Ever wonder why your hay fever symptoms flare up more on long car rides? A new German study may hold the answer – researchers say they’ve discovered a link between the potency of allergens in ragweed pollen and the plant’s exposure to toxic fumes found in car exhaust.
The phenomenon of “highway ragweed”, as it might be called, was studied by Prof. Feng Zhao and a team at the German Research Center for Environmental Health in Neuherberg, north of Munich, and two other centers. The researchers exposed common ragweed (Ambrosia artemisiifolia) to various levels of nitrogen dioxide (NO2), which is one of the toxic byproducts generated when fossil fuels are burned. They did so throughout the entire growing season, under controlled conditions, and then the ragweed pollen was further analyzed.
“Our data showed that the stress on the plant caused by NO2 modulated the protein composition of the pollen,” Zhao said in a media release. He added that known allergenic proteins “were significantly elevated” in number in the plants exposed to NO2. The study went on to set out that these known allergens also had “a significantly increased binding capacity to specific IgE (allergy) antibodies” after NO2 exposure.
The researchers suspect that means allergic reactions are more easily triggered by ragweed pollen exposed to NO2, with more severe symptoms resulting from it, too.
As well, the team discovered a previously unknown allergen in common ragweed, which presented itself only when levels of nitrogen dioxide were elevated. Its effects on humans who inhale ragweed pollen will need to be studied.
“After studies have already shown that Ambrosia growing along highways is clearly more allergenic than Ambrosia plants growing away from road traffic, we can now provide a reason for this,” said study leader Dr. Ulrike Frank. “Since in nature and along roads hundreds of parameters could play a role, until now the situation was not entirely clear.”
Researchers also came to broader conclusions about ragweed pollen, conclusions supported by work already done in the U.S. earlier this decade on climate change and pollen.
Summarizing, Frank offered a more wide-ranging hypothesis based on the connection their study made between NO2 and allergenicity.
“Ultimately, it can be expected that the already aggressive ambrosia pollen will become even more allergenic in the future due to air pollution.”