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引用次数: 0
摘要
空间转录组学(ST)提供了组织内基因表达的高分辨率图谱,将空间转录组学与数字病理学相结合,可以为各种疾病的分子机制提供前所未有的洞察力。然而,现有的方法主要侧重于对齐这两个不同的数据集,往往忽略了空间基因活动与病理表型之间的因果联系。我们引入了 Pix2Path,这是一种基于深度学习的方法,利用条件生成对抗网络(cGANs)来弥合空间转录组学和数字病理学之间的差距。Pix2Path 可以处理来自各种空间转录组学(ST)技术的数据,评估不同病症的病理风险评分,并支持 "一走了之 "的空间硅学基因扰动策略。正如在 AD Aβ 斑块病理学中展示的那样,这种方法可以将基因表达变化与组织形态和病理学联系起来,而无需依赖预定义的条件,为了解疾病机制提供了一个新的视角。
Pix2Path: Integrating Spatial Transcriptomics and Digital Pathology with Deep Learning to Score Pathological Risk and Link Gene Expression to Disease Mechanisms
Spatial transcriptomics (ST) provides high-resolution mapping of gene expression within tissues, and integrating ST with digital pathology can offer unprecedented insights into the molecular mechanisms underlying various diseases. However, existing methods primarily focus on aligning these two distinct datasets, often neglecting the causal connections between spatial gene activity and pathological phenotype. We introduce Pix2Path, a deep learning-based approach utilizing conditional generative adversarial networks (cGANs), to bridge the gap between spatial transcriptomics and digital pathology. Pix2Path can process data from various spatial transcriptomics (ST) technologies, assess pathological risk scores across different conditions, and supports a leave-one-out spatial in silico gene perturbation strategy. As demonstrated in AD Aβ plaques pathology, this approach allows to link gene expression changes to tissue morphology and pathology without relying on predefined conditions, providing a new perspective on understanding disease mechanisms.
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