Scientists have identified a protein, sulfatase-2, that plays a critical role in the damage rheumatoid arthritis causes.

Rheumatoid arthritis, a chronic disease in which the immune system attacks the body’s own joint tissues, affects an estimated 1.5 million Americans.

“Tumor necrosis factor alpha—or TNF alpha for short—is one of the main inflammatory proteins that drive rheumatoid arthritis and is targeted by many currently available therapies,” says senior author Salah Uddin Ahmed, a professor in Washington State University’s College of Pharmacy and Pharmaceutical Sciences.

“However, over time patients can develop a resistance to these drugs, meaning they no longer work for them. That is why we were looking for previously undiscovered drug targets in TNF alpha signaling, so basically proteins that it interacts with that may play a role.”

The research team first explored this idea using cells called synovial fibroblasts, which line the joints and keep them lubricated to ensure fluid movement.

“In rheumatoid arthritis, these normally quiescent cells get activated by TNF alpha and other inflammatory molecules, and they take on this aggressive character,” says first author Ruby J. Siegel, a PhD graduate in the College of Pharmacy and Pharmaceutical Sciences.

Using the joint-lining cells of rheumatoid arthritis patients, they removed sulfatase-2 from one group of cells before stimulating all cells with the inflammatory TNF alpha. They found that cells lacking sulfatase-2 did not show the same exaggerated inflammatory response to TNF alpha as cells that were left intact.

“Looking at sulfatases for their potential role in inflammation was an educated guess, but once we did we saw a very consistent pattern of increased sulfatase-2 expression throughout different tissues and samples we studied,” Ahmed says. “This tells us that TNF alpha relies on sulfatase-2 to drive inflammation, because as soon as we removed sulfatase-2 the inflammatory effects of TNF alpha were markedly reduced.”

Resulting from a series of experiments spanning four years, the researchers’ findings open the door to future animal studies to test the effectiveness of inhibiting sulfatase-2 to ease rheumatoid arthritis symptoms.

“These drugs shut off TNF alpha in your whole body, but it does have important immune functions,” Siegel says. Patients who take these types of drugs are more susceptible to infection and have an increased risk of developing cancer with long-term use. She also notes that TNF alpha inhibitors are not effective in all people and are not recommended for patients with certain other health conditions.

The National Institutes of Health and the Rheumatology Research Foundation funded the work.