adaptive immunity
acquired specific immunity after an immunizing event such as an infection
product of B and T lymphocytes
lymphocytes undergo selective process that specializes them for reacting to only one specific marker
immunocompetence
the ability of the body to react with countless foreign substances
antigens (markers)
molecules that can be seen and identified by the immune system
is it possible for an antigen to not provoke an immune response?
yes
immunogens
antigens that provoke adaptive immune response
stimulate a response by T and B cells
PAMPs
molecules shared by many types of microbes that stimulate an innate response
shared characteristics of PAMPs and immunogens
they are "parts" of foreign cells (other foreign materials)
they provoke a defensive reaction from the host
specificity
highly specific to the antigen against which the third line of defense is directed
memory
the rapid mobilization of lymphocytes that have been programmed to recall their first engagement with the invader and rush to attack once again
major functions of immune system markers
attachment to nonself or foreign antigens
binding to cell surface receptors that indicates self
receiving the transmitting chemical messages to coordinate the response
aiding in cellular development
clonal deletion
occurs when a T or B cell recognizes a "self" marker, and that clone of cells is deleted
major histocompatibility complex (MHC)
set of genes that code for human cell markers
gives rise to a series of glycoproteins called MHC molecules
found on all cells except red blood cells
class 1 MHC genes
markers appear on all nucleated cells
display unique characteristics of self
allow for recognition of self and the regulation of immune reactions
each human inherits a particular combination of class 1 MHC genes
class 2 MHC genes
code for immune regulatory markers found on macrophages, dendritic cells, and B cells
involved in presenting antigens to T cells during cooperative immune reactions
class 3 MHC genes
encode proteins involved with the complement system
cluster of differentiation
markers important in immunity
found on the membranes of variety of different cells involved in the immune response
close to 400 have been described
tissue macrophages
ingest the pathogens and induce an inflammatory response in the tissue if appropriate
tissue dendritic cells
ingest the antigen and migrate to the nearest lymphoid organ
process and present antigen to T lymphocytes
antigen-presenting cells
dendritic cells
macrophages
B cells
clone
proliferation of a particular lymphocyte
genetically identical cells, some of which are memory cells
three main functional types of T cells
helper T cells
regulatory T cells
cytotoxic T cells
helper T cells
activate macrophages, assist B-cell processes, and help activate cytotoxic T cells
regulatory T cells
control the T-cell response by secreting anti-inflammatory cytokines or preventing proliferation
cytotoxic T cells
lead to the destruction of infected host cells and other "foreign" cells
gamma-delta T cells can be activated quickly by
PAMPs and specific antigens
a B cell that is activated by an antigen divides into
plasma cells
each plasma cell has the same
reactive profile
innate response activating B cells
alert many components of the immune system to get active because a threat is on the way in a nonspecific way
CD3 markers
surround the T-cell receptor and assist in binding
CD4
found in helper T cells and binds to MHC class 2 molecules
CD8
found on cytotoxic T cells and binds MHC class 1 molecules
B cells site of maturation
bone marrow
T cell site of maturation
thymus
B cells specific surface markers
immunoglobulin as receptors and distinct CD molecules
T cells specific surface markers
T-cell receptor and distinct CD molecules
B cells concentration in blood
low numbers
T cells concentration in blood
high numbers
B cells receptors for antigen
immunoglobulin
T cells receptors for antigen
T-cell receptor
B cells location in lymphoid organs
cortex (in follicles)
T cells location in lymphoid organs
paracortical sites (interior to the follicles)
B cells result of antigenic stimulation
plasma cells and memory cells
T cells result of antigenic stimulation
several types of activated T cells and memory cells
B cells general functions
production of antibodies to inactivate, neutralize, and target antigens
T cells general functions
cells function in helping other immune cells, suppressing killing abnormal cells; hypersensitivity; and synthesize cytokines
immunoglobulin (Ig)
two heavy chains, two light chains
one light chain is bonded to one heavy chain
two heavy chains are bonded to each other with disulfide bonds
creates a symmetrical, Y-shaped arrangmeent
antigen-binding sites
pockets at the ends of the forks formed by the light and heavy chains
can be highly variable in shape to fit a wide range of antigens
variable regions
found in antigen-binding sites
amino acid position is highly varied from one clone of B lymphocytes to another as the result of genetic reassortment
constant regions
amino acids content does not vary greatly
T cell receptors
formed by genetic modification
has variable and constant regions
inserted into the membrane
has antigen-binding site formed from two parallel polypeptide chains
immune tolerance
tolerance to self
removal of any potentially harmful clones through clonal deletion
some autoimmune diseases are thought to be caused by the loss of immune tolerance, the survival of "forbidden clones" or failure of other systems
antigen
a substance that provokes an immune response in specific lymphocytes
immunogen
an antigen that has been responded to by the immune system
characteristics of antigens
must be perceived as foreign
whole microbes or parts
cells or substances that arise from other humans, animals, plants, and various molecules
molecules such as proteins or protein-containing compounds are more immunogenic than repetitious polymers composed of a single unit
antigens that provoke a strong response are considered
good
good antigens are so named because of
their chemical composition
their context, meaning what types of cytokines are present
their size
epitope
a portion of the antigen molecule recognized and responded to by a lymphocyte
the primary signal that a molecule is foreign
haptens
consist only of a determinant group
too small by themselves to elicit an immune response
if linked to a carrier group, the combined molecule develops immunogenicity
alloantigens
proteins and other molecules of one person which are antigenic to another
cell surface markers that occur in some members of the same species but not in others
the basis for an individual's blood group and major histocompatibility profile
responsible for incompatibilities that occur in blood transfusion or organ grafting
superantigens
bacterial toxins
potent stimuli for T cells
antigens' routes of entry
respiratory mucosa
gastrointestinal mucosa
mucous membranes
the skin
across placenta
intravenously
when antigens are introduced intravenously
they travel through the bloodstream and end up in the liver, spleen, bone marrow, kidney, and lung
lymph nodes and spleen
important in concentrating the antigens
circulating antigens thoroughly through all area populated by lymphocytes
APCs
macrophages, B cells, dendritic cells
T helper cells
play a central role in regulating immune reactions to antigens
involved in activating macrophages
stimulation of T helper cells
antigen/MHC complex
regulatory T cells
carry CD4 markers
control the inflammatory process
prevent autoimmunity
cytotoxicity
the capacity of certain T cells to kill a specific target cell
cytotoxic T cell (CD8) activation
must recognize a foreign peptide complexed with self MHC-1 presented to it and mount a direct attack on a target cell
perforins
proteins that punch holes in the membranes of target cells
causes ions to leak out of target cells
creates a passageway for granzymes to enter
granzymes
enzymes that attack proteins of target cells
target cells of cytotoxic T cells
virally infected cells
cancer cells
cells from other animals and humans
gamma-delta T cells
distinct from other T cells
have T-cell receptors rearranged to recognize a wide range of antigens
response to certain PAMPs on microorganisms
respond quickly
produce memory cells when they are activated
natural killer cells
lymphocyte related to T cells
lack specificity for antigens
circulate through the spleen, blood, and lungs
hybrid type
share properties of both T cells and NK cells
display T-cell receptors and NK-cell markers
two functionally distinct fragments basic immunoglobulin
antigen-binding fragments
crystallizable fragment
Fab fragment
amino terminal end consists of the variable regions of the heavy and light chains
special region of attachment between the Fab and Fc regions allows swiveling of the Fab fragments
Fc fragment
serves as an anchor
involved in binding to various cells and molecules of the immune system itself
hypervariable region
site on the antibody where the epitope bind
amino acid content is extremely varied
a minimal complementary fir is necessary for the antigen to be held effectively
opsonization
the attachment of antibody to foreign cells and viruses exposes the epitopes to which they are bound to phagocytes
J chain
joins the monomers of IgA and IgM
secretory component
helps IgA move across mucous membranes
titer
the concentration of antibodies in the serum
can be measured over time to determine how the immune system reacts to antigen
latent period
marked by a lack of antibody production
antigen is concentrated in lymphoid tissues
active immunity
immune stimulus
creates a memory that renders the person ready for quick action upon reexposure to the same antigen
requires several days to develop
last for a long time
passive immunity
occurs when an individual receives substances that were produced actively in the body of another human or animal donor
lack of memory for the original antigen
lack of production of new antibodies against that disease
natural immunity
any immunity that is acquired during the normal biological experiences of an individual
it is not obtained through medical intervention
artificial immunity
induced by immunization with vaccines or the administration of immune serum
it is obtained through medical intervention
intravenous immune globulin
extracted from the pooled blood of human donors
IVIGs are processed to concentrate antibodies to increase potency and eliminate potential pathogens
most forms are injected intramuscularly
specific immune globulin
derived from a more defined group of donors who are convalescing in a hyperimmune state after certain infections
contain high titers of specific antibodies obtained from a smaller pool of patients
vaccination
exposing a person to material that is antigenic but not pathogenic
discovery of vaccination was one of the farthest reaching and most important developments in medical science
basic principles
stimulate a primary immune response that primes the immune system for future exposure to a virulent pathogen
if the pathogen later enters the body, the secondary immune response will be immediate, powerful, and sustained
vaccine considerations
antigen selection
effectiveness
ease in administration
safety
cost
live, attenuated cells or viruses
continues to stimulate strong immunity due to the pathogen's ability to replicate in the vaccine recipient
whole killed cell or inactivated virus
contains a wide range of surface markers that can activate the immune responses
adjuvant
a special binding substance added to some vaccines
any compound that enhances immunogenicity and prolongs antigen retention at the injection site
precipitates the antigen and holds it in the tissues so that it will be released gradually
facilitates contact with APCs and lymphocytes
common side effects of vaccine
local reactions at the injection site (soreness)
short-term flu-like symptoms (caused by our immune response)
most common serious side effect vaccine
risk anaphylaxis
for the COVID-19 vaccine, five cases out of a million resulted in anaphylaxis