Scientists Find a Cause of Lupus and a Way to Potentially Reverse It

Researchers believe targeting a chemical imbalance could more effectively treat lupus without systemic immunosuppression interventions.
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Patients with lupus have an imbalance in a crucial chemical pathway in their bodies, according to a Nature study published on July 10.

Researchers found that this imbalance produces more disease-causing cells that promote lupus. They said that if this chemical imbalance can be corrected, lupus might be reversed.

Current lupus treatments often target symptoms or broadly suppress the immune system, leading to side effects. The researchers said that targeting the specific chemical imbalance identified could more effectively treat lupus without systemic immunosuppression interventions.

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Lupus is a chronic autoimmune disease that causes the body to attack its own tissues and organs, including the joints, skin, kidneys, blood cells, brain, heart, and lungs.

There is currently no cure for lupus.

A Surprising ‘Molecular Switch’

The chemical that researchers identified is the aryl hydrocarbon receptor (AHR).

AHR is a key protein involved in the imbalance of immune cells in lupus patients. It regulates the body’s response to environmental pollutants, bacteria, and metabolites. AHR is present in all cells, but it is not always active.

Researchers found that lupus patients have reduced AHR activity. This reduction leads to an increase in follicular and peripheral T helper cells, which are involved in inflammation and autoimmunity.

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However, when AHR activity increases, these T-cells are reprogrammed to be T-cells that promote wound healing and barrier protection.

Dr. Jaehyuk Choi, associate professor of dermatology at Northwestern University Feinberg School of Medicine, and the study’s senior author, told The Epoch Times that AHR is like “a molecular switch” that determines the fate of immune cells.

Researchers said that by developing therapeutics that target AHR in rogue T-cells, they may be able to reverse lupus.

Dr. Choi and Dr. Deepak Rao, an assistant professor of medicine at Harvard Medical School, expressed their surprise at discovering that AHR could be vital in reversing autoimmunity, given that the receptor had no known connection to it.

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Dr. Rao, who is also a senior author of the study, added that it was initially surprising to find that a T-cell involved in wound healing would be the opposite of an autoimmune T-cell.

“Those two T-cell populations with those two functions are not obviously connected or related,” he said, adding that he could not have predicted that when the number of wound-healing T-cells increased, the number of autoimmune T-cells would decrease, and vice versa.

T-Cells Drive Autoimmunity

Follicular and peripheral T helper cells have long been known to play a major role in driving lupus, Dr. Rao told The Epoch Times.

In lupus, the patient’s body produces autoantibodies—antibodies that attack the body’s own tissues. B-cells generate these autoantibodies under the control of rogue autoimmune T-cells.

Therefore, by converting these autoimmune T-cells into cells involved in wound healing, the production of autoantibodies is reduced, thereby decreasing autoimmunity.

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“It is almost like a cell streamline, where if you can block one part, then the downstream is blocked,” Dr. Choi said.

He highlighted the study’s findings demonstrating that adding AHR to rogue T-cells in cell culture transforms them into wound-healing cells. These reprogrammed cells can no longer help B-cells make autoantibodies.

Dr. Rao added that these rogue T-cells are also present in other autoimmune conditions, such as rheumatoid arthritis, raising the question of whether drug targets for these cells may apply to such conditions.

Treatment Without Immunosuppression

The study sampled 19 lupus patients and compared their immune cells with those of 19 healthy people.

Despite the small initial sample size, the authors told The Epoch Times that they believe their findings apply to all patients because they have been corroborated through genetic studies.

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Dr. Choi explained that their findings were also validated in AstraZeneca’s TULIP clinical trials. These trials tested anifrolumab, a drug that interacts with the AHR pathway, and found that it successfully controlled lupus symptoms.

Current lupus treatments are prescribed to resolve symptoms or elicit broad immunosuppressive effects by reducing B- and T-cell activity.

However, when rogue T-cells are targeted explicitly with AHR, patients may experience disease reversal without compromising their overall immunity.

Additionally, the increase in cells involved in wound and barrier repair may help alleviate gastrointestinal problems in patients with lupus.

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“There have been a number of studies that have suggested abnormalities in barrier function or barrier integrity in patients with lupus, especially in the gut,” Dr. Rao said. “So one can imagine that there could be a beneficial effect of that.”

Currently, Drs. Choi and Rao’s team are working to identify specific therapeutics that selectively target only rogue T-cells.

Since AHR is present in all cells, broad administration of AHR-targeted treatments could cause systemic adverse effects, which the authors are trying to avoid.

Currently, there are already drugs on the market that activate AHR, such as toparinof, a topical cream approved for treating psoriasis.

Major Environmental Contributors to Lupus?

Researchers do not know why AHR is involved in lupus progression. It is also currently unknown why some people get lupus and others don’t, although researchers believe it is a combination of genetic and environmental exposures to toxins and infections.
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Given AHR’s role in responding to environmental factors, Dr. Choi said their findings may suggest that major environmental factors contribute to lupus.

Perhaps AHR, “which normally integrates information from the outside or the environment ... has gone awry in patients with lupus,” and patients may be able to resolve their lupus through lifestyle changes alone, he said.

“I think this needs more research, but it is an interesting idea that we can now think about,” Dr. Choi said.

Marina Zhang
Marina Zhang
Author
Marina Zhang is a health writer for The Epoch Times, based in New York. She mainly covers stories on COVID-19 and the healthcare system and has a bachelors in biomedicine from The University of Melbourne. Contact her at marina.zhang@epochtimes.com.