It is known for almost 25 years that the corpora cardiaca (neurosecretory glands) of cicadas synthesize two isobaric peptides with hypertrehalosaemic activity denominated Placa-HrTH-I and II. Both decapeptides have the same amino acid sequence (pGlu-Val-Asn-Phe-Ser-Pro-Ser-Trp-Gly-Asn amide) and mass, but differ in their chromatographic retention time. The slightly more hydrophobic peptide, Placa-HrTH-II, co-elutes with the synthetic peptide of the same sequence and is less active in biological assays than Placa-HrTH-I. Ion mobility separation in conjunction with high-resolution mass spectrometry detected the differing structural feature between both peptides in the region Pro6-Ser7-Trp8. Here, it was shown that Placa-HrTH-I co-eluted with a synthetic peptide containing D-Pro in position 6, while dextrorotatory amino acid residues in positions 7 and 8 could be excluded in this way. Amino acid hydrolysis followed by chiral analysis using a relative of Marfey's reagent was then used to validate the presence of D-Pro in Placa-HrTH-I. Interestingly, this experiment unambiguously proved both the absence of D-Pro and the presence of L-Pro in Placa-HrTH-I. Racemization as a reason for the structural differences of the twin adipokinetic hormones was hence ruled out and cis-trans isomerism as the likely alternative came into focus. It remains to be investigated if Pro6 in cis-conformation is indeed present and responsible for the increased bioactivity of Placa-HrTH-I.
Keywords: AKH; Acid hydrolysis; Conformation; Isomer; Marfey’s reagent; Mass spectrometry.