Antibodies PDF - Immunoglobulin Structure and Function

Summary

This document provides a detailed description of Immunoglobulins, or antibodies. It explains their structure and function, including the different types of heavy and light chains, and their roles in various biological activities.

Full Transcript

## Immunoglobulins (Igs, Antibodies)

**Definition:** They are the y-fraction of the plasma globulin proteins. They are glycoproteins secreted by B-lymphocytes after their differentiation into plasma cells following the exposure to a variety of antigens.

**Basic structure of the immunoglobulin:**

* The basic unit of any type of immunoglobulin is called monomer.
* Each monomer is formed of 4 polypeptide chains linked together by interchain disulfide bonds and arranged in a Y-shaped structure, two heavy chains & two light chains (Heavy and light chain in regards to the M.W.).

**Both heavy and light chains have C-terminal regions and N-terminal regions.**

* **Light chains** have molecular weight 25,000 & are of two types:
* "Lambda"
* "Kappa"
* **Heavy chains** have molecular weight 50,000-75,000 & are of five types:
* "gamma": presents in IgG
* "alpha": presents in IgA
* "mu": presents in IgM
* "epsilon": presents in IgE
* "delta": presents in IgD
**III- Papain:**
* It is a proteolytic enzyme that cleaves the antibody molecule at the hinge region into three fragments.
* **Two identical fragments "Fab" (Fragment antigen binding): ** The amino terminal end of each Fab fragment contains antigen binding site due to presence of variable regions of both heavy & light chains, so two antigen binding sites in both fragments are present.
* **Fc (fragment crystalline) fragment: ** it contains the constant regions of the heavy chains & it determines the biological activities of the antibody molecule depending on the presence of Fc receptors for the Fc portion on various cells upon which the antibody acts.

**IV- Domains:**
* Each light & heavy chain formed of domains, each domain is held by intra-chain disulfide bond:
* **Amino terminal domains:** They are variable from one antibody to another & called variable region, VL & VH, with three amino acid sequence that show marked degree of variation & it is the antigen recognition & binding site and called hypervariable region.
* **Other domains are constant and called:** CL, CH1, CH2 & CH3.

| Protein Chemistry | Description |
| --------------------------------------------------- | ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- |
| Amino terminal | The functional group that is always at the end of a polypeptide chain |
| Antigen binding site | The part of the antibody that binds to the antigen. |
| Light chain | A type of polypeptide chain that makes up an antibody. |
| Heavy chain | A type of polypeptide chain that is longer than a light chain. |
| **Domain** | A distinct structural and functional unit of a protein |
| Inter-chain disulfide bond | A covalent bond between two cysteine residues on different polypeptide chains. |
| Intra-chain disulfide bond | A covalent bond between two cysteine residues on the same polypeptide chain. |
| **Hinge region (site of action of papain)** | The flexible region of an antibody that allows the Fab fragments to move independently of the Fc fragment. |
| **Fab fragment** | The fragment of an antibody that binds to the antigen. |
| **Fc fragment** | The fragment of an antibody that interacts with the immune system, such as complement proteins and immune cells. |
| **Carbohydrate residues** | The sugar molecules that are attached to the polypeptide chains in the antibody. |
| **Carboxyl terminal** | The functional group that is always at the end of a polypeptide chain |

### **Immunoglobulin monomer**

* There are 5 types of immunoglobulins which are:

* **Immunoglobulin G (IgG):**
* Site: It represents 80% of serum immunoglobulins.
* Molecular weight: Relatively small, 160,000 dalton.
* Half life: Relatively long, 23 days.
* Structure: Monomer with two antigen binding sites & four classes which are IgG1, 2, 3, 4.
* Carbohydrate residue: 2-4%.
* Biological activities:
* It is major antibody in the secondary immune response.
* It is the antibody that crosses the placenta due to presence of Fc receptor for its Fc portion on the trophoblasts (placental cells).
* It fixes & activates the complement.

* **Immunoglobulin A (IgA):**
* Site: Serum & body secretions.
* Carbohydrate residue: 5-10%.
* **Structure:**
* Serum IgA: is formed of monomer with two antigen binding sites.
* Secretory IgA: is dimmer with four antigen binding sites & two classes IgA1 &2, the two monomer are joined by J-chain & acquire secretory piece which :
* Facilitates the transport of the IgA in the secretions.
* Protects it from being digested by the proteolytic enzymes.

| | Description |
| ---------- | ------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- |
| **J-Chain** | A small polypeptide chain that links together antibody monomers in the form of dimers, trimers, pentamers, and hexamers. |
| Serum IgA | The form of IgA found in the blood serum. |
| Dimeric IgA | A form of IgA that consists of two antibody monomers linked together by a J-chain. |
| Secretory IgA | A form of IgA that is found in the secretions, such as saliva, tears, breast milk, and mucus. It is made of two antibody monomers linked together by a J-chain, as well as a secretory component that helps it to be secreted. |

* Biological activities:
* It presents in the secretions of the respiratory, genitourinary, G.I.T, milk, colostrum, tears, sweat & saliva to provide local immunity against invasion by microorganisms.
* It doesn't cross the placenta.
* It doesn't fix the complement.

* **Immunoglobulin M (IgM):**
* Site: Serum.
* Molecular weight: Relatively large, 900,000 dalton.
* Half life: Relatively short.
* Carbohydrate residue: 10 %.
* Structure: Pentamer (5 monomers) with 10 antigen binding sites joined together by J-chain forming stare like structure.

* **Biological activities:**
* It is major antibody in the primary immune response, so its presence indicates recent infection.
* It fixes & activates the complement
* It doesn't cross the placenta.

* **Immunoglobulin E (IgE):**
* Site: It presents in a very low concentration in the serum.
* Structure: It is formed of monomer with two antigen binding sites.
* Biological activities:
* It plays an important role in type-l hypersensitivity reaction as it cause degranulation of the mast cells & basophils with release of histamine & other inflammatory mediators.
* It plays an important role in immunity against parasitic infestation.
* It doesn't cross placenta or fix the complement.

* **Immunoglobulin D (IgD):**
* Site: It presents in a very low concentration in the serum.
* Structure: Monomer with two antigen binding sites.
* Biological activities: It is expressed on the surface of B-lymphocytes acting as antigen receptors