Deborah M. Thompson

Full-length sequence, regulation and developmental studies of a second vitellogenin gene from the American dog tick, Dermacentor variabilis

Vitellogenin (Vg) is the precursor of vitellin (Vn) which is the major yolk protein in eggs. In a previous report, we isolated and characterized the first Vg message from the American dog tick Dermacentor variabilis. In the current study, we describe a second Vg gene from the same tick. The Vg2 cDNA is 5956 nucleotides with a 5775 nt open reading frame coding for 1925 amino acids. The conceptual amino acid translation contains a 16-residues putative signal peptide, N-terminal lipid binding domain and C-terminal von Willebrand factor type D domain present in all known Vgs. Moreover, the amino acid sequence shows a typical GLCG domain and several RXXR cleavage sites present in most isolated Vgs. Tryptic digest-mass fingerprinting of Vg and Vn recognized 11 fragments that exist in the amino acid translation of DvVg2 cDNA. Injection of virgin females with 20 hydroxyecdysone induced DvVg2 expression, vitellogenesis and oviposition. Using RT-PCR, DvVg2 expression was detected only in tick females after mating and feeding to repletion. Northern blot analysis showed that DvVg2 is expressed in fat body and gut cells of vitellogenic females but not in the ovary. DvVg2 expression was not detected in adult fed or unfed males. The characteristics that distinguish Vg from other similar tick storage proteins like the carrier protein, CP (another hemelipoglycoprotein) are discussed.

MECHANISM OF ACTION AND CLONING OF EPOXIDE HYDROLASE FROM THE CABBAGE LOOPER, TRICHOPLUSIA NI

The majority of the JH III epoxide hydrolase activity in last stadium day 3 (gate 1) wandering Trichoplusia ni was membrane bound with approximately 9% of the activity found in the cytosol. Both the microsomal and cytosolic JH epoxide hydrolases were stable, retaining 30% of their original activity after incubation at 4 degrees C for 15 days. 18O-labeled water underwent enzyme catalyzed regioselective addition to the least substituted C10 position of JH III. In multiple turnover reactions with JH epoxide hydrolase in 97.9% 18O-labeled water, only 91.3% 18O incorporation was observed. This is consistent with an SN2 reaction likely involving a carboxylate in the active site of JH epoxide hydrolase. The DNA amplification cloning of a fragment of a putative T. ni epoxide hydrolase is reported. The deduced amino acid sequence shares 67% similarity to the rat microsomal epoxide hydrolase.

Movement of proteins across the digestive system of the tobacco budworm, Heliothis virescens

Bovine serum albumin (BSA) and anti‐BSA polyclonal antibody were used as model polypeptides to examine the movement of foreign proteins across the insect digestive system and their accumulation in hemolymph of fourth stadium tobacco budworms, Heliothis virescens (Fabricius) (Lepidoptera: Noctuidae). Hydrateable meal pads were developed in these studies as a method for easily introducing compounds into the insect digestive system. When insects were allowed to feed continuously on hydrated meal pads containing 0.8 mg of anti‐BSA per gram diet, the level of antibody found in hemolymph was 2.4 ± 0.1 and 3.4 ± 0.1 µg ml−1 (average 1 SEM) after 8 and 16 h, respectively, as determined by enzyme‐linked immunosorbant assay (ELISA). Continuous feeding on hydrated meal pads containing the same concentration of BSA produced hemolymph concentrations of 1.5 ± 0.1 and 1.6 ± 0.1 µg ml−1 hemolymph at 8 and 16 h, respectively. Western blot analyses demonstrated that BSA and anti‐BSA both retained their primary and multimeric structure and that anti‐BSA maintained its antigenic activity in the meal pads and after movement from meal pads into the hemolymph. When 1 µg of anti‐BSA or BSA was injected into the hemocoel of fourth instars, the concentrations decreased with time and 120 min after injection were 20% and 0.6% of the original concentration, respectively. When added at the same concentration to plasma in vitro, the decrease was 81.5% and 57.5%, respectively, at 2 h. The accumulation of native anti‐BSA and BSA protein in insect hemolymph is the result of their rate of movement across the gut and their rate of turnover in hemolymph. Movement of anti‐BSA and BSA across the digestive system was also noted in Helicoverpa zea (Boddie) (Lepidoptera: Noctuidae), Acheta domesticus (L.) (Orthoptera: Gryllidae), and Gromphadorhina portentosa (Schaum) (Blattaria: Blattellidae). Anti‐BSA and BSA were not detected in the hemolymph of Manduca sexta (L.) (Lepidoptera: Sphingidae) after feeding.

Inhibition of insect juvenile hormone epoxide hydrolase: asymmetric synthesis and assay of glycidol-ester and epoxy-ester inhibitors of trichoplusia ni epoxide hydrolase.

Juvenile hormone (JH) undergoes metabolic degradation by two major pathways involving JH esterase and JH epoxide hydrolase (EH). While considerable effort has been focussed on the study of JH esterase and the development of inhibitors for this enzyme, much less has been reported on the study of JH-EH. In this work, the asymmetric synthesis of two classes of inhibitors of recombinant JH-EH from Trichoplusia ni, a glycidol-ester series and an epoxy-ester series is reported. The most effective glycidol-ester inhibitor, compound 1, exhibited an I(50) of 1.2x10(-8) M, and the most effective epoxy-ester inhibitor, compound 11, exhibited an I(50) of 9.4x10(-8) M. The potency of the inhibitors was found to be dependent on the absolute configuration of the epoxide. In both series of inhibitors, the C-10 R-configuration was found to be significantly more potent that the corresponding C-10 S-configuration. A mechanism for epoxide hydration catalyzed by insect EH is also presented.

Cloning of a putative juvenile hormone-responsive storage protein gene from the tobacco budworm, Heliothis virescens

A cDNA clone with 78% amino acid identity to a basic juvenile hormone (JH)-suppressible hemolymph protein from the cabbage looper, Trichoplusia ni, was isolated from the tobacco budworm, Heliothis virescens. This clone was obtained upon screening a cDNA library derived from larval fat body of a pesticide resistant strain of H. virescens with a cDNA probe for Drosophila melanogaster glutathione S-transferase. By comparison with other insect storage proteins, this clone was predicted to be part of an approximately 2,300 nucleotide (nt) cDNA, of which 691 nt were isolated and sequenced. The partial cDNA clone hybridizes to a RNA of approximately 2,370 nt in H. virescens. Treatment with a juvenoid (2-[1-methyl-2-(4-phenoxyphenoxy)ethoxy] pyridine; pyriproxifen) leads to a decrease in RNA levels of this putative hemolymph storage protein in early fifth stadium larvae of H. virescens, prior to commitment. In contrast, treatment in late fifth stadium (after commitment to pupal development) leads to an increase in the RNA level of this JH-responsive gene. This is the first report of both induction and suppression of storage protein RNA levels in the same stadium. We have given this gene the designation Hv-SP4 (H. virescens, storage protein 4; accession no. U48594). Genetic segregation analysis of restriction fragment length polymorphisms (RFLPs) defined by Hv-SP4 has shown that it is the product of a single-copy, Mendelian, autosomal gene.