The antihistamine activity of blood serum is due to the presence of antihistamine factor (AHF), which was discovered in 1969. This substance was first isolated from rabbit blood serum, which was incubated with histamine.
AGP is a glycoprotein and consists of two subunits: alpha and beta AGP. The alpha subunit has a molecular weight of about 30 kDa, and the beta subunit has a molecular weight of about 70 kDa. Both subunits have high antihistamine activity, but the beta subunit is more effective.
The antihistamine activity of AGF manifests itself in the inhibition of the action of histamine on receptors that are located in various tissues of the body. AGF also has anti-inflammatory activity, which makes it an important factor in the treatment of allergic diseases.
In addition, AHF can be used as a diagnostic test to determine the level of histamine in the blood. This makes it possible to identify the presence of allergies in patients and prescribe appropriate treatment.
However, despite its effectiveness, AGF is not a panacea for all allergic reactions. Some patients may have an individual intolerance to AGF, which can lead to the development of allergic reactions to it.
In general, blood antihistamine factor plays an important role in the treatment of allergic diseases and can be used as an additional tool for diagnosing histamine levels. However, before using AGF, you must consult your doctor and make sure that there is no individual intolerance to this substance.
Antihistamine Blood Factor: Role and Significance
Introduction
Blood antihistamine factor is an important substance contained in blood serum, which plays a significant role in regulating the body's histamine response. This factor has the ability to inactivate histamine in vitro, which is a key mechanism in the body's fight against allergic reactions and other conditions associated with excessive histamine release.
The role of blood antihistamine factor
Allergic reactions and other conditions such as anaphylaxis, asthma and colds are often associated with the release of histamine in the body. Histamine is an important mediator of inflammation and plays a role in regulating various physiological processes such as vasoconstriction, increasing capillary permeability and stimulating mucus secretion. However, excessive histamine release can lead to negative consequences for the body.
Blood antihistamine factor plays a protective role by preventing the unwanted effects of histamine. It has the ability to inactivate histamine in vitro, thereby preventing its effects on organs and tissues. This is especially important in allergic reactions, where the body is exposed to high levels of histamine and can be potentially life-threatening.
Mechanism of action
Antihistamine factor in the blood carries out its protective function by binding to histamine and inactivating its biological activity. This occurs by blocking histamine receptors or neutralizing its chemical activity. Thus, the antihistamine factor in the blood prevents the development of allergic reactions and reduces their intensity.
Clinical significance
Understanding the role of blood antihistamine factor is of great clinical importance. Research suggests that some people may have low levels of this factor, making them more susceptible to allergic reactions and other conditions associated with excess histamine release. This may explain differences in individual sensitivity to allergens and the different manifestations of allergic reactions in different people.
Further research into the blood antihistamine factor may have potential clinical applications. The development of methods for determining the level of antihistamine factor in the blood and its activity can help in the diagnosis and prognosis of allergic diseases. In addition, it is possible that the development of new drugs aimed at increasing the level of antihistamine factor in the blood could be an effective way to treat allergic reactions and reduce their intensity.
Conclusion
Antihistamine factor in the blood plays an important role in regulating the body's histamine response. Its ability to inactivate histamine in vitro helps prevent the unwanted effects of histamine and reduce the intensity of allergic reactions. Further research in this area could lead to the development of new methods for diagnosing and treating allergic diseases, which would improve the quality of life for millions of people suffering from allergic reactions.
However, it should be noted that this article is based on an in vitro description of a blood antihistamine factor, and further studies in living organisms may be necessary to confirm and expand our knowledge of this factor.