Synthesis and insecticidal activity of fluorinated 2-(2,6-dichloro-4-trifluoromethylphenyl)-2,4,5,6-tetrahydrocyclopentapyrazoles.

A number of fluorinated 1-aryl-tetrahydrocyclopentapyrazoles were synthesized and their insecticidal activity was evaluated. Some of the fluorinated compounds had significant insecticidal properties.

Synthesis and GABA receptor potency of 3-thiomethyl-4-(hetero)aryl-5-amino-1-phenylpyrazoles.

A convenient synthetic route to novel 4-arylpyrazoles is described. The potential for insecticidal activity through GABA channel blockage by this series of compounds, as well as their selectivity for insect versus mammalian receptors, are explored through in vitro and in vivo assays.

Evaluation of a recombinant salivary gland protein (thrombostasin) as a vaccine candidate to disrupt blood-feeding by horn flies.

The potential for controlling blood-feeding by the cattle pest, Haematobia irritans irritans (horn fly), was tested by vaccination against thrombostasin (TS), an inhibitor of mammalian thrombin that is released into skin during horn fly blood-feeding. The increase in blood meal size that occurred for flies feeding on sensitized non-vaccinated hosts was blocked and egg development in female flies was delayed when horn flies fed on rabbits and cattle immunized with recombinant TS. This demonstration of the impact of disrupting TS action by vaccination provides a novel approach toward control of this veterinary pest and offers a paradigm for limiting blood-feeding in other medically-important insect species.

5-amino-1-(2,6-dichloro-4-trifluoromethyl-phenyl)-3-[3H3]-methylsulfanyl-1H-pyrazole-4-carbonitrile (CTOM): synthesis and characterization of a novel and selective insect GABA receptor radioligand.

Pyrazole 2a is a novel, potent ligand for insect GABA receptors obtained from housefly head membrane preparations (K(i)=8 nM). It is 500-fold selective against the mammalian receptor (mouse brain preparations). Its specifically tritiated version (2b) was synthesized by reduction of disulfide 10 with NaBH(4) followed by alkylation with [3H(3)]-CH(3)I.

Identification, characterization, and cloning of an immunoglobulin degrading enzyme in the cat flea, Ctenocephalides felis.

The degradation of cat immunoglobulin G (IgG) in blood-fed adult C. felis midguts was examined. SDS-PAGE analysis of dissected midgut extracts obtained from C. felis that had been blood fed for various times between 0 to 44 h revealed that by 24 h most of the high molecular weight proteins, including the heavy chain of IgG, were digested. A 31-kDa serine protease with IgG degrading activity was purified from fed C. felis midguts by benzamidine affinity chromatography, hydrophobic interaction chromatography, and cation exchange chromatography. Three primary cleavage products between 30- and 40-kDa were observed when the purified protease was incubated with protein A purified cat IgG. N-terminal amino acid sequence analysis of the products revealed that the IgG degrading protease cleaves after specific cysteine and lysine residues within the hinge region of IgG. The enzyme is also capable of degrading other immunoglobulins, serum albumin, and hemoglobin, suggesting that it may have roles in both combating the host's immune system and providing nutrients for the flea. A cDNA clone encoding the 265 amino acid IgG degrading protease proenzyme was isolated. When expressed in a baculovirus/insect cell expression system, the recombinant protein had the same N-terminus as the processed 237 amino acid mature native protein and possessed IgG degrading activity indistinguishable from the native protein. Arch. Insect Biochem.

Cloning, partial purification and in vivo developmental profile of expression of the juvenile hormone epoxide hydrolase of Ctenocephalides felis.

cDNAs encoding two different epoxide hydrolases (nCfEH1 and nCfEH2) were cloned from a cDNA library prepared from the wandering larval stage of the cat flea, Ctenocephalides felis. Predicted translations of the open reading frames indicated the clones encoded proteins of 464 (CfEH1) and 465 (CfEH2) amino acids. These proteins have a predicted molecular weight of 53 kDa and a putative 22 amino acid N-terminal hydrophobic membrane anchor. The amino acid sequences are 77% identical, and both are homologous to previously isolated epoxide hydrolases from Manduca sexta, Trichoplusia ni, and Rattus norvegicus. Purification of native juvenile hormone epoxide hydrolase (JHEH) from unfed adult cat fleas generated a partially pure protein that hydrolyzed juvenile hormone III to juvenile hormone III-diol. The amino terminal sequence of this;50-kDa protein is identical to the deduced amino terminus of the protein encoded by the nCfEH1 clone. Affinity-purified rabbit polyclonal antibodies raised against Escherichia coli-expressed HisCfEH1 recognized a approximately 50-kDa protein present in the partially purified fraction containing JHEH activity. Immunohistochemistry experiments using the same affinity-purified rabbit polyclonal antibodies localized the epoxide hydrolase in developing oocytes, fat body, and midgut epithelium of the adult flea. The presence of JHEH in various flea life stages and tissues was assessed by Northern blot and enzymatic activity assays. JHEH mRNA expression remained relatively constant throughout the different flea larval stages and was slightly elevated in the unfed adult flea. JHEH enzymatic activity was highest in the late larval, pupal, and adult stages. In all stages and tissues examined, JHEH activity was significantly lower than juvenile hormone esterase (JHE) activity, the other enzyme responsible for JH catalysis.