New Study Examines Kaempferol's Role in Taming Allergic Responses

In a recent study, researchers from Japan identified that kaempferol, a flavonoid, produces an anti-inflammatory effect through regulatory T-cell development.

Kaempferol
Kaempferol produces an anti-inflammatory effect that combats the immune response seen in food allergies by increasing Raldh2 expression in intestinal dendritic cells in a concentration-dependent manner, thus accelerating regulatory T-cell development.
Photo courtesy Chiharu Nishiyama at Tokyo University of Science, Japan

Food allergies affect millions of people worldwide, and flavonoids are promising natural compounds to help modulate the immune response and treat inflammation caused by these allergies. In a recent study, researchers from Japan identified that kaempferol, a flavonoid, produces an anti-inflammatory effect through regulatory T-cell development. This occurred through increased RADLH2 expression in dendritic cells via AhR-mediated and PU.1/IRF-4 dependent mechanisms. Additionally, kaempferol suppressed several allergic symptoms in mice with food allergies.

Allergic diseases such as asthma, atopic dermatitis and food allergies have been increasing in frequency over the last few years. Food allergies in particular affect millions of people worldwide — this includes allergies to foods such as milk, peanuts, eggs and shellfish. They are typically caused by the immune system being hypersensitive to harmless substances in foods and the environment. Flavonoids are chemicals present in various fruits and vegetables that are known to have anti-allergic effects and show promise as natural allergic treatments.

To better understand how these allergies can be treated, let’s look at an anti-allergic mechanism in our cells. In the intestines, specialized dendritic cells (DCs) produce an enzyme called RALDH2 (retinaldehyde dehydrogenase 2) which converts retinal, a chemical derived from vitamin A, to retinoic acid. This retinoic acid then promotes the development of regulatory T-cells, a type of immune cell that can suppress the immune response observed in allergies.

Are there any flavonoids that can increase RALDH2 levels in DCs?

This was the question answered by a group of researchers led by Professor Chiharu Nishiyama at the Tokyo University of Science (TUS), in a letter published online in Allergy on Dec. 11. In their study, the authors screened around 40 different flavonoids to see if they increased RALDH2 levels in DCs. The most effective of these was a compound called kaempferol, which they chose to study further. The primary contributors to this study were Miki Takahashi, a 2023 graduate from TUS, Dr. Kazuki Nagata, assistant professor at TUS, and Yumi Watanuki, a 2019 graduate from TUS. 

Kaempferol is found in a variety of foods such as kale, beans, tea, spinach and broccoli. It is one of the most heavily studied flavonoids due to its beneficial effects on the human body. The researchers observed that kaempferol treatment increased the expression and efficiency of RALDH2 in DCs. Additionally, the kaempferol-treated DCs were found to promote regulatory T-cell development, underscoring its role in controlling the immune response.

To understand the exact mechanism involved in this process, they focused on a “receptor” called aryl hydrocarbon receptor (AhR) which is targeted by kaempferol. Their experiments on DCs suggested that kaempferol acts as an “antagonist” or blocks AhR, which in turn accelerates regulatory T-cell development. The next step was to look at factors affecting the Aldh1a2 gene, which actually produces Radlh2.

“In the past, we reported that PU.1 and IRF-4 were key molecules that regulated the Aldh1a2 gene in dendritic cells,” said Nishiyama. “In this study, we found that PU.1 and IRF-4 expression and function were enhanced in dendritic cells stimulated with kaempferol.”

To see how kaempferol affected immune responses in living organisms, the researchers induced allergies in mice using the OVA (ovalbumin) protein found in egg whites. They found that administering kaempferol to these mice alleviated their allergic symptoms.

“The rapid decrease in body temperature and allergic diarrhea observed after OVA administration were significantly suppressed in mice that were administered kaempferol,” said Nishiyama.

The authors note that further studies are required, especially with human cells, to replicate these results and actually use kaempferol as an allergy medicine.

The authors suggested that the chemical structure of flavonoids may play a role in their ability to accelerate regulatory T-cell development. Regular intake of foods containing high amounts of flavonoids could serve as natural remedies to alleviate allergic symptoms.

Further emphasizing the importance of supplementing your daily diet with flavonoids, Nishiyama said, “When taken as a daily food, they are expected to reduce allergies, inflammation and autoimmune diseases that are caused or aggravated by excessive immune response.”