ETP-45835

response biomarkers — cross-omics
Drug responseDRUG → FUNCTION-SHRNACell line

Across CCLE and GDSC cell-line panels, response to ETP-45835 is significantly associated with the shRNA pathway dependency of multiple pathways, with BLOOD_Lymphoma cell lines showing a particularly strong set of associations.

The most reproducible ETP-45835 response-associated pathways across cancer lineages are Nuclear envelope organization, Cell cycle G2/M phase transition, and Gliogenesis, each associated with drug response in up to 7 lineages. Since the analysis identifies associations rather than directional relationships, both response-to-biomarker and biomarker-to-response views are provided.

Each biomarker is linked to its corresponding Q-omics profile. The scatter plot shows the strongest observed association, ETP-45835 response versus Nuclear envelope organization shRNA pathway dependency in BLOOD_Lymphoma (Pearson r = -0.81).

Shrna pathway dependency biomarkers of ETP-45835 response

Ranked by combined sampling and lineage consensus. X-score (response→biomarker) and Y-score (biomarker→response) are standardized regression coefficients; both directions are reported because the association is undirected. The reported p-values are derived from the association test.
LineagePartner pathwayX-scoreY-scorep(X)p(Y)Sampling consensusLineage consensus
BLOOD_LymphomaNuclear envelope organization →-0.204-0.635.024.00137
BREASTCell cycle G2/M phase transition →-0.259-0.136.009.04137
BLOOD_LeukemiaGliogenesis →-0.141-0.210.013.02737
STOMACHAutophagic cell death →+1.472+0.486.002.00836
KIDNEYUreteric bud development →+0.257+0.462<.001.00636
LUNG_NSCLC_LUSCAnimal organ maturation →-1.206-0.331.010.00136
Each biomarker links to its Q-omics profile. Showing the 6 strongest associations by consensus.

ETP-45835 response vs Nuclear envelope organization — BLOOD_Lymphoma

Per-cell-line scatter of ETP-45835 response vs Nuclear envelope organization shRNA pathway dependency in BLOOD_Lymphoma.

Explore this scatter interactively →

Exploration