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9b4r

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Crystal structure of MRAS bound to GMPPNP

Structural highlights

9b4r is a 1 chain structure with sequence from Homo sapiens. Full crystallographic information is available from OCA. For a guided tour on the structure components use FirstGlance.
Method:	X-ray diffraction, Resolution 2.1Å
Ligands:	, ,
Resources:	FirstGlance, OCA, PDBe, RCSB, PDBsum, ProSAT

Disease

RASM_HUMAN Noonan syndrome. The disease is caused by variants affecting the gene represented in this entry.

Function

RASM_HUMAN Serves as an important signal transducer for a novel upstream stimuli in controlling cell proliferation. Activates the MAP kinase pathway.^[1] ^[2]

Publication Abstract from PubMed

Mutations in RAS and PI3Kalpha are major drivers of human cancer. Their interaction plays a crucial role in activating PI3Kalpha and amplifying the PI3K-AKT-mTOR pathway. Disrupting RAS-PI3Kalpha interaction enhances survival in lung and skin cancer models and reduces tumor growth and angiogenesis, although the structural details of this interaction remain unclear. Here, we present structures of KRAS, RRAS2, and MRAS bound to the catalytic subunit (p110alpha) of PI3Kalpha, elucidating the interaction interfaces and local conformational changes upon complex formation. Structural and mutational analyses highlighted key residues in RAS and PI3Kalpha impacting binding affinity and revealed isoform-specific differences at the interaction interface in RAS and PI3K isoforms, providing a rationale for their differential affinities. Notably, in the RAS-p110alpha complex structures, RAS interaction with p110alpha is limited to the RAS-binding domain and does not involve the kinase domain. This study underscores the pivotal role of the RAS-PI3Kalpha interaction in PI3Kalpha activation and provides a blueprint for designing PI3Kalpha isoform-specific inhibitors to disrupt this interaction.

Structural insights into isoform-specific RAS-PI3Kalpha interactions and the role of RAS in PI3Kalpha activation.,Czyzyk D, Yan W, Messing S, Gillette W, Tsuji T, Yamaguchi M, Furuzono S, Turner DM, Esposito D, Nissley DV, McCormick F, Simanshu DK Nat Commun. 2025 Jan 9;16(1):525. doi: 10.1038/s41467-024-55766-x. PMID:39788953^[3]

From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine.

References

↑ Rodriguez-Viciana P, Oses-Prieto J, Burlingame A, Fried M, McCormick F. A phosphatase holoenzyme comprised of Shoc2/Sur8 and the catalytic subunit of PP1 functions as an M-Ras effector to modulate Raf activity. Mol Cell. 2006 Apr 21;22(2):217-30. doi: 10.1016/j.molcel.2006.03.027. PMID:16630891 doi:http://dx.doi.org/10.1016/j.molcel.2006.03.027
↑ Higgins EM, Bos JM, Mason-Suares H, Tester DJ, Ackerman JP, MacRae CA, Sol-Church K, Gripp KW, Urrutia R, Ackerman MJ. Elucidation of MRAS-mediated Noonan syndrome with cardiac hypertrophy. JCI Insight. 2017 Mar 9;2(5):e91225. doi: 10.1172/jci.insight.91225. PMID:28289718 doi:http://dx.doi.org/10.1172/jci.insight.91225
↑ Czyzyk D, Yan W, Messing S, Gillette W, Tsuji T, Yamaguchi M, Furuzono S, Turner DM, Esposito D, Nissley DV, McCormick F, Simanshu DK. Structural insights into isoform-specific RAS-PI3Kα interactions and the role of RAS in PI3Kα activation. Nat Commun. 2025 Jan 9;16(1):525. PMID:39788953 doi:10.1038/s41467-024-55766-x