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The suffering of millions of people with allergies could one day be eased thanks to new research from UK investigators. Findings from the University College London branch of the Ludwig Institute for Cancer Research (LICR), published in this weeks
The suffering of millions of people with allergies could one day be eased thanks to new research from UK investigators. Findings from the University College London branch of the Ludwig Institute for Cancer Research (LICR), published in this weeks Nature, detail how inactivating a key signalling molecule called p110delta reduced the effect of allergies on mice.
Allergies are essentially inappropriate responses by the immune system to allergens such as pollen, dust, insects and animals. This results in the activation of immune cells, called mast cells, which release inflammatory agents, leading to the symptoms so many of us know so well: runny noses, itching eyes, coughing, skin rashes and wheezing.
Dr. Bart Vanhaesebroeck and his team at LICR, together with collaborators from Novartis Respiratory Disease Centre headed by Dr. Peter Finan, found that inactivating p110delta in mast cells substantially reduces the allergic response seen in mice. In mice lacking the gene for p110delta, the allergic response was reduced substantially; in normal mice that had been treated with an experimental drug inhibiting p110delta, the allergic response was stopped completely.
Allergies have increased dramatically over the past 20 years, and new treatments are clearly needed. Experts estimate that, in the UK alone, one in three people will suffer from some form of allergy during their lifetime; some nine million people suffer from hay fever, six million from eczema and five million from asthma each year. In the most extreme circumstances, an allergic reaction can be life-threatening or even fatal. This is commonly seen in peanut and drug allergies.
According to Khaled Ali, the lead author of the study, current therapies to treat allergies are mainly non-specific, targeting the symptoms of allergy rather than targeting what is actually happening in the mast cells themselves. It is hoped that by targeting p110delta, we can directly stop mast cell activation and, in doing so, help end the misery they bring to many sufferers.
We have to remember though that mice are not the same as humans, cautions Vanhaesebroeck. Our work points toward a promising future for developing inhibitors for allergic conditions, but we are still a long way from developing a drug for human patients. The LICR groups research efforts are also focused on their findings that p110delta could also play a role in certain tumours, like leukemia, and that targeting the p110delta pathway may one day also be useful in the treatment of cancer.
Source: University College London