STRUCTURE-ACTIVITY RELATIONSHIP – H1 RECEPTOR ANTAGONISTS

The structure-activity relationship (SAR) for H1 receptor antagonists, commonly known as antihistamines, involves understanding how the chemical structure of a compound influences its pharmacological activity in blocking the H1 receptors. Here are some key aspects of the SAR for H1 receptor antagonists:

1. Aryl groups

The diaryl substitution is essential for significant H1 affinity. It is present both in first generation and second-generation antihistamines. The optimal antihistaminic activity depends on the co-planarity of two aryl substitutions.

Active aryl substitutions are as follows:

Ar is phenyl and hetero aryl group like 2-pyridyl

Ar1-Aryl or aryl methyl group

2. Nature of X

Antihistamines with X = carbon (pheniramine series) represent the stereo-selective receptor binding to the receptors due to its chirality.

The active substitutions of X are as follows:

Where X = oxygen (aminoalkyl ether analog)

X = nitrogen (ethylene-diamine derivative)

X = carbon (mono amino propyl analogue)

2. The Alkyl Chain

Most of the antihistamines have an ethylene chain, and branching of this chain results in a less active compound. All antihistamines contain this general chain.

3. Terminal nitrogen atom:

The terminal N-atom should be a 3° amine for maximum activity. The terminal nitrogen may be a part of a heterocyclic ring. For example, antazoline and chlorcyclizine retain high antihistaminic activity. The amino moiety deserves the protonation on interaction with the H1 receptor due to the basicity with pka 8.5-10.

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