USMLE® Step 1 style questions USMLE
USMLE® Step 2 style questions USMLE
A 5-year-old boy comes to the emergency department with his mother because of a skin rash on his face that is very itchy for 20 minutes. His mother says that within minutes of eating peanut butter, he vomited and developed hives on his face. Physical examination shows hives that appear red, raised, and are localized to his face. His medical history is noncontributory and he is up-to-date on his immunizations. His pulse is 90/min, respirations are 22/min, and blood pressure is 120/85 mm Hg. He does not have stridor on auscultation. Which of the following is the most likely explanation for this patient’s physical findings?
Content Reviewers:Rishi Desai, MD, MPH
Contributors:Evan Debevec-McKenney, Gil McIntire, Alex Aranda, Miguel Quintana, MD, Kaia Chessen, MScBMC
Now, a variety of food proteins can cause food allergies, but the most common are known as the big eight, these include proteins within milk, eggs, peanuts, tree nuts, seafood, shellfish, soy, and wheat.
Food is essential to life, and normally food doesn’t cause an allergic reaction - in fact, the process that allows for that is called oral tolerance.
Let’s see how that works. Normally, when food travels through the stomach and intestines, the proteins within them are broken down by gastric acid and proteases into tiny fragments, called oligopeptides - small strings of amino acids.
These oligopeptides reach the Peyer’s patches which are bits of tissue along the intestinal wall where M-cells live.
The protein fragments are presented by the M-cell using an MHC class II molecule, which is basically a serving platter for the helper T cells.
The helper T cell is key because it largely controls the immune response.
Anergy is a bit like turning off that helper T cell so that it doesn’t induce an immune response.
In other words, regulatory T cells release cytokines in the lining of the intestines to help prevent the helper T cells from ever getting stimulated by food.
Now, in food allergy, this process doesn’t work properly.
An allergic reaction towards food happens in two steps, a first exposure, or sensitization, and then a subsequent exposure, which usually gets a lot more serious.
So, let’s say a person eats shrimp for the first time, and for some reason the helper T cell is able to generate an immune response towards the proteins within shrimp.
Helper T cells that recognize this antigen will bind to it with their T cell receptors, and based on the cytokines that are floating around they mature into type 2 helper T cell, or TH2 cells.
TH2 cells release a variety of cytokines like interleukin 4.
At this point, the sensitization phase has come to an end and the mast cells and basophils are ready for action.
Now, let’s say that the same person eats shrimp again, a few months later.
That’s the second exposure leads to a type I hypersensitivity reaction.
Specifically, the IgE on the surface of the sensitized mast cells and basophils will bind to the shrimp antigen.
When two IgE antibodies that are near one another both bind to the same antigen, it’s called crosslinking.
When two IgE antibodies crosslink on the surface of a mast cell or basophil it sends a signal down into the cell, which makes that cell degranulate and release a bunch of pro-inflammatory molecules like histamine.
This histamine gets into the intestinal tissue as well as into the blood.
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