The novel chemical platform formed by the branched piperazine-2,5-dione peptide derivatives (2,5-diketopiperazines) for creating non-invasive biologically active peptidomimetics has been developed. A successful application of this approach to orally available hemostimulatory peptidomimetics was demonstrated for all-L cyclopeptide from the Glu-Trp-peptide family. In the 1980s, we have separated and characterized a number of dipeptides from the thymus homogenate. The most active peptide Glu-Trp has been studied and developed into the immunostimulating drug Thymogen. The inversion of the amino acid optical form endows the dipeptides with suppressor properties: D-Glu-D-Trp-OH and D-Glu-(D-Trp)-OH, inhibit proliferation of hemopoietic progenitors in the intact bone marrow. Based on the peptide D-Glu-(D-Trp)-OH, the new immunosuppressive drug Thymodepressin has been prepared. In this work, we applied the platform mentioned above to the design and synthesis of orally active hemosuppressive Thymodepressin® analogs. The novel data for the hemosuppressor activity of the dipeptide D-Glu(D-Trp-OH)-OH and its cyclopeptide analogs are discussed. A new example is presented of a rare phenomenon when enantiomeric molecules demonstrate reciprocal (i.e., opposite) biological activities.
Keywords: 2,5-Piperazine-dions; Hemosuppressors; Peptidomimetics; Reciprocal activity; Synthetic peptides.
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