Fundamentals of Medicinal Chemistry

Table 6.1 A comparison of the advantages and disadvantages of the solid support and in solution

techniques of combinatorial chemistry

On a solid support In solution

Reagents can be used in excess in order to drive

the reaction to completion

Reagents cannot be used in excess, unless

addition purification is carried out

Purification is easy: simply wash the support Purification can be difficult

Automation is easy Automation is difficult

Fewer suitable reactions In theory any organic reaction can be used

Scale-up relatively expensive Scale-up is easy and relatively inexpensive

Not well documented and time will be required
to find a suitable support and linker for a

specific synthesis

Only requires time for the development of the

chemistry

6.2 The solid support method

The solid support method originated with Merrifields solid support peptide syn-

thesis.Itusesresinbeadsthathavealargenumberoffunctionalgroupsattachedto

the surface by a variety of structures known as either ahandleor alinker(Figure

6.4). Each of these functional groups acts as the starting point for the synthesis of

one molecule of a product. Since a bead will possess in the order of 6 103

functional groups of the same type the amount of the product formed on one

beadisoftensufficientforstructuredeterminationandhighthroughputscreening.

Resin

bead

Linker

Functional

group Synthesis is carried

out at this site

Figure 6.4 A schematic representation of the resin beads used in combinatorial synthesis

The linker moves the point of substrate attachment away from the surface of

the bead. This has the effect of reducing steric hindrance, thereby making reaction

easier. The choice of linker will depend on the nature of the reactions used in the

proposed synthetic pathway (Figure 6.5). For example, an acid labile linker, such

as HMP (hydroxymethylphenoxy resin), would not be suitable if the reaction

pathway contained reactions that were conducted under strongly acidic condi-

tions. Consideration must also be given to the ease of detaching the product from

the linker at the end of the synthesis. The method employed must not damage the

required product but must also lend itself to automation.

In 1985 Houghton introduced histea bagmethod for the rapid solid phase

multiple peptide synthesis. In this technique the beads are contained within a

porous polypropylene bag. All the reactions, including deprotections, are

THE SOLID SUPPORT METHOD 117