Muramyl peptides in mammalian tissues and their effects at the cellular level

Muramyl peptides (MPs), presumably breakdown products of bacterial cell walls, have been found in the brain, liver, and kidney of the rat. They exert multiple physiological effects on higher animals as immunoadjuvants, activators of macrophages, pyrogens, antitumor agents, inducers of contractility of smooth muscle, and promoters of slow-wave sleep, as well as nonspecific protectors of animals against infection. Structure-function relationships of these substances have been extensively studied, especially with respect to somnogenicity. In the role an intact muramyl ring is required, and the 1,6-anhydro form is active. The presence of free carboxyls or amides on the glutamyl and diaminopimelyl entities have important effects. The stereochemistry is crucial: the alanine adjacent to the N-acetylmuramyl entity must be L, and the glutamate must be D. Studies were carried out with murine macrophages to establish mechanisms of action of these glycopeptides. There are two populations of binding sites for MPs on those cells. When compounds of different structure are compared, binding ability correlates with pyrogenic and somnogenic activity. Serotonin competes with these agents for binding sites. Binding of that substance induces at least one macrophage response characteristic of the binding of MP.