TNF: A moonlighting protein at the interface between cancer and infection

H. Hundsberger; A. Verin; C. Wiesner; M. Pflüger; A. Dulebo; W. Schütt; I. Lasters; D.N. Männel; A. Wendel; R. Lucas

doi:10.2741/3087

TNF: A moonlighting protein at the interface between cancer and infection

H. Hundsberger, A. Verin, C. Wiesner, M. Pflüger, A. Dulebo, W. Schütt, I. Lasters, D.N. Männel, A. Wendel, R. Lucas

Institute Biotechnology

Research output: Contribution to journal › Article › peer-review

Abstract

The remarkable ability of TNF, especially in combination with Interferon-gamma or melphalan, to inhibit the growth of malignant tumor cells is so far unmatched. Unfortunately, its high systemic toxicity and hepatotoxicity prevent its systemic use in cancer patients. An elegant manner to circumvent this problem is the isolated limb and liver perfusion for the treatment of melanoma, soft tissue sarcoma and liver tumors, respectively, although the latter method can lead to a reversible hepatotoxicity. In order to allow also the treatment of other cancers with TNF, new strategies have to be developed that aim at sensitizing tumor cells to TNF and at reducing its systemic and liver toxicity, without losing its antitumor efficiency. Moreover, the lectin-like domain of TNF, which is spatially distinct from the receptor binding sites, could be useful in reducing cancer treatment-related pulmonary edema formation. This review will discuss some recent developments in these areas, which can lead to a renewed interest in TNF for the systemic treatment of cancer.

Original language	English
Pages (from-to)	5374-5386
Number of pages	13
Journal	Frontiers in Bioscience
Volume	13
Issue number	14
DOIs	https://doi.org/10.2741/3087
Publication status	Published - 1 May 2008

Keywords

adenosine triphosphate
antineoplastic agent
tumor necrosis factor alpha
human
infection
inflammation
leukocyte
liver
metabolism
necrosis
neoplasm
pathology
pathophysiology
physiology
review
vascular endothelium
Adenosine Triphosphate
Antineoplastic Agents
Endothelium
Vascular
Humans
Infection
Inflammation
Leukocytes
Liver
Necrosis
Neoplasms
Tumor Necrosis Factor-alpha

IMC Research Focuses

Medical biotechnology

ÖFOS 2012 - Austrian Fields of Study

304005 Medical biotechnology

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Cite this

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title = "TNF: A moonlighting protein at the interface between cancer and infection",

abstract = "The remarkable ability of TNF, especially in combination with Interferon-gamma or melphalan, to inhibit the growth of malignant tumor cells is so far unmatched. Unfortunately, its high systemic toxicity and hepatotoxicity prevent its systemic use in cancer patients. An elegant manner to circumvent this problem is the isolated limb and liver perfusion for the treatment of melanoma, soft tissue sarcoma and liver tumors, respectively, although the latter method can lead to a reversible hepatotoxicity. In order to allow also the treatment of other cancers with TNF, new strategies have to be developed that aim at sensitizing tumor cells to TNF and at reducing its systemic and liver toxicity, without losing its antitumor efficiency. Moreover, the lectin-like domain of TNF, which is spatially distinct from the receptor binding sites, could be useful in reducing cancer treatment-related pulmonary edema formation. This review will discuss some recent developments in these areas, which can lead to a renewed interest in TNF for the systemic treatment of cancer.",

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AU - Hundsberger, H.

AU - Verin, A.

AU - Wiesner, C.

AU - Pflüger, M.

AU - Dulebo, A.

AU - Schütt, W.

AU - Lasters, I.

AU - Männel, D.N.

AU - Wendel, A.

AU - Lucas, R.

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AB - The remarkable ability of TNF, especially in combination with Interferon-gamma or melphalan, to inhibit the growth of malignant tumor cells is so far unmatched. Unfortunately, its high systemic toxicity and hepatotoxicity prevent its systemic use in cancer patients. An elegant manner to circumvent this problem is the isolated limb and liver perfusion for the treatment of melanoma, soft tissue sarcoma and liver tumors, respectively, although the latter method can lead to a reversible hepatotoxicity. In order to allow also the treatment of other cancers with TNF, new strategies have to be developed that aim at sensitizing tumor cells to TNF and at reducing its systemic and liver toxicity, without losing its antitumor efficiency. Moreover, the lectin-like domain of TNF, which is spatially distinct from the receptor binding sites, could be useful in reducing cancer treatment-related pulmonary edema formation. This review will discuss some recent developments in these areas, which can lead to a renewed interest in TNF for the systemic treatment of cancer.

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TNF: A moonlighting protein at the interface between cancer and infection

Abstract

Keywords

IMC Research Focuses

ÖFOS 2012 - Austrian Fields of Study

UN SDGs

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