Immunoglobulins
Review
Antibody diversity diagram
Differentiation
At this point, the antigen specificity of the mature B-cell has been determined
IgD
B cell receptor
IgE
Binds mast cell surfaces Involved in allergic responses
Differentiation
During differentiation of the B-cells from precursor stem cells, rearrangement, recombination and mutation of the immunoglobulin V, D, and J regions occurs to produce functional VJ (light chain) and VDJ (heavy chain) genes
B-cells
Each cell can make only one heavy chain and one light chain, although the isotype of the heavy chain may change.
Antibody diversity can be generated in at least 3 possible ways
Multiple genes in the germ line DNA. Variable recombination during the differentiation of germ line cells into B-cells. Mutation during the differentiation of germ line cells into B-cells.
IgG
Placental transfer Binds phagocytic cell surfaces Activates complement Involved in opsonization and ADCC. Four subclasses; IgG1, IgG2, IgG3, IgG4
IgA
Two subclasses; IgA1, IgA2. Also found as dimer (sIgA) in secretions.
IgM
activates complement First Ab in development and response
Example of Basic Immunoglobulin Function
an antibody might bind to a toxin and prevent that toxin from entering host cells where its biological effects would be activated. Similarly, a different antibody might bind to the surface of a virus and prevent that virus from entering its host cell.
Idiotypes are so unique that..
an individual person is probably capable of generating antibodies directed against their own idiotypic determinants.
Variable regions
are contained within the amino (NH2) terminal end of the polypeptide chain (amino acids 1-110)
Some of the antibodies functions
are independent of the particular class (isotype) of immunoglobulin. These functions reflect the antigen binding capacity of the molecule as defined by the variable and hypervariable (idiotypic) regions.
The structural (three-dimensional) features that define isotypes
are not immunogenic in an animal of the same species, since they are not seen as "foreign" For ex:the five human isotypes, IgA, IgD, IgG, IgE and IgM are found in all humans and a result, injection of human IgG into another human would not generate antibodies directed against the structural features (determinants) that define the IgG isotype. However, injection of human IgG into a rabbit would generate antibodies directed against those same structural features.
The production of immunoglobulins
by B-cells or plasma cells occurs in different stages
Light chains
composed of 220 amino acid residues
Heavy chains
composed of 440-550 amino acids
Immunoglobulins
composed of four polypeptide chains: two "light" chains (lambda or kappa), and two "heavy" chains (alpha, delta, gamma, epsilon or mu).
Constant regions
comprising amino acids 111-220 (or 440-550), are rather uniform, in comparison, from one antibody to another, within the same isotope
4 polypeptide chains held together by
covalent disulfide (-S-S-) bonds
The type of heavy chain an immunoglobulin possesses
determines the immunoglobulin "isotype"
Each chain
has "constant" and "variable" regions as shown in the figure.
Antibodies function
in a variety of ways designed to eliminate the antigen that elicited their production
Classifications of Immunoglobulins
isotype allotype idiotype
Some cells will undergo a "class switch" during which a rearrangement of the DNA will occur
lacing the VDJ gene next to the genes encoding the IgG, IgE or IgA constant regions
Hypervariable regions
or "Complementarity Determining Regions" (CDRs) are found within the variable regions of both the heavy and light chains
The immune system has the capacity to
recognize and respond to about 10,000,000 different antigens
Unlike isotopes, allotypes
reflect genetic differences between members of the same species This means that not all members of the species will possess any particular allotype. Therefore, injection of any specific human allotype into another human could possibly generate antibodies directed against the structural features that define that particular allotypic variation.
Idiotypes
reflect the antigen binding specificity of any particular antibody molecule
Hypervariable regions
serve to recognize and bind specifically to antigen
Isotypes and allotypes are
similar
B-cell
the B-cell will differentiate into a plasma cell expressing large amounts of secreted IgM upon stimulation by antigen
An allotype is determined by
the amino acid sequence and corresponding three-dimensional structure of the constant region of the immunoglobulin molecule
An idiotype is determined by
the amino acid sequence and corresponding three-dimensional structure of the variable region of the immunoglobulin molecule.
Type of heavy chain determines?
the immunoglobulin isotype (IgA, IgD, IgG, IgE, IgM, respectively).
An isotype is determined by
the primary sequence of amino acids in the constant region of the heavy chain, which in turn determines the three-dimensional structure of the molecule
Upon, Secondary induction (i.e. the secondary response)
these B-cells will differentiate into plasma cells expressing the new isotype. Most commonly, this results in a switch from IgM (primary response) to IgG (secondary response). The factors that lead to production of IgE or IgA instead of IgG are not well understood.
Since immunoglobulins are proteins
they can act as an antigen, eliciting an immune response that generates anti-immunoglobulin antibodies
Other antibody functions are dependent
upon the immunoglobulin class (isotype). These functions are contained within the constant regions of the molecule.
A mature B-cell
will produce primarily IgD (and some membrane IgM) that will migrate to the cell surface to act as the antigen receptor.