memory cell

(noun)

one of a number of types of white blood cells

Related Terms

Examples of memory cell in the following topics:

  • Making Memory B Cells

    • Memory B cells are a B cell sub-type that are formed following primary infection.
    • Memory B cells are a B cell sub-type that are formed following a primary infection .
    • The rest persist as the memory cells that can survive for years, or even a lifetime.
    • The fact that all the cells of a single clone elaborate one (and only one) paratope, and that the memory cells survive for long periods, is what imparts a memory to the immune response.
    • They form memory cells that remember the same pathogen for faster antibody production in future infections.

  • Classes of T Cells

    • T cells play a central role in cell-mediated immune response through the use of the surface T cell receptor to recognize peptide antigens.
    • This activation results in the expansion of the antigen-specific lymphocyte pool and the differentiation of these cells into effector and memory cells.
    • Effector cells include helper T cells, and cytolytic or cytotoxic T cells.
    • Memory T cells are an expanded population of T cells specific for antigens that can respond rapidly to subsequent encounter with that antigen and differentiate into effector cell to eliminate the antigen.
    • Distinguish between: naive, effector (helper and cytotoxic), memory and regulatory T cells

  • Serology

    • A primary immune response occurs when a B cell sees an antigen for the first time.
    • Antigen binding to the surface of the B cell stimulates the production of antibodies that are capable of binding directly to the antigen.
    • Meanwhile, the B cells are producing highly specific Immunoglobulin G (IgG) more slowly.
    • When B and T cells begin to replicate, some of the offspring that they produce will end up becoming long-lived memory cells.
    • These memory cells will remember all specific pathogens encountered during the animal's lifetime and can thus call forth a strong response if the pathogen ever invades the body again.

  • Development of the Dual Lymphocyte System

    • B cells and T cells are the major types of lymphocytes.
    • Mammalian stem cells differentiate into several kinds of blood cell within the bone marrow.
    • B and T cells) differentiate further after exposure to an antigen; they form effector and memory lymphocytes.
    • Memory cells remain in the peripheral tissues and circulation for an extended time ready to respond to the same antigen upon future exposure.
    • Mammalian stem cells differentiate into several kinds of blood cell within the bone marrow.

  • Clonal Selection of Antibody-Producing Cells

    • B cells exist as clones.
    • Such clonality has important consequences, as immunogenic memory relies on it .
    • Upon encountering its specific antigen, a single B cell, or a clone of cells with shared specificity, divides to produce many B cells.
    • A small minority survives as memory cells that can recognize only the same epitope.
    • However, with each cycle, the number of surviving memory cells increases.

  • Primary and Secondary Antibody Responses

    • Adaptive (or acquired) immunity creates immunological memory after an initial response to a specific pathogen, leading to an enhanced response to subsequent encounters with that same pathogen.
    • When B cells and T cells are first activated by a pathogen, memory B-cells and T- cells develop.
    • Throughout the lifetime of an animal these memory cells will "remember" each specific pathogen encountered, and are able to mount a strong response if the pathogen is detected again.
    • Following clearance of the infection, antibody level and effector T cell activity gradually declines.
    • Because immunological memory has developed, reinfection at later times leads to a rapid increase in antibody production and effector T cell activity.

  • Immunization, Antiseptics, and Antibiotics

    • It will also develop the ability to respond quickly to subsequent encounters with the same substance, a phenomenon known as immunological memory.
    • The most important elements of the immune system that are improved by immunization are the T cells, the B cells, and the antibodies B cells produce.
    • Memory B cells and memory T cells are responsible for the swift response to a second encounter with a foreign molecule.
    • This method of immunization starts to work very quickly; however, it is short-lasting because the antibodies are naturally broken down and will disappear altogether if there are no B cells to produce more of them.
    • Thus, humanized antibodies produced in vitro by cell culture are used instead if available.

  • Antibody Proteins and Antigen Binding

    • An antibody (Ab), also known as an immunoglobulin (Ig), is a large Y-shaped protein produced by B-cells that is used by the immune system to identify and neutralize foreign objects, such as bacteria and viruses.
    • Using this binding mechanism, an antibody can tag a microbe, or an infected cell, for attack by other parts of the immune system, or can neutralize its target directly; for example, by blocking a part of a microbe that is essential for its invasion and survival.
    • Antibodies can occur in two physical forms, a soluble form that is secreted from the cell, and a membrane-bound form that is attached to the surface of a B cell and is referred to as the B cell receptor (BCR).
    • The BCR is only found on the surface of B cells and facilitates the activation of these cells and their subsequent differentiation into either antibody factories called plasma cells, or memory B cells that will survive in the body and remember that same antigen so the B cells can respond faster upon future exposure.
    • In most cases, interaction of the B cell with a T helper cell is necessary to produce full activation of the B cell and, therefore, antibody generation following antigen binding.

  • Natural Killer Cells

    • Natural killer cells (or NK cells) are a type of cytotoxic lymphocyte critical to the innate immune system.
    • Natural killer cells (or NK cells) are a type of cytotoxic lymphocyte critical to the innate immune system.
    • Often NKT cell activity promotes NK cell activity by secreting IFNγ.
    • Numerous experiments have demonstrated their ability to adjust to the immediate environment and formulate antigen-specific immunological memory, which is fundamental for responding to secondary infections with the same antigen.
    • Functions of NK cells include: Cytolytic Granule Mediated Cell Apoptosis; Antibody-Dependent Cell-Mediated Cytotoxicity (ADCC); Cytokine induced NK and CTL activation; Missing 'self' hypothesis; Tumor cell surveillance; NK cell function in adaptive response; NK cell function in pregnancy; and NK cell evasion by tumor cells .

  • Overview of the Immune System

    • Adaptive (acquired) immunity creates immunological memory after an initial response to a specific pathogen, leading to an enhanced response to subsequent encounters with that same pathogen.
    • Similarly, cell-mediated immunity is active when the organism's own T cells are stimulated and passive when T cells come from another organism.
    • The cell starts rounding up and loses its spikes.
    • As the macrophage cell becomes smooth.
    • Because immunological memory has developed, reinfection at later times leads to a rapid increase in antibody production and effector T cell activity.