naturalnews.com printable article

Originally published August 30 2005

Penn study finds a new role for RNA in human immune response (press release)

by Mike Adams, the Health Ranger, NaturalNews Editor

The research was a collaborative work led by Drew Weissman, MD, PhD, of the Division of Infectious Diseases and Katalin Karikó, PhD, of the Department of Neurosurgery. The investigators published their findings in the August issue of Immunity. "We think this study will open a new area of research in understanding how our immune systems protect us," says Weissman.

"One application of our findings is that scientists will be able to design better therapeutic RNAs, including anti-sense or small-interfering RNAs, for treating diseases such as cancer and single-gene genetic diseases," says Karikó.

RNA is the genetic material that programs cells to make proteins from DNA's blueprint and specifies which proteins should be made. There are many types of RNA in the cells of mammals, such as transfer RNA, ribosomal RNA, messenger RNA, and all of them have specific types of chemical tags, or modifications. In contrast, RNAs from bacteria have fewer or no modifications.

Another type of RNA in mammalian cells is found in mitochondria, the powerhouses of cells. Mitochondrial RNA is thought to have originated from bacteria millions of years ago. Similar to RNA from bacteria, mitochondrial RNA has fewer chemical tags. It is the absence of modifications that causes RNA from bacteria and mitochondria to activate the immune response. The researchers suggest that these modifications have evolved in animals as one of the ways for the innate immune system to discriminate self from non-self.

When a tissue is damaged by injury, infection, or inflammation, cells release their mitochondrial RNA. This RNA acts as a signal to the immune system to recognize the damage and help defend and repair the tissue.

Conversely, the presence of the modifications on the other types of RNA does not activate an immune response and thus allows the innate immune system to discriminate self from non-self. "We showed that special proteins on the surface of immune cells, called Toll-like receptors, are instrumental in recognizing bacterial and mitochondrial RNA," explains Weissman. The amount of modification on the RNA is important because as little as one or two tags per RNA molecule could prevent or suppress the immune reaction.

The authors concluded that the potential of RNA to activate immunity seems to be inversely correlated with the extent of its chemical modification and may explain why some viral RNA that is overly modified evades immune surveillance. The authors plan to investigate whether longer RNAs with specific tags will be useful for delivering therapeutic molecules to diseased cells.


Penn study finds a new role for RNA in human immune response (press release)

All content posted on this site is commentary or opinion and is protected under Free Speech. Truth Publishing LLC takes sole responsibility for all content. Truth Publishing sells no hard products and earns no money from the recommendation of products. NaturalNews.com is presented for educational and commentary purposes only and should not be construed as professional advice from any licensed practitioner. Truth Publishing assumes no responsibility for the use or misuse of this material. For the full terms of usage of this material, visit www.NaturalNews.com/terms.shtml