Deciphering spatial domains from spatial multi-omics with SpatialGlue.
Yahui LongKok Siong AngRaman SethiSha LiaoYang HengLynn van OlstShuchen YeChengwei ZhongJinmiao ChenDi ZhangImmanuel KwokNazihah HusnaMin JianLai Guan NgAo ChenNicholas R J GascoigneDavid GateRong FanXue LiuJinmiao ChenPublished in: Nature methods (2024)
Advances in spatial omics technologies now allow multiple types of data to be acquired from the same tissue slice. To realize the full potential of such data, we need spatially informed methods for data integration. Here, we introduce SpatialGlue, a graph neural network model with a dual-attention mechanism that deciphers spatial domains by intra-omics integration of spatial location and omics measurement followed by cross-omics integration. We demonstrated SpatialGlue on data acquired from different tissue types using different technologies, including spatial epigenome-transcriptome and transcriptome-proteome modalities. Compared to other methods, SpatialGlue captured more anatomical details and more accurately resolved spatial domains such as the cortex layers of the brain. Our method also identified cell types like spleen macrophage subsets located at three different zones that were not available in the original data annotations. SpatialGlue scales well with data size and can be used to integrate three modalities. Our spatial multi-omics analysis tool combines the information from complementary omics modalities to obtain a holistic view of cellular and tissue properties.
Keyphrases
- single cell
- electronic health record
- rna seq
- big data
- gene expression
- adipose tissue
- data analysis
- healthcare
- stem cells
- dna methylation
- magnetic resonance imaging
- white matter
- risk assessment
- mesenchymal stem cells
- computed tomography
- climate change
- peripheral blood
- subarachnoid hemorrhage
- functional connectivity
- social media
- cerebral ischemia
- human health
- solar cells