Chemical synthesis and characterisation of the complement C5 inhibitory peptide zilucoplan.

The complement component C5 inhibitory peptide zilucoplan is currently in phase III clinical trials for myasthenia gravis (MG). Despite being at an advanced stage of clinical development, there have been no published reports in the literature detailing its chemical synthesis. In this work, we describe an approach for the chemical synthesis of zilucoplan and validate that the synthesised compound blocks LPS-induced C5a production from human blood.

Comparative Analysis of Novel Complement-Targeted Inhibitors, MiniFH, and the Natural Regulators Factor H and Factor H-like Protein 1 Reveal Functional Determinants of Complement Regulation.

The serum proteins factor H (FH), consisting of 20 complement control protein modules (CCPs), and its splice product FH-like protein 1 (FHL-1; consisting of CCPs 1-7) are major regulators of the alternative pathway (AP) of complement activation. The engineered version of FH, miniFH, contains only the N- and C-terminal portions of FH linked by an optimized peptide and shows ∼ 10-fold higher ex vivo potency. We explored the hypothesis that regulatory potency is enhanced by unmasking of a ligand-binding site in the C-terminal CCPs 19-20 that is cryptic in full-length native FH. Therefore, we produced an FH variant lacking the central domains 10-15 (FHΔ10-15). To explore how avidity affects regulatory strength, we generated a duplicated version of miniFH, termed midiFH. We compared activities of FHΔ10-15 and midiFH to miniFH, FH, and FHL-1. Relative to FH, FHΔ10-15 exhibited an altered binding profile toward C3 activation products and a 5-fold-enhanced complement regulation on a paroxysmal nocturnal hemoglobinuria patient's erythrocytes. Contrary to dogma, FHL-1 and FH exhibited equal regulatory activity, suggesting that the role of FHL-1 in AP regulation has been underestimated. Unexpectedly, a substantially increased avidity for complement opsonins, as seen in midiFH, did not potentiate the inhibitory potential on host cells. In conclusion, comparisons of engineered and native FH-based regulators have identified features that determine high AP regulatory activity on host cells. Unrestricted availability of FH CCPs 19-20 and an optimal spatial orientation between the N- and C-terminal FH regions are key.

New compstatin peptides containing N-terminal extensions and non-natural amino acids exhibit potent complement inhibition and improved solubility characteristics.

Compstatin peptides are complement inhibitors that bind and inhibit cleavage of complement C3. Peptide binding is enhanced by hydrophobic interactions; however, poor solubility promotes aggregation in aqueous environments. We have designed new compstatin peptides derived from the W4A9 sequence (Ac-ICVWQDWGAHRCT-NH2, cyclized between C2 and C12), based on structural, computational, and experimental studies. Furthermore, we developed and utilized a computational framework for the design of peptides containing non-natural amino acids. These new compstatin peptides contain polar N-terminal extensions and non-natural amino acid substitutions at positions 4 and 9. Peptides with α-modified non-natural alanine analogs at position 9, as well as peptides containing only N-terminal polar extensions, exhibited similar activity compared to W4A9, as quantified via ELISA, hemolytic, and cell-based assays, and showed improved solubility, as measured by UV absorbance and reverse-phase HPLC experiments. Because of their potency and solubility, these peptides are promising candidates for therapeutic development in numerous complement-mediated diseases.

New inhibitors of the complement system inspired in K76-COOH. A SAR study of filifolinol derivatives through modifications of the C3' position.

A new series of tricyclic carboxylic acids with a 3H-spiro[benzofuran-2,10-cyclohexane] skeleton were synthesized from filifolinol, as analogs of the natural complement inhibitor K76-COOH. Their complement inhibitory activity was determined aiming to probe the importance of structural characteristics of the alicyclic part of K76-COOH. The presence and stereochemistry of O- and N-functionalities on C3' of the filifolinol derivatives are relevant for biological activity. The IC50 values of the most potent compounds were comparable or surpassed the activity of K76-COOH. The results also suggest that the diol moiety of the natural product may be useful for improving compound solubility.

Drug evaluation: the C5a receptor antagonist PMX-53.

Peptech is developing PMX-53, a complement C5a inhibitor for the potential treatment of inflammatory disorders, including rheumatoid arthritis and psoriasis. Phase Ib/IIa clinical trials have been completed for both indications.