21.3 The Adaptive Immune Response: T lymphocytes and their functional types
clonal selection theory
a typical individual has a multitude (1011) of different types of T cell clones based on their receptors.
T cell cloning
Each T cell that is activated has a specific receptor "hard-wired" into its DNA, and all of its progeny will have identical DNA and T cell receptors, forming clones of the original T cell.
antigen presentation
The association of the antigen fragments with an MHC molecule on the surface of a cell and results in the recognition of antigen by a T cell
primary cells that control the adaptive immune response
lymphocytes, the T and B cells
what are the only T cells left after negative selection?
the only T cells left are those that can bind to MHC molecules of the body with foreing antigens presented on their binding clefts, preventing an attack on one's own body tissues, at least under normal circumstances.
antigens
the small chemical groups often associated with pathogens
polyclonal response
the stimulation of multiple T cell clones
as more Tc cells are developed during an immune response, what happens?
they overwhelm the ability of the virus to cause disease.
a T cell response can only be made if
tissues must be able to express class I MHC
each chain consists of how many domains?
two
antigen receptor
two-chain receptor by which lymphocytes recognize antigen
can Tc cells kill more than one target cell?
yes
lymph nodes
the locations in which most T cell responses against pathogens of the interstitial tissues are mounted.
Regulatory T cells (Treg)
(also, suppressor T cells) class of CD4 T cells that regulates other T cell responses
negative selection process
-self-antigens brouht into the thymus from other parts of the body by professional antigen-presenting cells -the T cells that bind to these self-antigens are selected for negatively and are killed by apoptosis.
what percentage of the thymocytes that enter the thymus leave it as mature, functional T cells?
2%
what do the CD4 and CD8 cells bind to
CD4 binds to class II MHC and CD8 binds to class I MHC
T cells that secrete cytokines that help antibody responses are called ________. a.Th1 b.Th2 c.regulatory T cells d.thymocytes
B. Th2
The taking in of antigen and digesting it for later presentation is called ________. a.antigen presentation b.antigen processing c.endocytosis d.exocytosis
B. antigen processing
The elimination of self-reactive thymocytes is called ________. a.positive selection. b.negative selection. c.tolerance. d.clonal selection.
B. negative selection
Which type of T cell is most effective against viruses? a.Th1 b.Th2 c.cytotoxic T cells d.regulatory T cells
C. cytotoxic T cells
the cells that leave the thymus become single positives, expressing what?
CD4 or CD8 but not both
Why is clonal expansion so important? a.to select for specific cells b.to secrete cytokines c.to kill target cells d.to increase the numbers of specific cells
D. to increase the numbers of specific cells
Do T cells recognize free-floating or cell-bound antigens as they appear on the surface of the pathogen?
No. They only recognize antigen on the surface of specialized cells called antigen-presenting cells.
T cell-dependent antigens
T cell help is required for antibody responses to most protein antigens
Cytotoxic T cells (Tc)
T cells that kill target cells by inducing apoptosis using the same mechanism as NK cells.
Helper T cells (Th)
T cells that secrete cytokines to enhance other immune responses, involved in activation of both B and T cell lymphocytes
two classes of Th cells
Th1 and Th2 cells
what do MHC class I and II have in common?
They bring processed antigen to the surface of the cell via a transport vesicle and present the antigen to the T cell and its receptor.
the two things that Tc cells can do
They either express Fas ligand, which binds to the fas molecule on the target cell, or act by using perforins and granzymes contained in their cytoplasmic granules.
clone
a group of lymphocytes that share the same antigen receptor
antigen processing
a mechanism that enzymatically cleaves the antigen into smaller pieces.
positive selection
a process known as double-negative thymocytes bind to the MHC molecules they observe on the thymic epithelia, and the MHC molecules of "self" are selected. This mechanism kills many thymocytes during T cell differentiation.
peptide-binding cleft
a small indentation at the end of the MHC molecule that is furthest away from the cell membrane; it is here that the processed fragment of antigen sits.
T lymphocytes recognize antigens based on what?
a two-chain protein receptor
Th1 cells
a type of helper T cell that secretes cytokines that regulate the immunological activity and development of a variety of cells, including macrophages and other types of T cells.
immunological memory
an individual's exposure to pathogens early in life spares the person from these diseases later in life.
why is primary disease so severe?
because it takes time for an initial adaptive immune response to a pathogen to become effective.
after the antigen is processed, where does it go?
brought to the cell's surface and associated with a MHC
two ways T cells and antigen-presenting cells are held together
by CD4 or CD8 attaching to MHC and by the T cell receptor binding to antigen
how do mature T cells become activated?
by recognizing processed foreign antigen in association with a self-MHC molecule and begin dividing rapidly by mitosis.
memory T cells
long-lived immune cell reserved for future exposure to an pathogen
double positives
cells that express both CD4 and CD8 makers
protein antigens
complex because of the variety of three-dimensional shapes that proteins can assume, and are especially important for the immune responses to viruses and worm parasites
Th2 cells
cytokine-secreting cells that act on B cells to drive their differentiation into plasma cells that make antibody
when are memory T cells and effector T cells generated?
during a primary adaptive immune response
MHC class II
found on macrophages, dendritic cells, and B cells, it binds to CD4 molecules on T cells
MHC class I
found on most cells of the body, it binds to the CD8 molecule on T cells
variable region domain
furthest away from the T cell membrane and is so named because its amino acid sequence varies between receptors.
major histocompatibility complex (MHC)
gene cluster whose proteins present antigens to T cells
clonal expansion
growth of a clone of selected lymphocytes. is necessary to make the immune response strong enough to effectively control a pathogen
effector T cells
immune cells with a direct, adverse effect on a pathogen
secondary adaptive immune response
immune response observed upon re-exposure to a pathogen, which is stronger and faster than a primary response
primary adaptive response
immune system's response to the first exposure to a pathogen
where are macrophages found?
in the skin and in the lining of mucosal surfaces, such as the nasopharynx, stomach, lungs, and intestines.
what do the selected clones do once activated?
increase in number and make many copies of each cell type, each clone with its unique receptor. By the time this process is complete, the body will have large numbers of specific lymphocytes available to fight the infection
how can the adaptive immune system be so specific?
it has a unique way to develop 100 trillion different receptors to recognize nearly every conceivable pathogen
dendritic cells
kill pathogens by phagocytosis , but their major function is to bring antigens to regional draining lymph nodes.
thymocytes
located in the cortex of the thymus. referred to as "double negatives" because they do not bear CD4 or CD8 molecules hat you can use to follow their pathways of differentiation
three types of professional antigen presenters
macrophages, dendritic cells, and B cells
how are class I MHC are expressed?
many cell types express class I molecules for the presentation of intracellular antigens
B cells
may also present antigens to T cells, which are necessary for certain types of antibody responses
secondary adaptive response symptoms
no symptoms. the pathogen is often eliminated before it can cause significant tissue damage or any symptoms
T cells control
not only control a multitude of immune responses directly, but also control B cell immune responses in many cases as well.
where are carbohydrate antigens found?
on bacterial cell walls and on red blood cells (the ABO blood group antigens).
antigenic determinant (epitope)
one of the small regions within an antigen to which a receptor can bind, and antigenic determinants are limited by the size of the receptor itself.
how many types of receptors does each T cell produce?
one. each T cell is specific for a single particular antigen
How are class II MHC molecules expressed?
only on the cells of the immune system, specifically cells that affect other arms of the immune response.
only what lymphocytes are stimulated to proliferate?
only those clones of lymphocytes whose receptors are activated by the antigen
constant region domain
part of a lymphocyte antigen receptor that does not vary much between different receptor types
T cell tolerance
process during T cell differentiation where most T cells that recognize antigens from one's own body are destroyed
molecules that bear class II MHC are aka
professional antigen-presenting cells
what are extracellular antigens brought into the endomembrane system of a cell by?
receptor-mediated endocytosis
what are antigens recognized by?
receptors on the surface of B and T lymphocytes.
negative selection
selection against thymocytes in the thymus that react with self-antigen
is the adaptive immune system nonspecific or specific?
specific
Macrophages
stimulate T cells to release cytokines that enhance phagocytosis
clonal selection
stimulating growth of lymphocytes that have specific receptors
primary disease
symptoms of a first infection
self recognition
the adaptive immune response is able to distinguish between self-antigens, those that are normally present in the body, and foreign antigens, those that might be on a potential pathogen.
what is the specificity of a T cell based on?
the amino acid sequence and the three-dimensional shape of the antigen-binding site formed by the variable regions of the two chains of the T cell receptor
where does the negative selection take place?
the junction between the cortex and medulla
