Casper the Ghost Molecule Stops Rheumatoid Arthritis

Author: Northwestern University
Published: 2010/01/28 - Updated: 2018/03/16
Category Topic: Rheumatoid Arthritis (RA) - Academic Publications

Page Content: Synopsis - Introduction - Main

Synopsis: Suicide molecule that floats undetected into over-active immune cells responsible for rheumatoid arthritis.

Introduction

New suicide molecule halts rheumatoid arthritis - Researcher invents nontoxic drug that forces hyperactive immune cells to die.

Main Content

A researcher from Northwestern University Feinberg School of Medicine has invented a novel way to halt and even reverse rheumatoid arthritis. He developed an imitation of a suicide molecule that floats undetected into over-active immune cells responsible for the disease.

Whimsically referred to as Casper the Ghost, the stealthy molecule causes the immune cells to self-destruct.

The approach, tested on mice, doesn't carry the health risks of current treatments.

"This new therapy stopped the disease cold in 75 percent of the mice," reported Harris Perlman, the lead author and an associate professor of medicine at Feinberg. "The best part was we didn't see any toxicity. This has a lot of potential for creating an entirely new treatment for rheumatoid arthritis."

The study will be published in the February issue of Arthritis & Rheumatism.

Healthy immune cells are supposed to die after they attack an invading virus or bacteria. But in rheumatoid arthritis, the immune cells called macrophages live and go rogue. They proliferate in the blood, build up in the joints and invade cartilage and bone. Currently, there is no effective, nontoxic way to stop them.

Perlman discovered that immune cells in rheumatoid arthritis are low in a critical molecule called Bim, whose job is to order the cells to self-destruct. To correct that shortage, Perlman developed an imitation of the molecule, called BH3 mimetic. When Harris injected his drug into mice with rheumatoid arthritis, it floated ghostlike into their macrophages and bam!, the misbehaving immune cells self destructed.

In his research, Harris showed the molecule could prevent the development of rheumatoid arthritis as well as trigger a remission of existing disease. After the drug was injected in animals with the disease, joint swelling was reduced and bone destruction decreased.

Current treatments for rheumatoid arthritis include low-level chemotherapy and steroids.

These are not always effective, however, and they are frequently accompanied by side effects. A newer class of therapy, which is sometimes used in combination with chemotherapy and steroids, is biologic response modifiers. These are antibodies or other proteins that reduce the inflammation produced by the hyperactive immune cells. These biologics don't work for everyone, though, and can be associated with side effects including the risk of infection.

Perlman said the next step is to develop nanotechnology for a more precise method of delivering the drug. His research was supported by the National Institute of Arthritis, Musculoskeletal and Skin Diseases and the National Institute of Allergy and Infectious Disease.

Attribution/Source(s): This quality-reviewed publication was selected for publishing by the editors of Disabled World (DW) due to its relevance to the disability community. Originally authored by Northwestern University and published on 2010/01/28, this content may have been edited for style, clarity, or brevity.