Expression of the juvenile hormone esterase gene in the Colorado potato beetle, Leptinotarsa decemlineata: photoperiodic and juvenile hormone analog response.

Metamorphosis and reproduction in insects are controlled by juvenile hormone (JH). One of the factors, which regulate the JH titer in the hemolymph, is the activity of juvenile hormone esterase (JHE). JHE from the Colorado potato beetle, Leptinotarsa decemlineata, consists of two 57kDa subunits. In this study, the JHE-cDNA was used as a probe to examine where and when the gene is transcribed as well as how gene expression responds to photoperiodic treatment and to topical application with a JH analog, pyriproxyfen. JHE transcripts were almost exclusively found in RNA extracts from fat body tissue in both larvae and adults. JHE-mRNA levels in the fat body correlated positively with levels of JHE activity in the hemolymph. In the last larval instar, high levels of JHE-mRNA were found in the feeding stage. In adults, reared under short-day conditions, JHE-mRNA levels were high between day 2 and day 9, which correlated with high JHE activity in the hemolymph. During these conditions, the JH titer decreases in preparation for pupation and diapause, respectively. The JHE-mRNA levels and JHE activity in the hemolymph were higher in short-day than in reproductive long-day adults. If the JH analog pyriproxyfen was applied to animals of the last larval instar on day 0 or day 3, JHE gene expression was enhanced. In contrast, if pyriproxyfen was applied to short-day adults on day 1 or day 4, the mRNA levels and the JHE activity in the hemolymph were suppressed to levels similar to those found in long-day adults. Thus, transcription of JHE is dependent on developmental stage, tissue, photoperiod and the level of its substrate JH.

A Peptide from the Male Accessory Gland in Leptinotarsa decemlineata: Purification, Characterization and Molecular Cloning.

Our interest in the male accessory glands (MAGs) of Leptinotarsa decemlineata was raised recently by our finding that certain cells produce a secretory substance that is recognized by one of our monoclonal antibodies (MAC-18), developed for the immunohistochemical demonstration of peptidergic neurons in the brain. We undertook to isolate this substance, presumably a peptide, to find out more about its role in the post-mating physiology of the recipient of this peptide, the mated female. This paper describes the purification and chemical characterization of the immunoreactive peptide from 100 pairs of male accessory glands. The peptide was purified by two subsequent reversed-phase-HPLC runs, and fractions were analyzed on Western blots that were immunostained by MAC-18. This indicated the presence of an 8 kDa peptide in the MAG. Partial analysis of the N-terminal amino acids by automated Edman degradation revealed a sequence of 40 amino acid residues. To obtain the full amino acid sequence of this peptide, the technique of reverse transcriptase PCR (3'RACE) was used. A PCR product of 350 bp was obtained, which encoded the 3'-end of the mRNA. After cloning and sequencing, this product contained most of the genetic information of the MAG peptide. The PCR product was also used as a probe for screening a cDNA library constructed from mRNA extracted from MAGs. The nucleotide sequence coding for the signal peptide was elucidated by 5'RACE. The cDNA and 5'RACE clones were analyzed and sequenced. The sequence of the cDNA clone contained an insert of 411 bp, which agreed well with the mRNA size measured by Northern blotting. Translation of the DNA sequences confirmed the data from partial amino acid sequence analyses and also predicted the remainder of the amino acid sequence. The entire peptide, designated Led-MAGP, consists of 74 residues; its mass was calculated and confirmed by mass spectrometry at 7971 Da. The peptide contains seven imperfect hexa-repeats, and this hexa-repeat sequence shows remarkable similarity to the hexa-repeat section of the chicken prion protein. The physiological function of the peptide has yet to be determined, but the hexa-repeat motif has recently been identified as the signal that induces internalization of the prion protein by coated-pit mediated endocytosis. Possible implications for the control of reproductive activities in L. decemlineata are discussed. Copyright 1997 Elsevier Science Ltd. All rights reserved

Influence of Pyriproxyfen on the Expression of Haemolymph Protein Genes in the Colorado Potato Beetle, Leptinotarsa decemlineata.

Pyriproxyfen, a potent juvenile hormone analogue for the Colorado potato beetle, Leptinotarsa decemlineata, was applied topically to last-instar larvae and short-day adults at different times after moulting. The effect of the hormone analogue on concentration and composition of protein in the haemolymph was studied at different intervals after pyriproxyfen application. The hormone analogue had little effect on total protein concentration of the haemolymph, but affected protein composition. Diapause protein 1 was prevented from being synthesized if pyriproxyfen was applied before the gene was activated and disappeared from the haemolymph if applied after the gene had been expressed. It therefore inactivated the gene for diapause protein in both larvae and adults. Pyriproxyfen also induced appearance of vitellogenin at both stages, indicating induction of expression of the vitellogenin gene. It also affected the stability of mRNA for diapause protein. The analogue caused mRNA for diapause protein 1 to disappear untimely compared to controls in last-instar larvae and short-day adults. The response of adults to the JHA was much more pronounced than that of larvae, although the analogue had a strong biological effect on last-instar larvae because it prevented metamorphosis at low doses. Copyright 1997 Elsevier Science Ltd. All rights reserved