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New mechanism activates the immune system against tumor cells

June 17, 2016
University of Veterinary Medicine -- Vienna
It is currently one challenge in cancer research to activate the body's natural defenses to eliminate tumor cells. A research team has now discovered with her team a surprising new function for the signalling molecule STAT1 in immune cells. This previously unknown feature could pave the way to a new therapeutic approach to immunological cancer therapy.

The new function of STAT1 can be a decisive factor for immune therapy of cancer says Veronika Sexl.
Credit: Michael Bernkopf/Vetmeduni Vienna

The body's defenses detect and eliminate not only pathogens but also tumor cells. Natural killer cells (NK-Cells) are specifically activated by chemical messengers, the Cytokines, to seek and destroy tumor cells. Veronika Sexl and her team from the Institute of Pharmacology and Toxicology at the Vetmeduni Vienna study the fundamentals of tumor surveillance by the immune system in animal models.

Cytokines trigger a signal cascade in NK cells recruiting them to tumor defense. An important player in this signalling process is the transcription factor STAT1. This molecule enters the cell nucleus to turn on genes required for the activation of NK cells. Until now it was assumed that NK cells are triggered by STAT1 mediated gene activation. However, Sexl and her team have now discovered that not gene transcription, but a previously unknown mechanism of STAT1 activates NK cells.

Genetics revealed unknown function of STAT1

The importance of the signalling molecule STAT1 for NK cells is revealed when it is absent. Without STAT1 tumor cells are inefficiently eliminated. The researchers wondered however, whether STAT1's nuclear activity as transcriptional activator is essential for its function. "The activation of other genes is to date the only known and accepted function of STAT1. In order to show the actual role in the activation of NK cells we genetically removed this function, "said lead author Eva Putz.

To do so Sexl teamed up with researchers from the US and the University of Vienna, and generated mice with a modified STAT1. This altered STAT1 molecule is incapable of turning on genes by virtue of a single change in the protein sequence. Despite this modification, the NK cells were still surprisingly effective in eliminating tumor cells. "The activation of NK cells therefore depends on a previously unidentified STAT1 function, since the molecule without the known activity continues to function," explains Sexl.

The Immunological synapse harbours STAT1 for activation of NK cells

Using various experiments, Sexl and her co-workers could prove that STAT1 is capable of not only activating genes but also working directly with key players in the signalling process outside the nucleus. "A transcription factor performs its job in the cell nucleus, where the DNA is. But we observed STAT1 in activated NK cells not in the nucleus, but in regions close to the cell membrane, where NK cells and tumor cells meet" says Putz. Apparently, STAT1 does not need to enter the nucleus in order to activate NK cells. Instead, STAT1 appears to be directly involved in the signalling of the NK cells, which upon activation eliminate the tumor cells. This represents a new function of STAT1, entirely independent of gene transcription.

"It will be an exciting challenge to explore this previously unknown function of STAT1 in tumor surveillance. Improving the mobilisation of NK cells in cancer patients is an intense area of research to make anti-tumor therapy more effective," concludes Sexl.

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Materials provided by University of Veterinary Medicine -- Vienna. Note: Content may be edited for style and length.

Journal Reference:

  1. Eva Maria Putz, Andrea Majoros, Dagmar Gotthardt, Michaela Prchal-Murphy, Eva Maria Zebedin-Brandl, Daniela Alexandra Fux, Andreas Schlattl, Robert D. Schreiber, Sebastian Carotta, Mathias Müller, Christopher Gerner, Thomas Decker, Veronika Sexl. Novel non-canonical role of STAT1 in Natural Killer cell cytotoxicity. OncoImmunology, 2016; 00 DOI: 10.1080/2162402X.2016.1186314

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University of Veterinary Medicine -- Vienna. "New mechanism activates the immune system against tumor cells." ScienceDaily. ScienceDaily, 17 June 2016. <>.
University of Veterinary Medicine -- Vienna. (2016, June 17). New mechanism activates the immune system against tumor cells. ScienceDaily. Retrieved May 8, 2017 from
University of Veterinary Medicine -- Vienna. "New mechanism activates the immune system against tumor cells." ScienceDaily. (accessed May 8, 2017).