Sesame allergy
A food allergy to sesame seeds has prevalence estimates in the range of 0.1–0.2% of the general population, and are higher in the Middle East and other countries where sesame seeds are used in traditional foods. Reporting of sesame seed allergy has increased in the 21st century, either due to a true increase from exposure to more sesame foods or due to an increase in awareness. Increasing sesame allergy rates have induced more countries to regulate food labels to identify sesame ingredients in products and the potential for allergy. In the United States, sesame became the ninth food allergen with mandatory labeling, effective 1 January 2023.
The allergic reaction is an immune hypersensitivity to proteins and lipophilic proteins in sesame seeds and foods made with sesame seeds, including food-grade sesame oil. Symptoms can be either rapid or gradual in onset, occurring over minutes to days. Rapid allergic reaction may include anaphylaxis, a potentially life-threatening condition requiring treatment with epinephrine. Other, slower presentations may include atopic dermatitis or inflammation of the esophagus. For food labeling requirements established in many countries, sesame labeling is required in addition to the eight most common food allergens, responsible for 90% of allergic reactions to foods: cow's milk, eggs, wheat, shellfish, peanuts, tree nuts, fish, and soy beans.
In addition to water-soluble allergenic proteins, sesame seeds share with peanuts and hazelnuts a class of allergenic proteins known as oleosins. Commercially prepared sesame extracts lack these lipophilic proteins, and so can be the reason for false negative skin prick test results even though the oleosins can be responsible for a range of allergic reactions, including anaphylactic shock. Unlike early childhood allergic reactions to milk and eggs, which often lessen as children age, sesame allergy persists into older childhood and adulthood; an estimated 20–30% of affected people develop tolerance. Strong predictors for adult-persistence are anaphylaxis, high sesame-specific serum immunoglobulin E and robust response to the skin prick test. Sesame allergy can be cross-reactive with allergy to peanuts, hazelnuts, and almonds.
Signs and symptoms
Food allergies in general usually have an onset of symptoms in the range of minutes to hours for an IgE-mediated response, which may include anaphylaxis. Symptoms may include rash, hives, itching of mouth, lips, tongue, throat, eyes, skin, or other areas, swelling of lips, tongue, eyelids, or the whole face, difficulty swallowing, runny or congested nose, hoarse voice, wheezing, shortness of breath, diarrhea, abdominal pain, lightheadedness, fainting, nausea, or vomiting. Non-IgE-mediated responses occur hours to days after consuming the allergenic food, and are not as severe as IgE-mediated symptoms. Symptoms of allergies vary from person to person and incident to incident.Potentially life-threatening, the anaphylactic onset of an allergic reaction is characterized by respiratory distress, as indicated by wheezing, breathing difficulty, and cyanosis, and also circulatory impairment that can include a weak pulse, pale skin, and fainting. This can occur when IgE antibodies are released and areas of the body not in direct contact with the food allergen show severe symptoms. Untreated, the overall response can lead to vasodilation, which can be a low blood pressure situation called anaphylactic shock. All of these symptoms have been described as potentially a result of sesame allergy.
Causes
Eating sesame
Sesame allergy typically results from the eating of foods containing sesame seeds, sesame flour or sesame seed oil. The immune system overreacts to proteins found in sesame-containing foods, initiating the allergic reaction. Once an allergic reaction has occurred, it remains a lifelong sensitivity for 70–80% of people.Cross-contact
Cross-contact exposure, also referred to as cross-contamination, occurs as a result of foods being processed in factories or at food markets, or are being prepared for cooking in restaurants and home kitchens. The allergenic proteins are inadvertently transferred from one food to another. Bakeries can be sites of cross-contact exposure because sesame seeds are used as ingredients in various baked goods. Assessment of food products purchased from Middle Eastern grocery stores and bakeries in Montreal, Canada, found that 16% of packaged products with Precautionary Allergen Labelling may contain sesame. This finding indicates that products can have measurable sesame content, causing inadvertent cross-contamination.Occupational exposure
Exposure to inhaled sesame dust by bakery workers has resulted in sesame allergy in an occupational setting.Cross-reactivity to other plant foods
The 2S albumin proteins in sesame seeds partially share amino acid sequence and structure with 2S albumin proteins from other plants. These are likely the proteins responsible for cross-reactive allergic reactions to peanuts, almonds, and hazelnuts. Allergic reactions to oleosins from hazelnut and peanut oils have been confirmed as cross-reactive to sesame oil. Protein analysis suggests allergy to chia seeds may cross-react with sesame allergy.Mechanisms
Allergic response
Causes of food allergies can result from three mechanisms of the allergic response:- IgE-mediated – the most common type, manifest as acute changes that occur within minutes to an hour or two after eating, and may progress to anaphylaxis
- Non-IgE mediated – characterized by an immune response not involving immunoglobulin E; may occur hours to days after eating
- IgE and non-IgE-mediated – a hybrid of the above two types
In the early stages of acute allergic reaction, lymphocytes previously sensitized to a specific sesame protein or protein fraction react by quickly producing a particular type of antibody known as secreted IgE. This type of antibody circulates in the blood and binds to IgE-specific receptors on the surface of other kinds of immune cells called mast cells and basophils. Both of these are involved in the acute inflammatory response. Activated mast cells and basophils undergo a process called degranulation, during which they release histamine and other inflammatory chemical mediators called into the surrounding tissue. These mediators on release cause several systemic effects, such as vasodilation, mucous secretion, nerve stimulation, and smooth-muscle contraction. This results in runny nose, itchiness, shortness of breath, and potentially anaphylaxis. Depending on the individual, the allergen, and the mode of introduction, the symptoms can be systemic, or localized to particular body systems; asthma is localized to the respiratory system while hives and eczema are localized to the skin.
After the chemical mediators of the acute response subside, late-phase responses can often occur due to the migration of other white blood cells such as neutrophils, lymphocytes, eosinophils, and macrophages to the initial reaction sites. This is usually seen 2–24 hours after the original reaction. Cytokines from mast cells may also play a role in the persistence of long-term effects. Late-phase responses seen in asthma are slightly different from those seen in other allergic responses, although they are still caused by release of mediators from eosinophils.
Allergenic proteins
Eight sesame seed allergens have been characterized. Ses i 1 and Ses i 2 are of the biochemical type 2S albumins; these partially share amino acid sequence and structure with 2S albumins from other plants, and are likely the proteins responsible for cross-reactive allergic reactions to peanuts and certain tree nuts, specifically almonds and hazelnuts. Ses i 3 is a vicilin-like globulin. Ses i 4 and Ses i 5 are oleosins, associated with oil bodies, which appear to contribute to cross-reactivity to hazelnut and peanut oils. Ses i 6 and Ses i 7 are globulins. Ses i 8 is a profilin.Allergic reactions to oleosins from sesame, hazelnut and peanut oils have been confirmed, ranging from contact dermatitis to anaphylactic shock. The sesame oil body associated proteins are at ~17 and ~15 kDa, named, respectively, Ses i 4 and Ses i 5. Standardized sesame extracts used for allergy diagnosis do not contain oleosins, so the results of skin prick tests can present a false negative whereas using freshly ground seeds elicits a true positive. Commercial-grade peanut oil is highly refined, so the oleosins are removed, but commercial-grade sesame oil intended for food consumption is typically an unrefined product with a measurable protein content.