Disruption of HSPA8-GEMIN5 interaction suppresses colorectal cancer by impaired splicing-translation coupling-mediated proteostasis imbalance
Fei Wang, Huiming Huang, Ruoxin Zhang, Xuejiao Wei, Zhuguo Wang, Xinyu Qiu, Yufeng Gao, Xiaoxue Wang, Wanying Xie, Hongbing Zhang, Pengfei Tu, Zhongdong Hu

TL;DR
A natural compound disrupts a key protein interaction in colorectal cancer, impairing both splicing and translation to suppress tumor growth.
Contribution
Identifies HSPA8-GEMIN5 as a novel molecular hub in CRC and introduces a dual-pathway strategy targeting splicing and translation.
Findings
DSHK targets HSPA8-GEMIN5 interaction to suppress CRC in preclinical models.
Disruption of HSPA8-GEMIN5 causes aberrant splicing and impaired ribosome biogenesis.
DSHK destabilizes the eIF4F complex, leading to dysfunctional translation initiation.
Abstract
Colorectal cancer (CRC) is one of the most prevalent malignant tumors globally, and there is an urgent need for effective treatment strategies. The natural compound Deoxyshikonin (DSHK) has shown promising anti-tumor potential. However, the anti-CRC effects of DSHK and its molecular target remain unclear. The anti-CRC efficacy of DSHK was evaluated using human CRC cell lines, patient-derived organoids (PDOs), cell line-derived xenograft (CDX), and patient-derived organoid xenograft (PDOX) models. Target identification involved chemical proteomics, CETSA, SPR, and molecular dynamics simulations. Protein interactions were probed using SPIDER proximity labeling, Co-IP, GST pull-down, and confocal microscopy. The spatial distribution of interacting proteins was examined through high-density tissue microarrays, and functional pathways were explored via whole-transcriptome sequencing, rMATS,…
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Taxonomy
TopicsATP Synthase and ATPases Research · Heat shock proteins research · RNA and protein synthesis mechanisms
