Ubiquitin fragments: their known biological activities and putative roles

Solid-phase synthesis of peptides containing aminoadipic semialdehyde moiety and their cyclisations

Pathological levels of oxidative stress (OS) have been implicated in many diseases including diabetes mellitus, neurodegenerative diseases, inflammatory diseases, atherosclerosis, and cancer. Studies of oxidative stress are however complicated by the low concentration of oxidation products. To resolve this problem, we tested a new derivative of aminoadipic semialdehyde (Fmoc-Aea-OH) in the solid-phase synthesis of carbonylated peptides. We prepared a series of peptides with free and acetylated N-terminal amino groups using the Fmoc-Aea-OH reagent. LC-MS, ESI-MS, and MS/MS spectra confirmed the sequences of the modified peptides, although the LC-MS and ESI-MS spectra were dominated by signals corresponding to dehydration products. NMR studies of acetylated products revealed that the dominant product formed in this reaction contains a 1,2,3,4-tetrahydropyridine-2-carboxylic acid residue. Another side reaction in this system was the cleavage of the amide bond between the Aea residue and the amino acid moiety preceding it resulting in the formation of a side product with a six-membered ring at the N-terminus (2,3,4,5-tetrahydropyridine-2-carboxylic acid residue). We found that, depending on the peptide sequence, one of those side products is predominant. Our work suggests new methods for the solid-state synthesis of peptides containing unnatural amino acids.

Dimeric analogs of immunosuppressive decapeptide fragment of ubiquitin

Our previous studies revealed that ubiquitin and its decapeptide fragment with the LEDGRTLSDY sequence, located on the exposed molecule loop, strongly suppressed the immune response. This suggested that the loop may serve as a functional epitope of ubiquitin molecule and that a possible mechanism of biological action of the synthesized peptides is associated with interfering in interactions of ubiquitin with other molecules. Ubiquitin is known to exist in oligomeric forms, which can interact with various oligomeric receptors. We designed and synthesized new dimeric analogs of the ubiquitin fragment, to probe whether dimeric peptides may have higher affinity towards the ubiquitin receptors responsible for immunosuppression, which are believed to form oligomeric structures. Three dimerization strategies, N-terminus to N-terminus, C-terminus to C-terminus, and N-terminus to C-terminus (head-to-tail) via PEG derivatives were used to synthesize the dimeric peptides on solid support. In the course of our research, we developed a new and straightforward procedure of dimerization where α-amino groups of the C-terminal lysine residues of two peptide fragments were linked by PEG spacer directly on solid support. The effect of dimeric analogs on the immunological response was tested in the AFC in vitro experiment. The immunological tests showed that the head-to-tail dimerization caused a more profound increase in the biological activity than other tested dimerization methods. Our results suggest that such orientation of peptide components may correspond to orientation of the hypothetic ubiquitin receptors responsible for the immunomodulatory activity.

A novel immunosuppressory peptide originating from the ubiquitin sequence

Ubiquitin is a conservative polypeptide present in every eukaryotic cell. Apart from its involvement in proteasomal degradation and other intracellular signal pathways, it was suggested to play an important role as the extracellular immunomodulator and antimicrobial agent. Moreover, ubiquitin-derived peptides were shown to express significant biological activities. Our previous studies showed a high immunosuppressive potency of the ubiquitin peptic hydrolysate in which we identified over 70 different peptides. The present work focuses on synthesizing the most abundant of these peptides and investigating their immunomodulatory potency. The peptide VKTLTGKTI possessed the highest immunosuppressory activity in AFC experiments, comparable to the previously described LEDGRTLSDY sequence (a previously discovered ubiquitin-derived peptide). Moreover, some of the investigated peptides expressed immunostimulatory effects. These findings support the idea that ubiquitin, together with products of its degradation, could represent a self-regulating immunoregulatory system. Peptide VKTLTGKTI was also tested for its activity to prolong the skin graft survival in mice. The results showed that the investigated peptide significantly extended the skin transplant rejection time, therefore it could be considered as a potential supplementary medicine in the post-transplantation therapy. Moreover, we synthesized two analogs of investigated peptides, first designed to mimic the non-linear epitope consisting of ubiquitin 16-21 and ubiquitin 52-57 fragments, and second designed to mimic the ubiquitin 5-13 hairpin. We also tested their immunosuppressory activity in in vitro experiments.