapsulated proteome. Simultaneous monitoring of the time‐lapse shift of both proteomes with live organoids remains technically challenging. Here, a continuous organoid secretion/encapsulation proteome tandem LC‐MS/MS (COSEP‐LCM) is introduced, which permits time‐lapse monitoring of proteomic alterations both in free secretion form and in exosome encapsulated form at live organoids’ microenvironment. Continuous growth of human cerebral organoids (COs) and free‐secretion/exosome‐encapsulation proteomics acquisition with COSEP‐LCM for 60 days is demonstrated. SERPINF1, F5, and EFNB1 are initially enriched inside exosomes as encapsulated excretion and then gradually enriched outside exosomes as freely secreted excretion, while C3 is initially enriched outside exosomes as freely secreted excretion and gradually enriched inside exosomes as encapsulated excretion. Such dynamic excretion pattern paradigm shift may imply critical developmental strategy evolution during early human cerebral development. COSEP‐LCM offers a platform technique for continuous inside/outside exosome proteomics co‐analysis in live organoids’ microenvironment.
Time‐Lapse Acquisition of Both Freely Secreted Proteome and Exosome Encapsulated Proteome in Live Organoids’ Microenvironment
Yan, Haoni (Autor:in) / Abdulla, Aynur (Autor:in) / Wang, Aiting (Autor:in) / Ding, Shuyu (Autor:in) / Zhang, Manlin (Autor:in) / Zhang, Yizhi (Autor:in) / Zhuang, Tsz Yui (Autor:in) / Wu, Leqi (Autor:in) / Wang, Yan (Autor:in) / Ren, Rongrong (Autor:in)
Advanced Science ; 12
01.01.2025
12 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Brain Injury Proteome Dynamics
| British Library Conference Proceedings | 2008
| Online Contents | 2014