Your white blood cells make proteins called transfer factors that serve as part of the immune system cell communication network. Each transfer factor carries a unique set of knowledge it can share with other immune system cells. To appreciate the power of transfer factors, it’s important to first understand how your immune system works. Here’s what you need to know:
Your immune system has an important job: protecting your body from foreign invaders. Utilizing the help of many organs, tissues, and cells, your immune system works to keep invaders out and destroy any invaders that get in. Your immune system also takes care of your body’s cells that aren’t working correctly.
White blood cells, called leukocytes, play an important role in immune system function.
Your immune system’s ability to defend against foreign invaders is referred to as immunity. This capacity for self-defense is both inherited and learned. The immune system knowledge you are born with is called innate immunity. A portion of your immune system cells come preprogrammed with a set of instructions of how to respond to potential threats. Adaptive immunity is the immune system knowledge you gain throughout your life. Each encounter with a new invader presents an opportunity for your adaptive immune system cells to learn—to build their defenses in a specific manner so they can deal with future threats more efficiently.
Below is an overview of the two forms of immunity:
When an invasion occurs, your innate immune system is the first to respond. It recognizes invaders by their antigens—unique proteins on the surface of the invading cell. Every cell has its own specific antigens. The cells that make up your body carry “self-antigens,” which are used by your immune system to distinguish self (you) from other (invader).
Your innate immune system utilizes several defense mechanisms to help protect you from foreign invaders. Skin cells and epithelial cells lining the openings of your body form tight junctions that make it difficult for invaders to get in. Hairs in your nasal cavity trap invaders, which prevents the invaders from moving into your lungs. Your body uses chemical factors, such as those contained in mucus or the acid in your stomach, to ward off invaders. The commensal (or good) bacteria that cover the surface of your skin and digestive tract provide another layer of protection.
The innate immune system response also activates certain immune system cells, which include neutrophils, macrophages, dendritic cells, and NK cells. These cells capture and destroy incoming invaders and send signals to other immune system components, which activates a more targeted immune system response against invaders.
The role of your adaptive immune system is two-fold:
An adaptive immune system response is initiated when invaders in your tissues are brought back to your lymph nodes by a group of cells called antigen-presenting cells (APCs). There are three types of APCs: dendritic cells, macrophages, and B cells. When APCs encounter an invader, they ingest it, break it into pieces, and attach its antigens to their surface. The antigens presented on the surface of these cells serve as a signal that activates components of your adaptive immune system.
There are numerous cytokines, and each carries a unique set of instructions that triggers one or more actions. Because cytokines have varying lifespans, the message they carry may be present for an instant or for several hours. Different cell types have different receptors and, therefore, only receive messages from select cytokines. This diversity found in cytokines and cell receptors allows your adaptive immune system to respond to invaders in multiple ways.
Two cell types that play a pivotal role in the adaptive immune system response are B cells and T cells. Both cell types contain antigen-specific receptors and are activated only when APCs present components of a specific antigen. Remember: antigens are the unique proteins that sit on the surface of the invading cell.
When B and T cells are activated, they multiply and differentiate into effector cells and memory cells. Effector cells are short-lived cells that provide immediate defense against an invader. Memory cells are long-lived cells that defend your body against repeat invaders.
One main function of B cells is to produce and secrete antibodies (or immunoglobulins). Antibodies are proteins that bind to antigens. An antibody’s job is to disarm the invading cell or tag it to be disarmed by another immune system component.
The antigen-binding sites on each antibody are specific to one antigen, which allows your immune system to recognize millions of different antigens. The rest of the antibody structure varies only slightly and interacts with other immune system components. There are five variations (or classes) of antibodies: IgA, IgD, IgE, IgG, and IgM. Each class has specific functions and is released in different areas of your body.
All antibodies are initially found on the surface of B cells and are considered B cell receptors (BCRs). When an antigen binds to a receptor, the activated B cell multiplies and differentiates into plasma cells (effector cells), which release antibodies that circulate in your blood and lymph fluid. Once secreted, antibodies travel throughout your body and hunt for antigens identical to those that triggered the immune system response.
T cells express T cell receptors (TCRs), which recognize diverse antigens. When an antigen and receptor bind, the activated T cell secretes cytokines and undergoes rapid proliferation and differentiation into the following effector cells:
Once an invader has been eliminated, most effector cells die, and only a small subset of memory cells remain. Each memory cell remembers a specific antigen associated with a previously encountered invader. Their job is to provide a rapid and efficient response against any repeat invaders. The benefit of accumulating memory cells is a stronger, more robust immune defense system.
The main job of your immune system is to defend your body against foreign invaders. Your immune system provides two levels of defense: innate and adaptive immunity. Both forms of immunity are vital for a strong defense system. Your innate immune system acts quickly and provides the first line of defense against invaders. Your adaptive immune system provides a second wave of defense that is more targeted and capable of producing lasting protection against invaders.
Stay tuned for the next article in this two-part series, What are Transfer Factors? - Part 2 , to learn how your body develops immunity over your lifetime and to find out how transfer factors help support your immune defense system.
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