时间分辨报告系统揭示的胰腺β细胞新生的空间和转录异质性
Spatial and transcriptional heterogeneity of pancreatic beta cell neogenesis revealed by a time-resolved reporter system.
作者信息
Sasaki Shugo, Lee Michelle Y Y, Wakabayashi Yuka, Suzuki Luka, Winata Helena, Himuro Miwa, Matsuoka Taka-Aki, Shimomura Iichiro, Watada Hirotaka, Lynn Francis C, Miyatsuka Takeshi
机构信息
Department of Metabolic Medicine, Osaka University Graduate School of Medicine, Osaka, Japan.
Department of Diabetes Care Medicine, Osaka University Graduate School of Medicine, Osaka, Japan.
出版信息
Diabetologia. 2022 May;65(5):811-828. doi: 10.1007/s00125-022-05662-0. Epub 2022 Mar 3.
AIMS/HYPOTHESIS: While pancreatic beta cells have been shown to originate from endocrine progenitors in ductal regions, it remains unclear precisely where beta cells emerge from and which transcripts define newborn beta cells. We therefore investigated characteristics of newborn beta cells extracted by a time-resolved reporter system.
METHODS
We established a mouse model, 'Ins1-GFP; Timer', which provides spatial information during beta cell neogenesis with high temporal resolution. Single-cell RNA-sequencing (scRNA-seq) was performed on mouse beta cells sorted by fluorescent reporter to uncover transcriptomic profiles of newborn beta cells. scRNA-seq of human embryonic stem cell (hESC)-derived beta-like cells was also performed to compare newborn beta cell features between mouse and human.
RESULTS
Fluorescence imaging of Ins1-GFP; Timer mouse pancreas successfully dissected newly generated beta cells as green fluorescence-dominant cells. This reporter system revealed that, as expected, some newborn beta cells arise close to the ducts (β); unexpectedly, the others arise away from the ducts and adjacent to blood vessels (β). Single-cell transcriptomic analyses demonstrated five distinct populations among newborn beta cells, confirming spatial heterogeneity of beta cell neogenesis such as high probability of glucagon-positive β, musculoaponeurotic fibrosarcoma oncogene family B (MafB)-positive β and musculoaponeurotic fibrosarcoma oncogene family A (MafA)-positive β cells. Comparative analysis with scRNA-seq data of mouse newborn beta cells and hESC-derived beta-like cells uncovered transcriptional similarity between mouse and human beta cell neogenesis including microsomal glutathione S-transferase 1 (MGST1)- and synaptotagmin 13 (SYT13)-highly-expressing state.
CONCLUSIONS/INTERPRETATION: The combination of time-resolved histological imaging with single-cell transcriptional mapping demonstrated novel features of spatial and transcriptional heterogeneity in beta cell neogenesis, which will lead to a better understanding of beta cell differentiation for future cell therapy.
DATA AVAILABILITY
Raw and processed single-cell RNA-sequencing data for this study has been deposited in the Gene Expression Omnibus under accession number GSE155742.
目的/假设:虽然胰腺β细胞已被证明起源于导管区域的内分泌祖细胞,但β细胞究竟从何处产生以及哪些转录本定义新生β细胞仍不清楚。因此,我们研究了通过时间分辨报告系统提取的新生β细胞的特征。
方法
我们建立了一个小鼠模型“Ins1-GFP; Timer”,它在β细胞新生过程中以高时间分辨率提供空间信息。对通过荧光报告分选的小鼠β细胞进行单细胞RNA测序(scRNA-seq),以揭示新生β细胞的转录组图谱。还对人胚胎干细胞(hESC)衍生的β样细胞进行了scRNA-seq,以比较小鼠和人新生β细胞的特征。
结果
Ins1-GFP; Timer小鼠胰腺的荧光成像成功地将新生成的β细胞分离为绿色荧光占主导的细胞。该报告系统显示,正如预期的那样,一些新生β细胞出现在靠近导管的位置(β);出乎意料的是,其他新生β细胞出现在远离导管且与血管相邻的位置(β)。单细胞转录组分析在新生β细胞中证实了五个不同的群体,证实了β细胞新生的空间异质性,如胰高血糖素阳性β、肌腱膜纤维肉瘤致癌基因家族B(MafB)阳性β和肌腱膜纤维肉瘤致癌基因家族A(MafA)阳性β细胞的高概率。与小鼠新生β细胞和hESC衍生的β样细胞的scRNA-seq数据进行比较分析,发现小鼠和人β细胞新生之间存在转录相似性,包括微粒体谷胱甘肽S-转移酶1(MGST1)和突触结合蛋白13(SYT13)高表达状态。
结论/解读:时间分辨组织学成像与单细胞转录图谱的结合展示了β细胞新生过程中空间和转录异质性的新特征,这将有助于更好地理解未来细胞治疗中β细胞的分化。
数据可用性
本研究的原始和处理后的单细胞RNA测序数据已存于基因表达综合数据库,登录号为GSE155742。
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