Thursday, November 29, 2012

Study points to potential new therapies for cancer and other diseases

ScienceDaily (Nov. 27, 2012) ? Researchers at The Scripps Research Institute (TRSI) are fueling the future of cancer treatment by improving a powerful tool in disease defense: the body's immune system. By revealing a novel but widespread cell signaling process, the scientists may have found a way to manipulate an important component of the immune system into more effectively fighting disease.

The study, recently published online ahead of print by the journal Blood, shows that disabling a particular enzyme, called ItpkB, in mice improves the function of a type of immune cell called Natural Killer cells.

"This is an exciting finding because it could possibly lead to the development of drugs that improve Natural Killer cell function," said TSRI Associate Professor Karsten Sauer, PhD, who led the study. "Natural Killer cells have gained clinical interest as innovative biological therapeutics for certain cancers and also in certain infectious diseases."

The Body's 'SWAT Team'

Natural Killer cells patrol the body and detect characteristic alterations on the surface of cancer cells or virus-infected cells. Through a complicated and little understood signaling machinery -- a domino effect of molecular reactions in a cell that ultimately produces a certain signal -- Natural Killer cells then destroy such "stressed" cells.

Compared to other types of immune cells, Natural Killer cells kill these cells quickly. This makes Natural Killer cells important early responders of the immune system. Not surprisingly, researchers have explored engaging this "SWAT team" of the body therapeutically, particularly in blood cancers.

However, to date, the therapeutic efficacy of Natural Killer cells has been limited. "A key bottleneck is our limited understanding of signaling mechanisms that dampen Natural Killer cell function," Sauer said.

Sauer and colleagues' new research reveals crucial details of this puzzle.

A Way to Prime the Attack

The Sauer group had previously identified ItpkB as a key regulator of immune function. ItpkB acts primarily by producing IP4, a small molecule messenger that controls the functions of various other important signaling molecules. IP4 can improve or inhibit signaling depending on the cell type in which it is produced.

The new research showed that Natural Killer cells from mice lacking ItpkB show elevated signaling and function better than Natural Killer cells that have the enzyme. As a result, mice lacking ItpkB are more effective than mice expressing ItpkB in attacking cells that display characteristic surface changes of cancer cells.

"The enzyme ItpkB has unique features that facilitate its highly specific inhibition by small molecules," said Sauer. "Our findings suggest that such compounds could possibly be used to improve Natural Killer cell function therapeutically. If successful, this could overcome a bottleneck and engage the body's SWAT team to fight cancer."

In addition to Sauer, Eugene Park of Washington University School of Medicine was a co-first author of the study, "Inositol Tetrakisphosphate Limits NK Cell Effector Functions by Controlling Phosphoinositide 3-Kinase Signaling." Other authors include Sabine Siegemund, Luise Sternberg and Stephanie Rigaud of TSRI and Anthony R. French, Joseph A. Wahle, A. Helena Jonsson, Wayne M. Yokoyama and co-corresponding author Yina H. Huang of Washington University School of Medicine.

The research was supported by grants from the National Institutes of Health (AI070845, GM088647, AI089805 and AI007606), The Leukemia and Lymphoma Society Scholar Award 1440-11 and Deutsche Forschungsgemeinschaft fellowship SI 1547/1-1.

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The above story is reprinted from materials provided by Scripps Research Institute.

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Journal Reference:

  1. K. Sauer, E. Park, S. Siegemund, A. R. French, J. A. Wahle, L. Sternberg, S. Rigaud, A. H. Jonsson, W. M. Yokoyama, Y. H. Huang. Inositol tetrakisphosphate limits NK cell effector functions by controlling phosphoinositide 3-kinase signaling. Blood, 2012; DOI: 10.1182/blood-2012-05-429241

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Disclaimer: This article is not intended to provide medical advice, diagnosis or treatment. Views expressed here do not necessarily reflect those of ScienceDaily or its staff.

Source: http://feeds.sciencedaily.com/~r/sciencedaily/~3/F3PdY5mo6cc/121127191248.htm

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