ELIZA cgi-bash version rev. 1.91
- Medical English LInking keywords finder for the PubMed Zipped Archive (ELIZA) -

return kwic search for gene out of >500 occurrences
403337 occurrences (No.43 in the rank) during 5 years in the PubMed. [cache]
26) Molecularly, the CDH12 population resembles an undifferentiated state with inherently aggressive biology including chemoresistance, likely mediated through progenitor-like gene expression and fibroblast activation.
--- ABSTRACT ---
PMID:34385456 DOI:10.1038/s41467-021-25103-7
2021 Nature communications
* An N-Cadherin 2 expressing epithelial cell subpopulation predicts response to surgery, chemotherapy and immunotherapy in bladder cancer.
- Neoadjuvant chemotherapy (NAC) prior to surgery and immune checkpoint therapy (ICT) have revolutionized bladder cancer management. However, stratification of patients that would benefit most from these modalities remains a major clinical challenge. Here, we combine single nuclei RNA sequencing with spatial transcriptomics and single-cell resolution spatial proteomic analysis of human bladder cancer to identify an epithelial subpopulation with therapeutic response prediction ability. These cells express Cadherin 12 (CDH12, N-Cadherin 2), catenins, and other epithelial markers. CDH12-enriched tumors define patients with poor outcome following surgery with or without NAC. In contrast, CDH12-enriched tumors exhibit superior response to ICT. In all settings, patient stratification by tumor CDH12 enrichment offers better prediction of outcome than currently established bladder cancer subtypes. Molecularly, the CDH12 population resembles an undifferentiated state with inherently aggressive biology including chemoresistance, likely mediated through progenitor-like gene expression and fibroblast activation. CDH12-enriched cells express PD-L1 and PD-L2 and co-localize with exhausted T-cells, possibly mediated through CD49a (ITGA1), providing one explanation for ICT efficacy in these tumors. Altogether, this study describes a cancer cell population with an intriguing diametric response to major bladder cancer therapeutics. Importantly, it also provides a compelling framework for designing biomarker-guided clinical trials.
--- ABSTRACT END ---
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[frequency of next (right) word to gene]
(1)132 expression (14)5 drive (27)3 duplications (40)2 for
(2)14 *null* (15)5 editing (28)3 ontology (41)2 from
(3)12 expression, (16)5 mutations (29)3 signature (42)2 fusion,
(4)11 and (17)5 of (30)3 to (43)2 have
(5)10 encoding (18)5 regulation (31)3 which (44)2 is
(6)10 set (19)4 networks (32)2 analysis (45)2 ontologies
(7)8 in (20)4 regulatory (33)2 are (46)2 or
(8)8 that (21)4 silencing (34)2 assay, (47)2 pathways
(9)7 1 (22)4 transcription (35)2 called (48)2 profile
(10)6 interaction (23)4 transfer (36)2 cluster (49)2 promoter
(11)6 therapy (24)3 1/itaconate (37)2 delivery (50)2 sequencing
(12)6 was (25)3 co-expression (38)2 detection (51)2 sets
(13)5 Expression (26)3 coexpression (39)2 expressions (52)2 transcripts

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--- WordNet output for gene --- =>遺伝子 Overview of noun gene The noun gene has 1 sense (no senses from tagged texts) 1. gene, cistron, factor -- ((genetics) a segment of DNA that is involved in producing a polypeptide chain; it can include regions preceding and following the coding DNA as well as introns between the exons; it is considered a unit of heredity; "genes were formerly called factors") --- WordNet end ---