KYSE-510Homo sapiens (Human)Cancer cell line

Also known as: Kyse510, KYSE510, Kyse-510, KYSE 510

🤖 AI SummaryBased on 10 publications

Quick Overview

KYSE-510 is a human esophageal squamous cell carcinoma cell line used in cancer research.

Detailed Summary

KYSE-510 is a human esophageal squamous cell carcinoma cell line derived from surgically resected tumors. It is widely used in research to study the molecular mechanisms of esophageal cancer, including genetic and epigenetic alterations. This cell line has been utilized in studies focusing on the silencing of the LRP1B gene through homozygous deletions and hypermethylation. Additionally, KYSE-510 has been part of comprehensive genomic analyses to identify gene fusions and mutations associated with cancer progression. Its utility in understanding tumor biology and drug response has been highlighted in multiple studies, contributing to the development of targeted therapies.

Research Applications

Genomic analysis of cancer mutationsEpigenetic studies of gene silencingDrug response profilingIdentification of gene fusions

Key Characteristics

Homozygous deletions in LRP1BHypermethylation of LRP1B promoterUsed in comprehensive cancer genome studies
Generated on 6/16/2025

Basic Information

Database IDCVCL_1354
SpeciesHomo sapiens (Human)
Tissue SourceEsophagus[UBERON:UBERON_0001043]

Donor Information

Age67
Age CategoryAdult
SexFemale
Raceasian

Disease Information

DiseaseSquamous cell carcinoma of the esophagus
LineageEsophagus/Stomach
SubtypeEsophageal Squamous Cell Carcinoma
OncoTree CodeESCC

DepMap Information

Source TypeDSMZ
Source IDACH-000824_source

Known Sequence Variations

TypeGene/ProteinDescriptionZygosityNoteSource
MutationSimpleTP53p.Glu343Ter (c.1027G>T)Heterozygous-Unknown
MutationSimpleTP53c.721_752del32Unspecified-PubMed=8575860
MutationSimplePIK3CAp.Glu545Lys (c.1633G>A)Heterozygous-from parent cell line MCF-7

Haplotype Information (STR Profile)

Short Tandem Repeat (STR) profile for cell line authentication.

Amelogenin
X
CSF1PO
11
D13S317
12
D16S539
9
D18S51
15
D19S433
15
D21S11
31
D2S1338
20,23
D3S1358
17
D5S818
11
D7S820
11,12
D8S1179
10
FGA
22
Penta D
12
Penta E
16
TH01
9
TPOX
8
vWA
14
Gene Expression Profile
Gene expression levels and statistical distribution
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Full DepMap dataset with combined data across cell lines

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Publications

Pan-cancer proteomic map of 949 human cell lines.";

Robinson P.J., Zhong Q., Garnett M.J., Reddel R.R.

Cancer Cell 40:835-849.e8(2022).

Quantitative proteomics of the Cancer Cell Line Encyclopedia.";

Sellers W.R., Gygi S.P.

Cell 180:387-402.e16(2020).

Next-generation characterization of the Cancer Cell Line Encyclopedia.

Sellers W.R.

Nature 569:503-508(2019).

Prioritization of cancer therapeutic targets using CRISPR-Cas9 screens.

Stronach E.A., Saez-Rodriguez J., Yusa K., Garnett M.J.

Nature 568:511-516(2019).

An interactive resource to probe genetic diversity and estimated ancestry in cancer cell lines.

Dutil J., Chen Z.-H., Monteiro A.N.A., Teer J.K., Eschrich S.A.

Cancer Res. 79:1263-1273(2019).

A landscape of pharmacogenomic interactions in cancer.";

Wessels L.F.A., Saez-Rodriguez J., McDermott U., Garnett M.J.

Cell 166:740-754(2016).

TCLP: an online cancer cell line catalogue integrating HLA type, predicted neo-epitopes, virus and gene expression.

Loewer M., Sahin U., Castle J.C.

Genome Med. 7:118.1-118.7(2015).

Parallel genome-scale loss of function screens in 216 cancer cell lines for the identification of context-specific genetic dependencies.

Golub T.R., Root D.E., Hahn W.C.

Sci. Data 1:140035-140035(2014).

A resource for cell line authentication, annotation and quality control.

Neve R.M.

Nature 520:307-311(2015).

A comprehensive transcriptional portrait of human cancer cell lines.

Settleman J., Seshagiri S., Zhang Z.-M.

Nat. Biotechnol. 33:306-312(2015).

The Cancer Cell Line Encyclopedia enables predictive modelling of anticancer drug sensitivity.

Morrissey M.P., Sellers W.R., Schlegel R., Garraway L.A.

Nature 483:603-607(2012).

A genome-wide screen for microdeletions reveals disruption of polarity complex genes in diverse human cancers.

Haber D.A.

Cancer Res. 70:2158-2164(2010).

Signatures of mutation and selection in the cancer genome.";

Deloukas P., Yang F.-T., Campbell P.J., Futreal P.A., Stratton M.R.

Nature 463:893-898(2010).

Radiation sensitivities of 31 human oesophageal squamous cell carcinoma cell lines.

Shimada Y., Inazawa J., Imai T.

Int. J. Exp. Pathol. 86:231-240(2005).

Frequent silencing of low density lipoprotein receptor-related protein 1B (LRP1B) expression by genetic and epigenetic mechanisms in esophageal squamous cell carcinoma.

Imamura M., Amagasa T., Gray J.W., Hirohashi S., Inazawa J.

Cancer Res. 64:3741-3747(2004).

Nonrandom chromosomal imbalances in esophageal squamous cell carcinoma cell lines: possible involvement of the ATF3 and CENPF genes in the 1q32 amplicon.

Yang Z.-Q., Imamura M., Nakamura Y., Amagasa T., Inazawa J.

Jpn. J. Cancer Res. 91:1126-1133(2000).

Multiple types of aberrations in the p16 (INK4a) and the p15(INK4b) genes in 30 esophageal squamous-cell-carcinoma cell lines.

Tanaka H., Shimada Y., Imamura M., Shibagaki I., Ishizaki K.

Int. J. Cancer 70:437-442(1997).

Characterization of p53 gene mutations in esophageal squamous cell carcinoma cell lines: increased frequency and different spectrum of mutations from primary tumors.

Ishizaki K.

Int. J. Cancer 65:372-376(1996).

Analysis of gene amplification and overexpression in human esophageal-carcinoma cell lines.

Fukumoto M.

Int. J. Cancer 58:291-297(1994).

Characterization of 21 newly established esophageal cancer cell lines.

Shimada Y., Imamura M., Wagata T., Yamaguchi N., Tobe T.

Cancer 69:277-284(1992).