LN229人胶质瘤细胞

价 格:¥1800

期 货:现货(冻存管发2支)

保藏中心:BTCC

资源编号:BTCC-1094

产地:中国

套 餐:

T25/复苏细胞 无血清冻存液 专用完全培养基500ml 南美特级胎牛血清500ml

详细资料说明书下载质检报告(COA)

Cell line nameLN-229
SynonymsLN 229; LN229; LNT-229
AccessionCVCL_0393
Resource Identification InitiativeTo cite this cell line use: LN-229 (RRID:CVCL_0393)
CommentsPart of: Cancer Dependency Map project (DepMap) (includes Cancer Cell Line Encyclopedia - CCLE).
Part of: COSMIC cell lines project.
Doubling time: 24 hours (PubMed=9842975); 31 hours (PubMed=25984343).
Microsatellite instability: Stable (MSS) (Sanger).
Omics: Cell surface proteome.
Omics: CNV analysis.
Omics: Deep exome analysis.
Omics: Deep proteome analysis.
Omics: Deep quantitative proteome analysis.
Omics: DNA methylation analysis.
Omics: HLA class I peptidome analysis by proteomics.
Omics: shRNA library screening.
Omics: SNP array analysis.
Omics: Transcriptome analysis by microarray.
Omics: Transcriptome analysis by RNAseq.
Misspelling: LN22; Cosmic=2580915.
Derived from site: In situ; Brain, right frontal parieto-occipital cortex.
Sequence variations
  • Gene deletion; HGNC; 1787; CDKN2A; Zygosity=Homozygous (PubMed=9842975).
  • Mutation; HGNC; 6597; LIFR; Simple; p.Pro1060Ala (c.3178C>G); Zygosity=Heterozygous (Cosmic-CLP).
  • Mutation; HGNC; 9811; RAD21; Simple; p.Gln132Ter (c.394C>T); Zygosity=Heterozygous (Cosmic-CLP).
  • Mutation; HGNC; 11730; TERT; Simple; c.1-124C>T (c.228C>T) (C228T); Zygosity=Unspecified; Note=In promoter (PubMed=31068700).
  • Mutation; HGNC; 11998; TP53; Simple; p.Pro98Leu (c.293C>T); ClinVar=VCV000528236; Zygosity=Homozygous (PubMed=10416987; Cosmic-CLP).
HLA typingSource: PubMed=27412690
Class I
HLA-AA*03:01:01
HLA-BB*35:01
HLA-CC*04:01:01

Source: PubMed=26589293
Class I
HLA-AA*03:01,03:01
HLA-BB*35:01,35:01
HLA-CC*04:01,04:01
Class II
HLA-DQDQA1*01:01,01:01

DQB1*05:01,05:01
HLA-DRDRB1*01:01,11:19
Genome ancestrySource: PubMed=30894373

Origin% genome


African0
Native American0
East Asian, North2.23
East Asian, South0
South Asian0.02
European, North59.47
European, South38.27
DiseaseGlioblastoma (NCIt: C3058)
Glioblastoma (ORDO: Orphanet_360)
Species of originHomo sapiens (Human) (NCBI Taxonomy: 9606)
HierarchyChildren:


CVCL_WS33 (LN-229_indWIF1)CVCL_A8V5 (LN229/CD20)
Sex of cellFemale
Age at sampling60Y
CategoryCancer cell line
STR profileSource(s): AddexBio; ATCC; Cosmic-CLP; PubMed=22570425; PubMed=25877200

Markers:
AmelogeninX
CSF1PO12
D3S135816,17
D5S81811 (PubMed=25877200)
11,12 (AddexBio; ATCC; Cosmic-CLP; PubMed=22570425)
D7S8208,11 (AddexBio; ATCC; Cosmic-CLP; PubMed=22570425)
11 (PubMed=25877200)
D8S117913,14
D13S31710,11
D16S53912
D18S5113,15
D21S1129,30
FGA23
Penta D10,11
Penta E7,16
TH019.3
TPOX8
vWA16,19

Run an STR similarity search on this cell line
Publications

PubMed=7693337
Li H., Hamou M.-F., de Tribolet N., Jaufeerally R., Hofmann M., Diserens A.-C., Van Meir E.G.
Variant CD44 adhesion molecules are expressed in human brain metastases but not in glioblastomas.
Cancer Res. 53:5345-5349(1993)

PubMed=8509230; DOI=10.1002/ijc.2910540329
Rimoldi D., Romero P., Carrel S.
The human melanoma antigen-encoding gene, MAGE-1, is expressed by other tumour cells of neuroectodermal origin such as glioblastomas and neuroblastomas.
Int. J. Cancer 54:527-528(1993)

PubMed=9842975; DOI=10.1002/(SICI)1097-0215(19981218)79:6<640::aid-ijc15>3.0.co;2-z
Weller M., Rieger J., Grimmel C., Van Meir E.G., De Tribolet N., Krajewski S., Reed J.C., von Deimling A., Dichgans J.
Predicting chemoresistance in human malignant glioma cells: the role of molecular genetic analyses.
Int. J. Cancer 79:640-644(1998)

DOI=10.1007/0-306-46861-1_11
Ali-Osman F.
Brain tumors.
(In) Human cell culture. Vol. 2. Cancer Cell Lines part 2; Masters J.R.W., Palsson B.O. (eds.); pp.167-184; Kluwer Academic Publishers; New York (1999)

PubMed=10416987; DOI=10.1111/j.1750-3639.1999.tb00536.x
Ishii N., Maier D., Merlo A., Tada M., Sawamura Y., Diserens A.-C., Van Meir E.G.
Frequent co-alterations of TP53, p16/CDKN2A, p14ARF, PTEN tumor suppressor genes in human glioma cell lines.
Brain Pathol. 9:469-479(1999)

PubMed=14614447; DOI=10.1038/sj.onc.1207198
Wischhusen J., Naumann U., Ohgaki H., Rastinejad F., Weller M.
CP-31398, a novel p53-stabilizing agent, induces p53-dependent and p53-independent glioma cell death.
Oncogene 22:8233-8245(2003)

PubMed=14655754; DOI=10.1111/j.1750-3639.2003.tb00479.x
Bahr O., Rieger J., Duffner F., Meyermann R., Weller M., Wick W.
P-glycoprotein and multidrug resistance-associated protein mediate specific patterns of multidrug resistance in malignant glioma cell lines, but not in primary glioma cells.
Brain Pathol. 13:482-494(2003)

PubMed=16697959; DOI=10.1016/j.ccr.2006.03.030
Lee J., Kotliarova S., Kotliarov Y., Li A., Su Q., Donin N.M., Pastorino S., Purow B.W., Christopher N., Zhang W., Park J.K., Fine H.A.
Tumor stem cells derived from glioblastomas cultured in bFGF and EGF more closely mirror the phenotype and genotype of primary tumors than do serum-cultured cell lines.
Cancer Cell 9:391-403(2006)

PubMed=17595512; DOI=10.1159/000104150
Rieger J., Frank B., Weller M., Wick W.
Mechanisms of resistance of human glioma cells to Apo2 ligand/TNF-related apoptosis-inducing ligand.
Cell. Physiol. Biochem. 20:23-34(2007)

PubMed=19365568; DOI=10.1371/journal.pone.0005209
Bax D.A., Little S.E., Gaspar N., Perryman L., Marshall L., Viana-Pereira M., Jones T.A., Williams R.D., Grigoriadis A., Vassal G., Workman P., Sheer D., Reis R.M., Pearson A.D.J., Hargrave D., Jones C.
Molecular and phenotypic characterisation of paediatric glioma cell lines as models for preclinical drug development.
PLoS ONE 4:E5209-E5209(2009)

PubMed=20504876; DOI=10.1093/neuonc/noq051
Berger B., Capper D., Lemke D., Pfenning P.-N., Platten M., Weller M., von Deimling A., Wick W., Weiler M.
Defective p53 antiangiogenic signaling in glioblastoma.
Neuro-oncol. 12:894-907(2010)

PubMed=21406405; DOI=10.1158/0008-5472.CAN-10-3112
Grzmil M., Morin P. Jr., Lino M.M., Merlo A., Frank S., Wang Y.-H., Moncayo G., Hemmings B.A.
MAP kinase-interacting kinase 1 regulates SMAD2-dependent TGF-beta signaling pathway in human glioblastoma.
Cancer Res. 71:2392-2402(2011)

PubMed=22460905; DOI=10.1038/nature11003
Barretina J.G., Caponigro G., Stransky N., Venkatesan K., Margolin A.A., Kim S., Wilson C.J., Lehar J., Kryukov G.V., Sonkin D., Reddy A., Liu M., Murray L., Berger M.F., Monahan J.E., Morais P., Meltzer J., Korejwa A., Jane-Valbuena J., Mapa F.A., Thibault J., Bric-Furlong E., Raman P., Shipway A., Engels I.H., Cheng J., Yu G.-Y.K., Yu J.-J., Aspesi P. Jr., de Silva M., Jagtap K., Jones M.D., Wang L., Hatton C., Palescandolo E., Gupta S., Mahan S., Sougnez C., Onofrio R.C., Liefeld T., MacConaill L.E., Winckler W., Reich M., Li N.-X., Mesirov J.P., Gabriel S.B., Getz G., Ardlie K., Chan V., Myer V.E., Weber B.L., Porter J., Warmuth M., Finan P., Harris J.L., Meyerson M.L., Golub T.R., Morrissey M.P., Sellers W.R., Schlegel R., Garraway L.A.
The Cancer Cell Line Encyclopedia enables predictive modelling of anticancer drug sensitivity.
Nature 483:603-607(2012)

PubMed=22570425; DOI=10.1093/neuonc/nos072
Bady P., Diserens A.-C., Castella V., Kalt S., Heinimann K., Hamou M.-F., Delorenzi M., Hegi M.E.
DNA fingerprinting of glioma cell lines and considerations on similarity measurements.
Neuro-oncol. 14:701-711(2012)

PubMed=25984343; DOI=10.1038/sdata.2014.35
Cowley G.S., Weir B.A., Vazquez F., Tamayo P., Scott J.A., Rusin S., East-Seletsky A., Ali L.D., Gerath W.F.J., Pantel S.E., Lizotte P.H., Jiang G.-Z., Hsiao J., Tsherniak A., Dwinell E., Aoyama S., Okamoto M., Harrington W., Gelfand E.T., Green T.M., Tomko M.J., Gopal S., Wong T.C., Li H.-B., Howell S., Stransky N., Liefeld T., Jang D., Bistline J., Meyers B.H., Armstrong S.A., Anderson K.C., Stegmaier K., Reich M., Pellman D., Boehm J.S., Mesirov J.P., Golub T.R., Root D.E., Hahn W.C.
Parallel genome-scale loss of function screens in 216 cancer cell lines for the identification of context-specific genetic dependencies.
Sci. Data 1:140035-140035(2014)

PubMed=25485619; DOI=10.1038/nbt.3080
Klijn C., Durinck S., Stawiski E.W., Haverty P.M., Jiang Z.-S., Liu H.-B., Degenhardt J., Mayba O., Gnad F., Liu J.-F., Pau G., Reeder J., Cao Y., Mukhyala K., Selvaraj S.K., Yu M.-M., Zynda G.J., Brauer M.J., Wu T.D., Gentleman R.C., Manning G., Yauch R.L., Bourgon R., Stokoe D., Modrusan Z., Neve R.M., de Sauvage F.J., Settleman J., Seshagiri S., Zhang Z.-M.
A comprehensive transcriptional portrait of human cancer cell lines.
Nat. Biotechnol. 33:306-312(2015)

PubMed=25894527; DOI=10.1371/journal.pone.0121314
Bausch-Fluck D., Hofmann A., Bock T., Frei A.P., Cerciello F., Jacobs A., Moest H., Omasits U., Gundry R.L., Yoon C., Schiess R., Schmidt A., Mirkowska P., Hartlova A.S., Van Eyk J.E., Bourquin J.-P., Aebersold R., Boheler K.R., Zandstra P.W., Wollscheid B.
A mass spectrometric-derived cell surface protein atlas.
PLoS ONE 10:E0121314-E0121314(2015)

PubMed=26496030; DOI=10.18632/oncotarget.6171
Patil V., Pal J., Somasundaram K.
Elucidating the cancer-specific genetic alteration spectrum of glioblastoma derived cell lines from whole exome and RNA sequencing.
Oncotarget 6:43452-43471(2015)

PubMed=26589293; DOI=10.1186/s13073-015-0240-5
Scholtalbers J., Boegel S., Bukur T., Byl M., Goerges S., Sorn P., Loewer M., Sahin U., Castle J.C.
TCLP: an online cancer cell line catalogue integrating HLA type, predicted neo-epitopes, virus and gene expression.
Genome Med. 7:118.1-118.7(2015)

PubMed=25772239; DOI=10.1038/onc.2015.61
Vassallo I., Zinn P., Lai M., Rajakannu P., Hamou M.-F., Hegi M.E.
WIF1 re-expression in glioblastoma inhibits migration through attenuation of non-canonical WNT signaling by downregulating the lncRNA MALAT1.
Oncogene 35:12-21(2016)

PubMed=27397505; DOI=10.1016/j.cell.2016.06.017
Iorio F., Knijnenburg T.A., Vis D.J., Bignell G.R., Menden M.P., Schubert M., Aben N., Goncalves E., Barthorpe S., Lightfoot H., Cokelaer T., Greninger P., van Dyk E., Chang H., de Silva H., Heyn H., Deng X.-M., Egan R.K., Liu Q.-S., Mironenko T., Mitropoulos X., Richardson L., Wang J.-H., Zhang T.-H., Moran S., Sayols S., Soleimani M., Tamborero D., Lopez-Bigas N., Ross-Macdonald P., Esteller M., Gray N.S., Haber D.A., Stratton M.R., Benes C.H., Wessels L.F.A., Saez-Rodriguez J., McDermott U., Garnett M.J.
A landscape of pharmacogenomic interactions in cancer.
Cell 166:740-754(2016)

PubMed=27412690; DOI=10.1074/mcp.M116.060350
Shraibman B., Kadosh D.M., Barnea E., Admon A.
Human leukocyte antigen (HLA) peptides derived from tumor antigens induced by inhibition of DNA methylation for development of drug-facilitated immunotherapy.
Mol. Cell. Proteomics 15:3058-3070(2016)

PubMed=30894373; DOI=10.1158/0008-5472.CAN-18-2747
Dutil J., Chen Z.-H., Monteiro A.N.A., Teer J.K., Eschrich S.A.
An interactive resource to probe genetic diversity and estimated ancestry in cancer cell lines.
Cancer Res. 79:1263-1273(2019)

PubMed=31068700; DOI=10.1038/s41586-019-1186-3
Ghandi M., Huang F.W., Jane-Valbuena J., Kryukov G.V., Lo C.C., McDonald E.R. III, Barretina J.G., Gelfand E.T., Bielski C.M., Li H., Hu K., Andreev-Drakhlin A.Y., Kim J., Hess J.M., Haas B.J., Aguet F., Weir B.A., Rothberg M.V., Paolella B.R., Lawrence M.S., Akbani R., Lu Y., Tiv H.L., Gokhale P.C., de Weck A., Mansour A.A., Oh C., Shih J., Hadi K., Rosen Y., Bistline J., Venkatesan K., Reddy A., Sonkin D., Liu M., Lehar J., Korn J.M., Porter D.A., Jones M.D., Golji J., Caponigro G., Taylor J.E., Dunning C.M., Creech A.L., Warren A.C., McFarland J.M., Zamanighomi M., Kauffmann A., Stransky N., Imielinski M., Maruvka Y.E., Cherniack A.D., Tsherniak A., Vazquez F., Jaffe J.D., Lane A.A., Weinstock D.M., Johannessen C.M., Morrissey M.P., Stegmeier F., Schlegel R., Hahn W.C., Getz G., Mills G.B., Boehm J.S., Golub T.R., Garraway L.A., Sellers W.R.
Next-generation characterization of the Cancer Cell Line Encyclopedia.
Nature 569:503-508(2019)

PubMed=31978347; DOI=10.1016/j.cell.2019.12.023
Nusinow D.P., Szpyt J., Ghandi M., Rose C.M., McDonald E.R. III, Kalocsay M., Jane-Valbuena J., Gelfand E.T., Schweppe D.K., Jedrychowski M.P., Golji J., Porter D.A., Rejtar T., Wang Y.K., Kryukov G.V., Stegmeier F., Erickson B.K., Garraway L.A., Sellers W.R., Gygi S.P.
Quantitative proteomics of the Cancer Cell Line Encyclopedia.
Cell 180:387-402.e16(2020)

PubMed=35839778; DOI=10.1016/j.ccell.2022.06.010
Goncalves E., Poulos R.C., Cai Z.-X., Barthorpe S., Manda S.S., Lucas N., Beck A., Bucio-Noble D., Dausmann M., Hall C., Hecker M., Koh J., Lightfoot H., Mahboob S., Mali I., Morris J., Richardson L., Seneviratne A.J., Shepherd R., Sykes E., Thomas F., Valentini S., Williams S.G., Wu Y.-X., Xavier D., MacKenzie K.L., Hains P.G., Tully B., Robinson P.J., Zhong Q., Garnett M.J., Reddel R.R.
Pan-cancer proteomic map of 949 human cell lines.
Cancer Cell 40:835-849.e8(2022)

Cross-references
Cell line databases/resourcesCLO; CLO_0007363
MCCL; MCC:0000288
Cell_Model_Passport; SIDM00684
Cosmic-CLP; 1240169
DepMap; ACH-000595
LINCS_LDP; LCL-1354
Lonza; 1322
Anatomy/cell type resourcesBTO; BTO:0002004
Biological sample resourcesBioSample; SAMN03471191
BioSample; SAMN03471692
BioSample; SAMN10987619
Cell line collections (Providers)AddexBio; C0005017/4993
ATCC; CRL-2611
CLS; 305043
Chemistry resourcesChEMBL-Cells; CHEMBL4295402
ChEMBL-Targets; CHEMBL4296459
GDSC; 1240169
PharmacoDB; LN229_841_2019
PubChem_Cell_line; CVCL_0393
Encyclopedic resourcesWikidata; Q54902771
Experimental variables resourcesEFO; EFO_0006637

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