HuT 102Homo sapiens (Human)Cancer cell line

Also known as: NCI-H102, HUT102, Hut102, HuT102, HUT-102, Hut-102, HuT-102, Hut 102, HUT 102

🤖 AI SummaryBased on 15 publications

HUT 102

Quick Overview

Human T-cell line with HTLV-1 infection, used in leukemia and lymphoma research.

Detailed Summary

HUT 102 is a human T-cell line derived from a patient with adult T-cell leukemia (ATL) and is infected with the human T-cell leukemia virus type 1 (HTLV-1). This cell line is widely used in research related to ATL and other T-cell malignancies. It expresses the HTLV-1 tax protein and has been utilized in studies investigating the molecular mechanisms of HTLV-1-induced transformation and oncogenesis. HUT 102 is also notable for its role in the discovery of the first human retrovirus, HTLV-1, and has been instrumental in understanding the pathogenesis of HTLV-1-associated diseases. The cell line is frequently used in studies examining the effects of HTLV-1 on cellular processes, including immune responses and viral replication. Additionally, HUT 102 has been employed in investigations of the genetic and molecular alterations associated with ATL, contributing to the development of targeted therapies and diagnostic tools.

Research Applications

HTLV-1 infection studiesATL pathogenesisRetrovirus researchT-cell malignancy modelingViral oncogenesis

Key Characteristics

HTLV-1 infectedExpresses Tax proteinUsed in retrovirus discoveryRelevant to ATL research
Generated on 6/20/2025

Basic Information

Database IDCVCL_3526
SpeciesHomo sapiens (Human)
Tissue SourceLymph node[UBERON:UBERON_0000029]

Donor Information

Age28
Age CategoryAdult
SexMale
Raceblack_or_african_american

Disease Information

DiseaseClassic mycosis fungoides
LineageLymphoid
SubtypeMycosis Fungoides
OncoTree CodeMYCF

DepMap Information

Source TypeATCC
Source IDACH-000612_source

Haplotype Information (STR Profile)

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

Amelogenin
X,Y
CSF1PO
8,11
D12S391
16,19
D13S317
11,13
D16S539
12
D18S51
20
D19S433
14
D21S11
28,29
D2S1338
19,23
D3S1358
15,16
D5S818
8,13
D6S1043
11,18
D7S820
8,10
D8S1179
13,15
FGA
24
Penta D
8,10
Penta E
7,8
TH01
7,8
TPOX
6
vWA
16,19
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

TAS-116 (pimitespib), a heat shock protein 90 inhibitor, shows efficacy in preclinical models of adult T-cell leukemia.

Morishita K.

Cancer Sci. 113:684-696(2022).

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).

Profiling the B/T cell receptor repertoire of lymphocyte derived cell lines.

Yang H.H., Koeffler H.P.

BMC Cancer 18:940.1-940.13(2018).

STR profiling of HTLV-1-infected cell lines.";

Raimondi V., Minuzzo S.A., Ciminale V., D'Agostino D.M.

Methods Mol. Biol. 1582:143-154(2017).

The discovery of HTLV-1, the first pathogenic human retrovirus.";

Coffin J.M.

Proc. Natl. Acad. Sci. U.S.A. 112:15525-15529(2015).

High-throughput RNA sequencing-based virome analysis of 50 lymphoma cell lines from the Cancer Cell Line Encyclopedia project.

O'Grady T., Baddoo M., Fewell C., Renne R., Flemington E.K.

J. Virol. 89:713-729(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).

Aberrant p53 protein expression and function in a panel of hematopoietic cell lines with different p53 mutations.

Hasegawa H., Yamada Y.

Eur. J. Haematol. 82:301-307(2009).

Human T-cell lines with well-defined T-cell receptor gene rearrangements as controls for the BIOMED-2 multiplex polymerase chain reaction tubes.

Langerak A.W.

Leukemia 21:230-237(2007).

Sensitivity of adult T-cell leukaemia lymphoma cells to tumour necrosis factor-related apoptosis-inducing ligand.

Kamihira S.

Br. J. Haematol. 128:253-265(2005).

Activation of interleukin-13 expression in T cells from HTLV-1-infected individuals and in chronically infected cell lines.

Shimozato O., Taylor G.P., Bangham C.R.M., Derse D.D.

Blood 102:4130-4136(2003).

PTEN gene alterations in lymphoid neoplasms.";

Sakai A., Thieblemont C., Wellmann A., Jaffe E.S., Raffeld M.

Blood 92:3410-3415(1998).

Expression of the TCL1 gene at 14q32 in B-cell malignancies but not in adult T-cell leukemia.

Aizawa Y., Ueda R., Seto M.

Jpn. J. Cancer Res. 89:712-718(1998).

Metastatic potential of lymphoma/leukemia cell lines in SCID mice is closely related to expression of CD44.

Liu C., Kondo E., Minowada J., Akagi T.

Jpn. J. Cancer Res. 87:1070-1077(1996).

NCI-Navy Medical Oncology Branch cell line data base.";

Carney D.N., Minna J.D., Mulshine J.L.

J. Cell. Biochem. Suppl. 24:32-91(1996).

T-cell lymphoma cell lines (HUT102 and HUT78) established at the National Cancer Institute: history and importance to understanding the biology, clinical features, and therapy of cutaneous T-cell lymphomas (CTCL) and adult T-cell leukemia-lymphomas (ATLL).

Bunn P.A. Jr., Foss F.M.

J. Cell. Biochem. Suppl. 24:12-23(1996).

NCI series of cell lines: an historical perspective.";

Gazdar A.F., Minna J.D.

J. Cell. Biochem. 63 Suppl. 24:1-11(1996).

p16INK4/p15INK4B gene inactivation is a frequent event in malignant T-cell lines.

Einhorn S.

Eur. J. Haematol. 56:313-318(1996).

Homozygous loss of the MTS1/p16 and MTS2/p15 genes in lymphoma and lymphoblastic leukaemia cell lines.

Uppenkamp M.J., Nowrousian M.R., Seeber S., Opalka B.

Br. J. Haematol. 91:350-354(1995).

Interferon system defects in malignant T-cells.";

Xu B., Einhorn S.

Leukemia 8:425-434(1994).

Tumorigenicity of human T-cell leukemia virus type I-infected cell lines in severe combined immunodeficient mice and characterization of the cells proliferating in vivo.

Hattori T., Yamabe H., Okuma M., Uchiyama T.

Blood 86:2350-2357(1995).

Human cutaneous T cell lymphoma and leukemia cell lines produce and respond to T cell growth factor.

Gootenberg J.E., Ruscetti F.W., Mier J.W., Gazdar A.F., Gallo R.C.

J. Exp. Med. 154:1403-1418(1981).

Differential expression of the amv gene in human hematopoietic cells.

Aaronson S.A., Wong-Staal F.

Proc. Natl. Acad. Sci. U.S.A. 79:2194-2198(1982).

Isolation of a new type C retrovirus (HTLV) in primary uncultured cells of a patient with Sezary T-cell leukaemia.

Poiesz B.J., Ruscetti F.W., Reitz M.S. Jr., Kalyanaraman V.S., Gallo R.C.

Nature 294:268-271(1981).

Detection and isolation of type C retrovirus particles from fresh and cultured lymphocytes of a patient with cutaneous T-cell lymphoma.

Gallo R.C.

Proc. Natl. Acad. Sci. U.S.A. 77:7415-7419(1980).

Mitogen requirements for the in vitro propagation of cutaneous T-cell lymphomas.

Schechter G.P., Guccion J.G.

Blood 55:409-417(1980).

Isoenzyme studies in human leukemia-lymphoma cells lines -- II. Acid phosphatase.

Drexler H.G., Gaedicke G., Minowada J.

Leuk. Res. 9:537-548(1985).

Isoenzyme studies in human leukemia-lymphoma cell lines -- III. Beta-hexosaminidase (E.C. 3.2.1.30).

Drexler H.G., Gaedicke G., Minowada J.

Leuk. Res. 9:549-559(1985).

p27x-III and p21x-III, proteins encoded by the pX sequence of human T-cell leukemia virus type I.

Yoshida M.

Proc. Natl. Acad. Sci. U.S.A. 82:8359-8363(1985).

Isoenzyme studies in human leukemia-lymphoma cell lines -- 1. carboxylic esterase.

Drexler H.G., Gaedicke G., Minowada J.

Leuk. Res. 9:209-229(1985).

The leukemia-lymphoma cell line factsbook.";

Drexler H.G.

(In book) ISBN 9780122219702; pp.1-733; Academic Press; London; United Kingdom (2001).

Web Resources

Anecdotal Information

  • This is the cell line that was used by Gallo's lab to isolate HTLV-1 (PubMed=26696625)