The highly cytostatic didemnins contain a 23-membered cyclopeptolide with a side chain attached to the backbone through the amine group of threonine. Thirty-six derivatives varying the side chain were prepared, but only compounds with D-MeLeu attached to threonine show remarkable biological activities. To protect the macrocycle from degradation by lipases the two ester bonds were replaced successively by amide bonds. Although these variations have a major effect on the conformation and rigidity of the ring, the compound which contains exclusively amide bonds is highly active, equivalent to acetyl-didemnin A.
In Bacillus subtilis it was shown that the membrane potential (delta psi) has to reach a threshold value of -180 to -190 mV for efficient uptake of dihydrostreptomycin to occur. The magnitude of delta psi is raised above this threshold, and dihydrostreptomycin uptake greatly enhanced, not only by dihydrostreptomycin itself (autostimulation) and by other miscoding aminoglycoside antibiotics, but also by puromycin, bacitracin and N,N'-dicyclohexylcarbodiimide. Stimulation of uptake by dihydrostreptomycin or puromycin was dependent on a specific interference with ongoing protein synthesis. Thus, chloramphenicol prevented the stimulating effect of puromycin by lowering the magnitude of delta psi. Although normally severely antagonizing streptomycin accumulation, K+, as well as spermidine and putrescine, which are known to stabilize ribosomes, consequently enhanced autostimulation of dihydrostreptomycin uptake in a K+-retention mutant with impaired protein synthesis. It is suggested that miscoding aminoglycosides and puromycin both enhance dihydrostreptomycin uptake by increasing delta psi due to ion fluxes, which are themselves caused by a dramatic stimulation of intracellular proteolysis of faulty proteins.
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