CAMA-1Homo sapiens (Human)Cancer cell line

Also known as: CAMA, CAMA1, Cama-1

🤖 AI SummaryBased on 14 publications

Quick Overview

Human breast cancer cell line with known genetic and molecular characteristics.

Detailed Summary

CAMA-1 is a human breast cancer cell line derived from a metastatic lesion. It is widely used in cancer research to study tumor biology, drug sensitivity, and genetic mutations. The cell line exhibits specific molecular features that make it a valuable model for understanding breast cancer progression and therapeutic responses. Research on CAMA-1 has contributed to the identification of key genetic alterations and their implications in cancer development and treatment.
Generated on 6/16/2025

Basic Information

Database IDCVCL_1115
SpeciesHomo sapiens (Human)
Tissue SourcePleural effusion[UBERON:UBERON_0000175]

Donor Information

Age51
Age CategoryAdult
SexFemale
Racecaucasian
Subtype Featuresluminal ER+, PR+, HER2+

Disease Information

DiseaseBreast adenocarcinoma
LineageBreast
SubtypeBreast Invasive Lobular Carcinoma
OncoTree CodeILC

DepMap Information

Source TypeATCC
Source IDACH-000783_source

Known Sequence Variations

TypeGene/ProteinDescriptionZygosityNoteSource
MutationSimpleTP53p.Arg280Thr (c.839G>C)Heterozygous-Unknown, PubMed=12872257
MutationSimplePTENp.Asp92His (c.274G>C)Heterozygous-from parent cell line CAMA-1
MutationSimpleCDH1c.1712-1G>AHomozygousSplice acceptor mutationfrom parent cell line CAMA-1

Haplotype Information (STR Profile)

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

Amelogenin
X
CSF1PO
10,12
D10S1248
14,17
D12S391
15
D13S317
12
D16S539
11
D18S51
14,15
D19S433
13
D1S1656
11,15
D21S11
32.2
D22S1045
11,17
D2S1338
17,21
D2S441
11
D3S1358
18
D5S818
12,13
D7S820
8,11
D8S1179
12,13
FGA
19,25
Penta D
10,11
Penta E
12,14
TH01
8,9.3
TPOX
8
vWA
15
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).

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).

Characterization of human cancer cell lines by reverse-phase protein arrays.

Liang H.

Cancer Cell 31:225-239(2017).

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).

A catalog of HLA type, HLA expression, and neo-epitope candidates in human cancer cell lines.

Boegel S., Lower M., Bukur T., Sahin U., Castle J.C.

OncoImmunology 3:e954893.1-e954893.12(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).

Modeling precision treatment of breast cancer.";

Collisson E.A., van 't Veer L.J., Spellman P.T., Gray J.W.

Genome Biol. 14:R110.1-R110.14(2013).

Characterization of cell lines derived from breast cancers and normal mammary tissues for the study of the intrinsic molecular subtypes.

Harrell J.C., Roman E., Adamo B., Troester M.A., Perou C.M.

Breast Cancer Res. Treat. 142:237-255(2013).

Glutamine sensitivity analysis identifies the xCT antiporter as a common triple-negative breast tumor therapeutic target.

McCormick F., Gray J.W.

Cancer Cell 24:450-465(2013).

miRNA expression profiling of 51 human breast cancer cell lines reveals subtype and driver mutation-specific miRNAs.

Martens J.W.M.

Breast Cancer Res. 15:R33.1-R33.17(2013).

Essential gene profiles in breast, pancreatic, and ovarian cancer cells.

Rottapel R., Neel B.G., Moffat J.

Cancer Discov. 2:172-189(2012).

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).

Distinct gene mutation profiles among luminal-type and basal-type breast cancer cell lines.

den Bakker M.A., Foekens J.A., Martens J.W.M., Schutte M.

Breast Cancer Res. Treat. 121:53-64(2010).

The morphologies of breast cancer cell lines in three-dimensional assays correlate with their profiles of gene expression.

Petersen O.W., Gray J.W., Bissell M.J.

Mol. Oncol. 1:84-96(2007).

A collection of breast cancer cell lines for the study of functionally distinct cancer subtypes.

Johnson M.D., Lippman M.E., Ethier S.P., Gazdar A.F., Gray J.W.

Cancer Cell 10:515-527(2006).

Thirteen new p53 gene mutants identified among 41 human breast cancer cell lines.

Wasielewski M., Elstrodt F., Klijn J.G.M., Berns E.M.J.J., Schutte M.

Breast Cancer Res. Treat. 99:97-101(2006).

BRCA1 mutation analysis of 41 human breast cancer cell lines reveals three new deleterious mutants.

van den Ouweland A.M.W., Merajver S.D., Ethier S.P., Schutte M.

Cancer Res. 66:41-45(2006).

A recurrent chromosome translocation breakpoint in breast and pancreatic cancer cell lines targets the neuregulin/NRG1 gene.

Edwards P.A.W., Chaffanet M.

Genes Chromosomes Cancer 37:333-345(2003).

Identification of microsatellite instability and mismatch repair gene mutations in breast cancer cell lines.

Santibanez-Koref M.F., Schlag P.M., Scherneck S.

Genes Chromosomes Cancer 37:29-35(2003).

Reciprocal translocations in breast tumor cell lines: cloning of a t(3;20) that targets the FHIT gene.

Birnbaum D., Chaffanet M.

Genes Chromosomes Cancer 35:204-218(2002).

Aberrations of chromosome 8 in 16 breast cancer cell lines by comparative genomic hybridization, fluorescence in situ hybridization, and spectral karyotyping.

Isola J.J.

Cancer Genet. Cytogenet. 126:1-7(2001).

Chromosomal alterations in 15 breast cancer cell lines by comparative genomic hybridization and spectral karyotyping.

Isola J.J., Larsson C.

Genes Chromosomes Cancer 28:308-317(2000).

Presence of glycogen and growth-related variations in 58 cultured human tumor cell lines of various tissue origins.

Rousset M., Zweibaum A., Fogh J.

Cancer Res. 41:1165-1170(1981).

HLA-A, B, C and DR alloantigen expression on forty-six cultured human tumor cell lines.

Pollack M.S., Heagney S.D., Livingston P.O., Fogh J.

J. Natl. Cancer Inst. 66:1003-1012(1981).

Distinction of seventy-one cultured human tumor cell lines by polymorphic enzyme analysis.

Wright W.C., Daniels W.P., Fogh J.

J. Natl. Cancer Inst. 66:239-247(1981).

Cell surface antigens of human ovarian and endometrial carcinoma defined by mouse monoclonal antibodies.

Mattes M.J., Cordon-Cardo C., Lewis J.L. Jr., Old L.J., Lloyd K.O.

Proc. Natl. Acad. Sci. U.S.A. 81:568-572(1984).

Human tumor lines for cancer research.";

Fogh J.

Cancer Invest. 4:157-184(1986).

Analysis of established human carcinoma cell lines for lymphoreticular-associated membrane receptors.

Kerbel R.S., Pross H.F., Leibovitz A.

Int. J. Cancer 20:673-679(1977).

Absence of HeLa cell contamination in 169 cell lines derived from human tumors.

Fogh J., Wright W.C., Loveless J.D.

J. Natl. Cancer Inst. 58:209-214(1977).

Cell lines from human breast.";

Leibovitz A.

(In book chapter) Atlas of human tumor cell lines; Hay R.J., Park J.-G., Gazdar A.F. (eds.); pp.161-184; Academic Press; New York; USA (1994).