Systematic genetic mapping of necroptosis identifies SLC39A7 as modulator of death receptor trafficking

坏死性下垂 生物 遗传筛选 清脆的 细胞生物学 程序性细胞死亡 裂谷1 物候学 损失函数 时尚 遗传学 计算生物学 基因 表型 细胞凋亡 半胱氨酸蛋白酶
作者
Astrid Fauster,Manuele Rebsamen,Katharina Willmann,Adrián César‐Razquin,Enrico Girardi,Johannes W. Bigenzahn,Fiorella Schischlik,Stefania Scorzoni,Manuela Brückner,Justyna Konecka,Katrin Hörmann,Leonhard X. Heinz,Kaan Boztuǧ,Giulio Superti‐Furga
出处
期刊:Cell Death & Differentiation [Springer Nature]
卷期号:26 (6): 1138-1155 被引量:32
标识
DOI:10.1038/s41418-018-0192-6
摘要

Regulation of cell and tissue homeostasis by programmed cell death is a fundamental process with wide physiological and pathological implications. The advent of scalable somatic cell genetic technologies creates the opportunity to functionally map such essential pathways, thereby identifying potential disease-relevant components. We investigated the genetic basis underlying necroptotic cell death by performing a complementary set of loss-of-function and gain-of-function genetic screens. To this end, we established FADD-deficient haploid human KBM7 cells, which specifically and efficiently undergo necroptosis after a single treatment with either TNFα or the SMAC mimetic compound birinapant. A series of unbiased gene-trap screens identified key signaling mediators, such as TNFR1, RIPK1, RIPK3, and MLKL. Among the novel components, we focused on the zinc transporter SLC39A7, whose knock-out led to necroptosis resistance by affecting TNF receptor surface levels. Orthogonal, solute carrier (SLC)-focused CRISPR/Cas9-based genetic screens revealed the exquisite specificity of SLC39A7, among ~400 SLC genes, for TNFR1-mediated and FAS-mediated but not TRAIL-R1-mediated responses. Mechanistically, we demonstrate that loss of SLC39A7 resulted in augmented ER stress and impaired receptor trafficking, thereby globally affecting downstream signaling. The newly established cellular model also allowed genome-wide gain-of-function screening for genes conferring resistance to necroptosis via the CRISPR/Cas9-based synergistic activation mediator approach. Among these, we found cIAP1 and cIAP2, and characterized the role of TNIP1, which prevented pathway activation in a ubiquitin-binding dependent manner. Altogether, the gain-of-function and loss-of-function screens described here provide a global genetic chart of the molecular factors involved in necroptosis and death receptor signaling, prompting further investigation of their individual contribution and potential role in pathological conditions.
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