Cell-free production of the silkworm sex pheromone bombykol

Pheromone gland-specific fatty-acyl reductase of the silkmoth, Bombyx mori

The C10-C18 unsaturated, acyclic, aliphatic compounds that contain an oxygenated functional group (alcohol, aldehyde, or acetate ester) are a major class of sex pheromones produced by female moths. In the biosynthesis of these pheromone components, the key enzyme required to produce the oxygenated functional groups is fatty-acyl reductase (FAR). This enzyme converts fatty-acyl pheromone precursors to their corresponding alcohols, which, depending on the moth species, can then be acetylated or oxidized to the corresponding aldehydes. Despite the significant role this enzyme has in generating the species-specific oxygenated constituents of lepidopteran sex pheromones, the enzyme has yet to be fully characterized and identified. In experiments designed to characterize a pheromone-gland-specific FAR in the silkmoth, Bombyx mori, we have isolated a cDNA clone encoding a protein homologous to a FAR from the desert shrub, Simmondsia chinensis, commonly known as jojoba. The deduced amino acid sequence of this clone predicts a 460-aa protein with a consensus NAD(P)H binding motif within the amino terminus. Northern blot analysis indicated that 2-kb transcripts of this gene were specifically expressed in the pheromone gland at 1 day before adult eclosion. Functional expression of this gene in the yeast Saccharomyces cerevisiae not only confirmed the long-chain FAR activity, but also indicated a distinct substrate specificity. Finally, the transformed yeast cells evoked typical mating behavior in male moths when cultured with the pheromone precursor fatty acid, (E,Z)-10,12-hexadecadienoic acid.

Chemical characterization of cytoplasmic lipid droplets in the pheromone-producing cells of the silkmoth, Bombyx mori

Accumulation of lipid droplets within the cytoplasm is a common feature of the pheromone gland cells of many lepidopteran species. The cytoplasmic lipid droplets in the pheromone-producing cells of the silkmoth, Bombyx mori, were effectively extracted by dipping the trimmed glands in acetone for 10 min. In order to analyze the components originating from the lipid droplets, we separated the acetone extracts prepared before and after adult eclosion using HPLC, and specified the peaks showing a similar pattern of stage-dependence to that in the morphological change of the lipid droplets previously reported by Fónagy et al. (Arthropod Struct. Dev. 30 (2001) 113). Finally, we specified the peaks #1-5 and #1a-4a separated by reversed-phase HPLC as lipid droplet contents. Structure elucidation using FAB-MS and MS-MS analyses confirmed that they were triacylglycerols (TGs), and 12 species of TGs were identified as lipid droplet contents. Fatty acyl groups contained in these TGs were limited to five unsaturated C16 and C18 fatty acyl groups (delta 11-hexadecenoate, delta 10,12-hexadecadienoate, delta 9-octadecenoate, delta 9,12-ocatadecadienoate, and delta 9,12,15-ocatadecatrienoate), including the pheromone precursor delta 10,12-hexadecadienoate as a major component. Digestion with porcine pancreatic lipase confirmed that three major TGs eluted in the peaks #3-5 all contained C18 fatty acyl groups at the sn-2 position, indicating that the pheromone precursor is sequestered preferentially at the sn-1 and/or sn-3 position. Present results combined with the fact that the morphological change of the lipid droplets is under the control of PBAN indicate that the role of the cytoplasmic lipid droplets in the pheromone-producing cells is to store the pheromone precursor in the form of TGs and to provide it for pheromone production in response to the external signal of PBAN.

Physiological status and change of cytoplasmic lipid droplets in the pheromone-producing cells of the silkmoth, Bombyx mori (Lepidoptera, Bombycidae)

Changes in size and number of cytoplasmic lipid droplets were quantified in the pheromone gland (PG) of Bombyx mori before and after adult eclosion. Two days before eclosion, size and number of droplets are small (diameter is 2-7 microm) and few. The formation and significant proliferation of larger droplets (5-12 microm) take place between 2 days and 1 day before eclosion. From the day of emergence until day 3 a fluctuation in size and number of lipid droplets during the photophase (4h intervals) is observed. The changes are more characteristic and dramatic on the day of emergence and first day, while attenuation of these changes can be observed from the second day and seems to disappear by day 4. Bombykol content, at each respective time, is in good correlation with the observed fluctuation in lipid droplet parameters. Highest bombykol production daily is observed towards the early evening, when lipid droplets are the smallest (2-4 microm) and most numerous. By day 4, however, this regularity also ceases. In 24h old mated females PG cell structure is quite similar to newly emerged ones. In glands of 72 h old decapitated females the formation of 'extra' large lipid droplets is remarkable. In vivo pheromone biosynthesis activating neuropeptide (PBAN) treatment, however, induced the formation of many small droplets, although numerous larger ones also remained. The morphological changes in lipid droplets and cellular dynamics associated with the external signal of PBAN in the PG suggest a storage-pool function of the lipid droplets.

Characterization of acyl-CoA-binding protein (ACBP) in the pheromone gland of the silkworm, Bombyx mori

Various fatty acyl-CoAs are involved as intermediates or precursors of sex pheromone components in the biosynthetic pathway of the pheromones in many lepidopteran insects. We have purified a 10-kDa protein from the cytosolic fraction of Bombyx mori pheromone glands by using affinity chromatography with a palmitoyl-CoA-agarose column and reversed-phase HPLC. Amino acid sequence analysis of the fragment peptides obtained from the purified protein, and a homology search, revealed that this protein was a member of acyl-CoA-binding proteins (ACBPs). MALDI-TOF mass spectral analysis of the purified protein and cloning of the gene from a pheromone gland cDNA library confirmed B. mori ACBP to be a 90 amino acid protein with 78.9% identity to that of Manduca sexta ACBP. The secondary structure of the recombinant B. mori ACBP was determined by NMR spectroscopy. Northern blot analysis demonstrated that B. mori ACBP was predominantly expressed in the pheromone gland and the corresponding transcript was expressed from the day before adult eclosion. Present results suggest that ACBP plays a significant role in the production of sex pheromones regulated by the neurohormone, pheromone biosynthesis activating neuropeptide (PBAN).

Pheromone-producing cells in the silkmoth, Bombyx mori: identification and their morphological changes in response to pheromonotropic stimuli

A method to isolate functional clusters of viable pheromone gland cells of Bombyx mori was developed. The 8th-9th intersegmental invaginated membrane corresponding to the pheromone gland was dissected, trimmed and separated into two distinct layers, the outer and inner layers, by enzymatic digestion with papain. The outer layer mainly consists of cuticle, while the inner layer consists of homogeneous cells with many refractile granules. The solubilized microsome fraction prepared from the inner layer retained the ability to produce bombykol in vitro, whereas the outer layer fraction did not produce bombykol. Moreover, in tissue incubations, the inner layer - but not the outer layer - produced bombykol in response to the pheromonotropic peptide TKYFSPRLamide, ionomycin and calcium ionophore A23187. These results indicate that the inner-layer cells are indeed the pheromone-producing cells, which retain their functional integrity after separation with papain. These cells could be cultured successfully in Grace's medium for at least 5days.The presence or absence of pheromonotropic stimuli prior to dissection greatly influenced the size, number and distribution of refractile granules in the cytoplasm of the pheromone-producing cells. Staining with Nile Red proved that these refractile granules were lipid droplets. When pheromone production was studied under normal conditions or stimulated in decapitated females with pheromone-biosynthesis-activating neuorpeptide (PBAN) charge, the size of lipid droplets observed in the pheromone-producing cells reduced prominently and their number increased dramatically with time. By contrast, when pheromone production was suppressed by decapitation, the size and number of the lipid droplets remained constant. Lipid droplets observed in the pheromone-producing cells could be carriers of pheromone precursors and/or the pheromone bombykol. The present results suggest that the isolated cell preparation can be used for quantitative visualization of the cellular dynamics during pheromone production in B. mori.

Involvement of calcineurin in the signal transduction of PBAN in the silkworm, Bombyx mori (Lepidoptera)

In several moth species sex pheromone production in the pheromone gland is regulated by a neurohormone, pheromone biosynthesis activating neuropeptide (PBAN). In Bombyx mori it is suggested that PBAN, after binding to the cell-surface receptor, primarily activates a plasma membrane receptor-activated Ca2+ channel to increase cytosolic levels of Ca2+, and Ca2+/calmodulin complex directly or indirectly activates a phosphoprotein phosphatase, which in turn elicits activation of acyl CoA reductase (the key enzyme under PBAN control) through dephosphorylation, resulting in pheromone (bombykol) production. The effect of cyclosporin A (CsA) and FK 506, specific inhibitors of calcineurin (phosphoprotein phosphatase 2B) was studied on the sex pheromone production, in B. mori. The in vitro experiments showed that both chemicals exerted a dose-dependent inhibitory action when they were co-incubated with TKYFSPRL amide (Hez-PBAN fragment peptide). Practically, no difference was detected between the two chemicals in the tested doses (0.025-1250 microM). When effects of CsA or FK 506 were studied on cell-free production of bombykol by using microsomal fraction no inhibition was detected. Since microsomal fraction contains the acyl CoA synthetase, the rate-limiting acyl CoA reductase and the precursor, bombykol is produced if supplied with CoA, ATP and NADPH. Thus, the inhibitory action of CsA and FK506 under in vitro conditions should occur before the step of acyl group reduction and the effect is likely to be attributable to the inhibition of calcineurin in the signal transduction cascade mechanism of PBAN, in B. mori. The existence of calcineurin in the pheromone gland by using Western blot analysis is also demonstrated.