Avidin-biotin molecules

Use of avidin-biotin molecules in immunocytochemistry dramatically increases the detection sensitivity and greatly increases the flexibility of labels. The power of avidin-biotin is their ability to bind with extremely high affinity to each other. In addition, the ligand (biotin) and receptor (avidin) are unique for each other. There are multiple ways that labels can be conjugated to avidin or biotin and then used in immunocytochemistry. This section will introduce these molecules and show a several methods for their use in immunocytochemistry. 

Biotin is a very small (244 Da) molecule, also known as vitamin By, that binds avidin with extremely high affinity. Each biotin has just one avidin-binding domain 

---

A similar type of biotin-dendritic multimer also was used to boost sensitivity in DNA microarray detection by 100-fold over that obtainable using traditional avidin-biotin reagent systems (Stears, 2000 Striebel et al., 2004). With this system, a polyvalent biotin dendrimer is able to bind many labeled avidin or streptavidin molecules, which may carry enzymes or fluorescent probes for assay detection. In addition, if the biotinylated dendrimer and the streptavidin detection agent is added at the same time, then at the site of a captured analyte, the biotin-dendrimer conjugates can form huge multi-dendrimer complexes wherein avidin or streptavidin detection reagents bridge between more than one dendrimer. Thus, the use of multivalent biotin-dendrimers can become universal enhancers of DNA hybridization assays or immunoassay procedures. 

In another example, ligands can be biotinylated with a cleavable biotinylation reagent and then incubated with receptor molecules. The resulting complex can be isolated by affinity chromatography on immobilized (strept)avidin. Final purification of the ligand-receptor can be accomplished by cleaving the biotin modification sites while the complex is still bound to the support. The receptor complex thus can be eluted from the column without the usual harsh conditions required to break the avidin-biotin interaction. 

Figure 22.21 Antibodies may be conjugated to liposomes using an indirect approach incorporating a (strept)avidin-biotin system. Biotinylated liposomes may be complexed with biotinylated antibodies using (strept)avidin as a bridging molecule or may be complexed with an antibody-(strept)avidin conjugate.

The following sections discuss the concept and use of the (strept)avidin-biotin interaction in bioconjugate techniques. Preparation of biotinylated molecules and (strept)avidin conjugates also are reviewed with suggested protocols. For a discussion of the major biotinylation reagents, see Chapter 11 and Chapter 18, Section 3. 

A common application for (strept)avidin-biotin chemistry is in immunoassays. The specificity of antibody molecules provides the targeting capability to recognize and bind particular antigen molecules. If there are biotin labels on the antibody, it creates multiple sites for the binding of (strept)avidin. If (strept)avidin is in turn labeled with an enzyme, fluorophore, etc., then a very sensitive antigen detection system is created. The potential for more than one labeled (strept)avidin to become attached to each antibody through its multiple biotinylation sites is the key to dramatic increases in assay sensitivity over that obtained through the use of antibodies directly labeled with a detectable tag. 

Other fluorescent probes also may be used to label (strept)avidin molecules for detection of biotinylated targeting molecules. Chapter 9 reviews many additional fluorescent labels, such as quantum dots, lanthanide chelates, and cyanine dye derivatives, all of which may be used in similar protocols to create detection conjugates for (strept)avidin-biotin-based assays. 

The immobilization proceeded as follows horseradish peroxidase (HRP) was biotinilated with biotinamidocaproate AT-hydroxysuccinimide ester to obtain biotinylated HRP with two biotin molecules per enzyme molecule. Avidin was immobilized on polystyrene support beads using the carbodiimide method. This procedure was followed by an attachment of the disubstituted biotinylated HRP... 

---