In doing so, the antibody effectively marks the pathogen for neutralization, either by killing it or preventing it from entering a healthy cell, or by signalling other complementary proteins to surround and devour the invader in a process called phagocytosis (from the Ancient Greek word for “to devour” [phagein] and “cell” [kytos]).
Antibodies are produced by white blood cells called B-lymphocytes, or B-cells. During the prenatal (before birth) and neonatal (newborn) stages of life, antibodies are passed from the mother to the infant through a process called passive immunization. From there, the child will begin to independently produce antibodies, either in response to a specific antigen (adaptive immunity) or as part of the body’s natural immune response (innate immunity).
Humans are capable of producing over 10 billion types of antibodies, each defending against a specific type of antigen. The antigen-binding site on the antibody called the paratope is located at the tips of the “Y” and locks onto a complementary site on the antigen called the epitope. The high variability of the paratope allows the immune system to recognize an equally wide variety of antigens.
HIV Antibodies and Antigens
When an HIV infection occurs, measurable HIV antibodies are produced in response to antigens within a week or two of exposure, depending on which test is used. The antibodies are generated in response to different viral antigens.
Once infected, the antibodies persist for life and provide the traditional target for HIV antibody tests (including commercially available in-home tests).
