Presence of membrane-bound TGF-beta1 and its regulation by IL-2-activated immune cell-derived IFN-gamma in head and neck squamous cell carcinoma cell lines.

Ahn YO; Lee JC; Sung MW; Heo DS

doi:10.4049/jimmunol.0803725

Presence of membrane-bound TGF-beta1 and its regulation by IL-2-activated immune cell-derived IFN-gamma in head and neck squamous cell carcinoma cell lines.

Ahn YO ¹,

Lee JC ,

Sung MW ,

Heo DS

Affiliations

1. Cancer Research Institute, Innovative Research Institute for Cell Therapy, Seoul National University College of Medicine and Hospital, Seoul, Korea.
Authors
Ahn YO¹
(1 author)

ORCIDs linked to this article

Ahn YO | 0000-0001-9904-9581

Journal of Immunology (Baltimore, Md. : 1950), 01 May 2009, 182(10):6114-6120
https://doi.org/10.4049/jimmunol.0803725 PMID: 19414763

Abstract

The presence of membrane-bound TGF-beta1 (mTGF-beta1) has been recently observed in regulatory T cells, but only a few studies have reported the same phenomenon in cancer cells. In this study, we investigate the regulation of mTGF-beta1 expression in five head and neck squamous cell carcinoma cell lines using FACS analysis. Through blocking Ab and exogenous cytokine treatment experiments, we found that expression of mTGF-beta1 is significantly induced by the activated immune cell-derived factor IFN-gamma. In addition, IFN-gamma and TNF-alpha are shown to have a synergistic effect on mTGF-beta1 expression. Moreover, we found that exogenous TNF-alpha induces endogenous TNF-alpha mRNA expression in an autocrine loop. In contrast to previous reports, we confirm that, in this model, mTGF-beta1 is neither a rebound form of once-secreted TGF-beta1 nor an activated form of its precursor membrane latency-associated peptide. Inhibitors of transcription (actinomycin D), translation (cycloheximide), or membrane translocation (brefeldin A) effectively block the induction of mTGF-beta1, which suggests that induction of mTGF-beta1 by IFN-gamma and/or TNF-alpha occurs through de novo synthesis. These findings suggest that some cancer cells can detect immune activating cytokines, such as IFN-gamma and TNF-alpha, and actively block antitumor immunity by induction of mTGF-beta1.

Full text links

Read article at publisher's site: https://doi.org/10.4049/jimmunol.0803725

Read article for free, from open access legal sources, via Unpaywall: https://journals.aai.org/jimmunol/article-pdf/182/10/6114/1268633/zim01009006114.pdf

Free to read at www.jimmunol.org
http://www.jimmunol.org/cgi/content/abstract/182/10/6114

Free after 12 months at www.jimmunol.org
http://www.jimmunol.org/cgi/content/full/182/10/6114

References

Articles referenced by this article (48)

Cutting Edge: Immature human dendritic cells express latency-associated peptide and inhibit T cell activation in a TGF-beta-dependent manner.
Gandhi R, Anderson DE, Weiner HL
J Immunol, (7):4017-4021 2007
MED: 17371954
Identification of a new subset of myeloid suppressor cells in peripheral blood of melanoma patients with modulation by a granulocyte-macrophage colony-stimulation factor-based antitumor vaccine.
Filipazzi P, Valenti R, Huber V, Pilla L, Canese P, Iero M, Castelli C, Mariani L, Parmiani G, Rivoltini L
J Clin Oncol, (18):2546-2553 2007
MED: 17577033
Transforming growth factor beta1 is associated with angiogenesis, metastasis, and poor clinical outcome in prostate cancer.
Wikstrom P, Stattin P, Franck-Lissbrant I, Damber JE, Bergh A
Prostate, (1):19-29 1998
MED: 9721065
Transforming growth factor-beta1 level correlates with angiogenesis, tumor progression, and prognosis in patients with nonsmall cell lung carcinoma.
Hasegawa Y, Takanashi S, Kanehira Y, Tsushima T, Imai T, Okumura K
Cancer, (5):964-971 2001
MED: 11251948
Elevated TGF-beta1 secretion and down-modulation of NKG2D underlies impaired NK cytotoxicity in cancer patients.
Lee JC, Lee KM, Kim DW, Heo DS
J Immunol, (12):7335-7340 2004
MED: 15187109
Transforming growth factor beta 1 inhibits expression of NKp30 and NKG2D receptors: consequences for the NK-mediated killing of dendritic cells.
Castriconi R, Cantoni C, Della Chiesa M, Vitale M, Marcenaro E, Conte R, Biassoni R, Bottino C, Moretta L, Moretta A
Proc Natl Acad Sci U S A, (7):4120-4125 2003
MED: 12646700
TGF-beta directly targets cytotoxic T cell functions during tumor evasion of immune surveillance.
Thomas DA, Massague J
Cancer Cell, (5):369-380 2005
MED: 16286245
Transforming growth factor-beta and the immune response: implications for anticancer therapy.
Wrzesinski SH, Wan YY, Flavell RA
Clin Cancer Res, (18 Pt 1):5262-5270 2007
MED: 17875754
Transforming growth factor-beta in cancer and metastasis.
Jakowlew SB
Cancer Metastasis Rev, (3):435-457 2006
MED: 16951986
Mechanisms of disease: epithelial-mesenchymal transition--does cellular plasticity fuel neoplastic progression?
Turley EA, Veiseh M, Radisky DC, Bissell MJ
Nat Clin Pract Oncol, (5):280-290 2008
MED: 18349857

Show 10 more references (10 of 48)

Citations & impact

Impact metrics

Citations

Jump to Citations

Data citations

Jump to Data

Citations of article over time

Alternative metrics

Altmetric item for https://www.altmetric.com/details/105536048

Altmetric
Discover the attention surrounding your research
https://www.altmetric.com/details/105536048

Article citations

Gingival Fibroblasts Are Sensitive to Oral Cell Lysates Indicated by Their IL11 Expression.
Panahipour L, Abbasabadi AO, Gruber R
Bioengineering (Basel), 10(10):1193, 13 Oct 2023
Cited by: 1 article | PMID: 37892923 | PMCID: PMC10604186
This article is in the Europe PMC Open access subset. Refer to the copyright information in the article for licensing details.
Free full text in Europe PMC
Association Study of Transforming Growth Factor Beta 1 + 29 T/C exon 1 Polymorphism in Breast Cancer Patients from North Indian Population.
Pal R, Dutta S
Appl Biochem Biotechnol, 195(6):3671-3680, 23 Mar 2023
Cited by: 0 articles | PMID: 36951937
Absence of complement factor H reduces physical performance in C57BL6 mice.
Seldeen KL, Thiyagarajan R, Redae Y, Jacob A, Troen BR, Quigg RJ, Alexander JJ
Immunobiology, 225(5):152003, 28 Aug 2020
Cited by: 2 articles | PMID: 32962822 | PMCID: PMC9844077
Free full text in Europe PMC
Diagnostic value of hepatic artery perfusion fraction combined with TGF-β in patients with hepatocellular carcinoma.
Liu Q, Gao Y, Wang Y, Du J, Yin Q, Shi K
Oncol Lett, 17(6):5635-5641, 08 Apr 2019
Cited by: 0 articles | PMID: 31186786 | PMCID: PMC6507442
This article is in the Europe PMC Open access subset. Refer to the copyright information in the article for licensing details.
Free full text in Europe PMC
Surface Expression of TGFβ Docking Receptor GARP Promotes Oncogenesis and Immune Tolerance in Breast Cancer.
Metelli A, Wu BX, Fugle CW, Rachidi S, Sun S, Zhang Y, Wu J, Tomlinson S, Howe PH, Yang Y, Garrett-Mayer E, Liu B, Li Z
Cancer Res, 76(24):7106-7117, 20 Oct 2016
Cited by: 65 articles | PMID: 27913437 | PMCID: PMC5504525
Free full text in Europe PMC

Go to all (13) article citations

Data

Data that cites the article

This data has been provided by curated databases and other sources that have cited the article.

Proteins in UniProt (Showing 5 of 16)

TGF-beta propeptide domain-containing protein(UniProt - A0A078BC11)
TGF-beta propeptide domain-containing protein(UniProt - Q49IK8)
TGF-beta propeptide domain-containing protein(UniProt - A0A078BCH8)
TGF-beta propeptide domain-containing protein(UniProt - A0A078BCJ0)
Transforming growth factor beta(UniProt - A0A499FJK2)

Go to all (16) records in UniProt

Search life-sciences literature (45,104,206 articles, preprints and more)