Prophenoloxidase, a melanin-synthesizing enzyme, is considered to be an important arthropod immune protein. In mosquitoes, prophenoloxidase has been shown to be involved in refractory mechanisms against malaria parasites. In our study we used Anopheles gambiae, the most important human malaria vector, to characterize the first arthropod prophenoloxidase gene at the genomic level. The complete nucleotide sequence, including the immediate 5 flanking sequence (؊855 bp) of the prophenoloxidase 1 gene, was determined. The gene spans 10 kb and is composed of five exons and four introns coding for a 2.5-kb mRNA. In the 5 flanking sequence, we found several putative regulatory motifs, two of which were identified as ecdysteroid regulatory elements. Electrophoretic mobility gel-shift assays and supershift assays demonstrated that the Aedes aegypti ecdysone receptor͞Ultraspiracle nuclear receptor complex, and, seemingly, the endogenous Anopheles gambiae nuclear receptor complex, was able to bind one of the ecdysteroid response elements. Furthermore, 20-hydroxyecdysone stimulation was shown to up-regulate the transcription of the prophenoloxidase 1 gene in an A. gambiae cell line.insect immunity ͉ gene regulation ͉ development ͉ melanization T he melanizing effects of phenoloxidases were identified nearly 60 years ago in grasshopper eggs (1). Since then, tyrosinase-type phenoloxidases (monophenol, L-dopa: oxidoreductase; EC 1.14.18.1), which are widely distributed in both prokaryotes and eukaryotes, have been characterized as coppercontaining enzymes catalyzing two key reactions in the synthesis of melanin (2). Tyrosinase-type phenoloxidase (PO)-mediated melanin synthesis plays a major role in wound healing and the formation of melanotic capsules that sequestrate parasites, parasitoids, and pathogens as they breach the cuticular exoskeleton or midgut epithelium or enter into the hemocoel of the insect (3). The role of PO in melanotic encapsulation has bestowed upon this enzyme the status of ''immune protein.'' Because melanization͞encapsulation can lead to refractoriness of certain Plasmodium species, the genes controlling melanization͞encapsu-lation in Anopheles gambiae are considered to be prime candidates for genetic manipulation of mosquito vectors as a future means of malaria control (4, 5). At present, six prophenoloxidase cDNAs have been cloned and sequenced from A. gambiae (6)(7)(8).Ashida (9) demonstrated that PO from Bombyx mori exists in a zymogen form and is activated via a serine proteinase cascade, which is set into motion by injury or microbial challenge (3, 10). To date, all insect prophenoloxidases (PPOs) seem to follow this activation pattern. However, apart from studies on the hormonal regulation of granular cuticular phenoloxidase synthesis (11) and a very recent study by Müller et al. (8), in which the authors show that 20-hydroxyecdysone (20E) is able to modulate PPO gene expression in A. gambiae cells, little is known about arthropod PPO gene regulation or direct hormonal regulation of insect immune ...
