The Revolution in Insect Neuropeptides Illustrated By

The Revolution in Insect Neuropeptides Illustrated By

Invited Trends Article The Revolution in Insect Neuropeptides Illustrated by the Adipokinetic Hormone/Red Pigment-Concentrating Hormone Family of Peptides Gerd Gäde Zoology Department, University of Cape Town. Rondebosch 7700, Republic of South Africa Z. Naturforsch. 51c, 607-617 (1996) received April 8/July 2, 1996 Insect Neuropeptides, RP-HPLC, Edman Degradation, Mass Spectrometry, Bioassays The last decade has seen a surge in the knowledge on primary structures of insect neuro­ peptides. Particularly successful were isolations and sequence determinations of more than 30 members of the adipokinetic hormone/red pigment-concentrating hormone (AKH/RPCH) family of peptides. This brief overview describes the techniques used to obtain data on purifi­ cation and structure such as high performance liquid chromatography, Edman sequencing and mass spectrometry. Moreover, a short account on the precursors and on the multiple functions of the peptides of the AKH/RPCH family in various crustacean and insect species is given. Introduction Most of these peptides are stored in neurohae- Peptidergic neurosecretion plays a major role in mal organs in very small quantities (a few pmoles cellular communication in almost all animals and per insect). Therefore, the primary structure of the many neuropeptides have been structurally eluci­ first insect peptide, the pentapeptide proctolin, was only published about 10 years after the first dated. Therefore, it is not surprising that the ex­ pression “peptide revolution” was coined (see isolation studies were undertaken (Starratt and Reichlin, 1980). In insects, too, many physiologi­ Brown, 1975) after the compound was isolated cal, developmental and behavioural processes are from 125 kg of whole cockroaches. In 1976, the affected by peptides produced in neurosecretory adipokinetic hormone Lom-AKH-I from locusts cells. These neuropeptides can be classified into was structurally characterised (Stone et al., 1976). three major categories (Gäde, 1996): The latter authors used as starting material the tis­ 1. Peptides which modify spontaneous muscle sue where the peptide was synthesised and stored, the corpora cardiaca, and thus started the isolation contractions, such as the myokinins, myotropins, tachykinins, sulfakinins, pyrokinins and FMRF process with a less contaminated source. Further­ amide-related peptides. more, structural information was achieved by uti­ lising the new emerging techniques for peptide 2. Peptides which control reproduction, growth characterisation, in this case mass spectrometry. and development, such as prothoracicotropic hor­ mones, allatotropins and allatostatins, eclosion The last decade in particular has seen a surge in hormone, diapause hormone and folliculostatins the identification of neuropeptides, mainly due to and gonadotropins. refinements in physical-chemical techniques. To 3. Peptides which regulate physiological homeo­ date, about 180 primary structures of insect neuro­ stasis and metabolism, such as diuretic and antidi­ peptides are known (Gäde, 1996) but each month uretic peptides and adipokinetic and hypertrehalo- new ones are elucidated. This explosion of struc­ tural information could only happen after major saemic hormones. progress had been made in improving existing methodologies for isolating peptides by liquid chromatography and for sequencing peptides and detecting amino acid derivatives; This short review Reprint requests to Prof. Gerd Gäde. article outlines briefly the methods for purification Fax: +27216503301. and structure determination, using the metabolic 0939-5075/96/0900-0607 $ 06.00 © 1996 Verlag der Zeitschrift für Naturforschung. All rights reserved. D Dieses Werk wurde im Jahr 2013 vom Verlag Zeitschrift für Naturforschung This work has been digitalized and published in 2013 by Verlag Zeitschrift in Zusammenarbeit mit der Max-Planck-Gesellschaft zur Förderung der für Naturforschung in cooperation with the Max Planck Society for the Wissenschaften e.V. digitalisiert und unter folgender Lizenz veröffentlicht: Advancement of Science under a Creative Commons Attribution Creative Commons Namensnennung 4.0 Lizenz. 4.0 International License. 608 G. Gäde • Trends Article: Revolution in Insect Neuropeptide peptides of the adipokinetic hormone/red pig­ hydrophobic solvent is acetonitrile. To increase the ment-concentrating hormone (AKH/RPCH) fam­ resolving power for certain peptides, ion-pairing ily as examples. Thereafter, this family is briefly reagents such as trifluoroacetic acid or heptafluor- introduced by discussing some of their functions obutyric acid are added to the solvents. and modes of action. Since the corpora cardiaca, which are the source of synthesis and storage for the AKH/RPCH pep­ tides in insects, contain these peptides in relatively Methods high quantities (which is in contrast to other insect A prerequisite for detecting the peptides during neuropeptides), these tissues are routinely dis­ isolation is a reliable and relatively fast bioassay. sected and subsequently extracted in 80% metha­ Here the adipokinetic test is described briefly. nol. The methanolic extracts are subjected to RP- When extracts of corpora cardiaca of locusts were HPLC in a gradient mode and excellent separation injected into a resting locust, an increase in the of the AKH/RPCH peptides occurs (Gäde et al., concentration of lipids (diacylglycerols) in the 1984). Thus, in a single-step purification scheme haemolymph was measured (see Gäde, 1990a). the peptides are sufficiently pure for structural These observations lead to the development of a work to assign a sequence. If, however, whole simple bioassay which in our laboratory is rou­ heads are used at the start of the purification, tinely performed as follows: at time zero a 1 jil much more contamination is introduced and more sample of haemolymph from Locusta migratoria is purification steps are necessary (Hayes et al., 1986; taken with a microcapillary. Subsequently, the lo­ Liebrich et al., 1995). For further reading on liquid cust is injected with 10 [il of the solution to be chromatography methodology the reader is re­ analysed (a corpus cardiacum extract or a fraction ferred to Esch et al. (1983); Schooley et al. (1990); from HPLC separation), and a second 1 |il haemo­ Serwe and Meyer (1994). lymph sample is taken 90 min post-injection. Sequencing of peptides is achieved by the Ed- Analysis of the lipid content in the haemolymph man degradation process, in which the N-terminal samples is achieved by the sulphophosphovanillin amino acid of a peptide is cleaved off the peptide method. The developed pink colour is easily read and this residue is subsequently derivatised and in a simple filter photometer at about 450nm, and identified. For this, automated sequencers have the amount of lipid quantified by the use of a stan­ been built whose technology has been constantly dard curve. For further reading on this adipoki­ improved. The current generation of gas phase or netic bioassay and on a hypertrehalosaemic one, pulsed liquid phase sequencers have built-in facili­ the reader is referred to Stone and Mordue (1980) ties for on-line RP-HPLC separation of the deri­ and Gäde (1990a). vatised amino acids in the microbore fashion, and The development of column packing materials are thus able to operate in the range of about 10 of micron size which could sustain high mechanical pmol (Lottspeich et al., 1994). For Edman degra­ force without collapsing was a prerequisite for the dation a free N-terminal amino acid is needed. The introduction of high performance (pressure) liquid peptides of the AKH/RPCH family, however, are chromatography (HPLC). Such materials are char­ all blocked at the N-terminus by a pyroglutamate acterised by their toleration of a high flow rate of residue. This residue has to be cleaved off enzy­ the passing liquid at a high pressure. HPLC is matically by pyroglutamate aminopeptidase; in mainly used in its reversed-mode (RP-HPLC) for this process a new peptide, the des-pyroglutamate the separation of peptides: it is a form of partition fragment, is produced. This has a free N-terminus, chromatography in which the starting mobile and thus can be automatically sequenced. phase is more polar than the stationary phase. The Besides the blocked N-terminus, members of latter is silica whose silanol groups are chemically the AKH/RPCH family of peptides contain a fur­ derivatised with organosilanes such as octadecyl ther post-translational modification: they are also (C-18) for example. In peptide purification such blocked at the C-terminus by an amide group. This C-18, but also C-8 and C-4, supports are widely cannot be detected by Edman degradation and used. When the column is developed in a gradient therefore mass spectrometric methods are used to mode, the polar solvent is often water, whereas the clarify the sequence. Since some amino acids have G. Gäde • Trends Article: Revolution in Insect Neuropeptide 609 the same mass (for example: leucine, isoleucine referred to the following articles: Shimonishi and and hydroxyproline: 113 mass units), a combina­ Takao (1990); Rinehart et al. (1990); Weigt et al. tion of Edman degradation and mass spectrometry (1994); Bahr et al. (1994); Metzger and Eckers- has to be employed. Mainly, mass spectrometry is korn (1994). used to measure the mass of a peptide accurately, thereby confirming sequencing results achieved The AKH/RPCH Family with other methods. However, modern mass spec­ In the 1960’s peptides were discovered in the trometry is also able

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