Kinase-mediated RAS signaling via membraneless cytoplasmic protein granules

Asmin Tulpule; Juan Guan; Dana S. Neel; Hannah R. Allegakoen; Yone Phar Lin; David T. Brown; Yu‐Ting Chou; Ann Heslin; Nilanjana Chatterjee; Shriya Perati; Shruti Menon; Tan Nguyen; Jayanta Debnath; Alejandro Ramirez; Xiaoyu Shi; Bin Yang; Siyu Feng; Suraj Makhija; Bo Huang; Trever G. Bivona

doi:10.1016/j.cell.2021.03.031

Kinase-mediated RAS signaling via membraneless cytoplasmic protein granules

Asmin Tulpule(University of California, San Francisco), Juan Guan(University of California, San Francisco), Dana S. Neel(University of California, San Francisco), Hannah R. Allegakoen(University of California, San Francisco), Yone Phar Lin(University of California, San Francisco), David T. Brown(University of California, San Francisco), Yu‐Ting Chou(University of California, San Francisco), Ann Heslin(University of California, San Francisco), Nilanjana Chatterjee(University of California, San Francisco), Shriya Perati(University of California, San Francisco), Shruti Menon(University of California, San Francisco), Tan Nguyen(UCSF Helen Diller Family Comprehensive Cancer Center), Jayanta Debnath(UCSF Helen Diller Family Comprehensive Cancer Center), Alejandro Ramirez(University of California, San Francisco), Xiaoyu Shi(University of California, San Francisco), Bin Yang(University of California, San Francisco), Siyu Feng(University of California, Berkeley), Suraj Makhija(UCSF Helen Diller Family Comprehensive Cancer Center), Bo Huang(University of California, San Francisco), Trever G. Bivona(University of California, San Francisco)

Cell

April 13, 2021

10.1016/j.cell.2021.03.031

Cited by 184Open Access

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Abstract

Receptor tyrosine kinase (RTK)-mediated activation of downstream effector pathways such as the RAS GTPase/MAP kinase (MAPK) signaling cascade is thought to occur exclusively from lipid membrane compartments in mammalian cells. Here, we uncover a membraneless, protein granule-based subcellular structure that can organize RTK/RAS/MAPK signaling in cancer. Chimeric (fusion) oncoproteins involving certain RTKs including ALK and RET undergo de novo higher-order assembly into membraneless cytoplasmic protein granules that actively signal. These pathogenic biomolecular condensates locally concentrate the RAS activating complex GRB2/SOS1 and activate RAS in a lipid membrane-independent manner. RTK protein granule formation is critical for oncogenic RAS/MAPK signaling output in these cells. We identify a set of protein granule components and establish structural rules that define the formation of membraneless protein granules by RTK oncoproteins. Our findings reveal membraneless, higher-order cytoplasmic protein assembly as a distinct subcellular platform for organizing oncogenic RTK and RAS signaling.

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