Allosteric

In biochemistry, allosteric (from the Greek "allos" = different, "stereos" = fixed) describes the property of a protein - for example an enzyme or a receptor - to be influenced by the binding of a molecule to a site other than the active center.

An allosteric protein has:

• an active center (where the substrate binds) and
• an allosteric center (where a regulator molecule can bind).

When a molecule binds to the allosteric center of e.g. a receptor protein, this binding changes the spatial structure of the protein. This can have two effects:

1. Activation: The active site becomes more accessible: Enzyme/receptor becomes more active
2. Inhibition: The spatial structure of the active site is distorted or blocked: Enzyme/receptor is inhibited

Example of "allosteric inhibition": An inhibitor binds to the allosteric center of a kinase. The kinase changes its molecular structure. The substrate no longer fits into the active center. The activity decreases.

Significance in medicine: Allosteric modulation is important in the development of drugs because it can regulate more specifically (finer control than direct blockade) and often has fewer side effects.