Hansen EL et al. (1971) Experientia "Effect of insect hormones on nematodes in axenic culture."

Buecher EJ, Hansen EL

[Experientia, 1971]

Insect juvenile hormones (JH) or JH mimetics have been shown to affect development of nematodes: Trichinella spiralis larvae and fourth stage Phocanema decipiens were inhibited, and abnormal morphology was seen in Heterodera schactii. The effects of insect hormones and analogues on development of several free-living and parasitic nematodes cultured axenically are described in the present paper.

Ray C et al. (1992) Mol Biochem Parasitol "Gut-specific and developmental expression of a Caenorhabditis elegans cysteine protease gene."

McKerrow JH, Ray C

[Mol Biochem Parasitol, 1992]

A Caenorhabditis elegans cysteine protease gene fragment, amplified by PCR using conserved eukaryotic protease gene sequences as primers, was used as a probe to isolate cDNA and genomic clones. The genomic clone, which had a coding sequence of 987 bp interrupted by 2 small introns, was physically mapped to the middle of linkage group V. The predicted amino acid sequence of the mature C. elegans cysteine protease was homologous to those of other eukaryotic cysteine proteases, particularly to that of the nematode parasite Haemonchus contortus (50%) and to the cathepsin B-like hemoglobinase of the trematode parasite Schistosoma mansoni (54%). The pro region of the C. elegans protease was homologous only to that of the H. contortus enzyme, implying a similar mechanism of protease activation. The C. elegans cysteine protease gene was temporally regulated: abundant 1.1-kb transcripts were detected in larvae and adults, but not in embryos. Transcription also was spatially regulated, occurring only in the intestine. Like the vitellogenin genes, which also are transcribed exclusively in the intestine, the 5' end of the C. elegans cysteine protease gene had at least one copy of each of 2 heptameric sequences which may be transcriptional regulatory elements governing gut-specific expression.

Britton C et al. (1998) J Mol Biol "Regulation of the Caenorhabditis elegans gut cysteine protease gene cpr-1: requirement for GATA motifs."

Johnstone IL, McKerrow JH, Britton C

[J Mol Biol, 1998]

Expression of the Caenorhabditis elegans cysteine protease gene cpr-1 is regulated both spatially and temporally. In situ hybridisation and Northern blot analysis have shown that this gene is expressed exclusively in gut cells of all developmental stages except the embryo. We now show by transgenic transformation with cpr-1/lac Z reporter gene constructs that a sequence contained within the cpr-1 5' flanking region can direct this spatial and temporal expression. Deletion analysis of the cpr-1 promoter indicates that as little as 212 bp of upstream sequence is sufficient for this expression, although more upstream sequence may be involved in quantitative regulation of expression. Mutation of two GATA-like sequence elements at positions -51 and -147 upstream of the transcription start site ablates all expression, indicating an essential role in cpr-1 regulation. A concatemer of the cpr-1 -147 GATA motif placed upstream of minimal promoter/lac Z reporter gene constructs results in strong reporter gene expression in gut cells of larval stages and also in embryos. Weak expression is also detected in hypodermal cells. This pattern is reversed in the adult stage with strong expression in hypodermal cells and weaker expression in gut cells. Our findings suggest that spatial and temporal regulation of the cpr-1 gene is complex and involves activation by a GATA-like transcription factor.

Loer CM et al. (1999) J Neurogenet "A phenylalanine hydroxylase gene from the nematode C. elegans is expressed in the hypodermis."

Loer CM, McKerrow JH, Davidson B

[J Neurogenet, 1999]

We have identified an aromatic amino acid hydroxylase gene from the nematode C. elegans that likely encodes the worm phenylalanine hydroxylase (PheH). The predicted amino acid sequence is most similar to that of other PheH and TrpH proteins. Reporter gene fusions and staining with an antibody to mammalian PheH indicate the gene is expressed in hypodermal cells. A fusion protein expressed in bacteria can convert phenylalanine to tyrosine, and, to a lesser extent, tryptophan to 5-hydroxytryptophan. We hypothesize that the protein is necessary to produce additional tyrosine for protein cross-linking in the nematode cuticle.

Sim C et al. (2013) Front Physiol "Insulin signaling and the regulation of insect diapause."

Denlinger DL, Sim C

[Front Physiol, 2013]

A rich chapter in the history of insect endocrinology has focused on hormonal control of diapause, especially the major roles played by juvenile hormones (JHs), ecdysteroids, and the neuropeptides that govern JH and ecdysteroid synthesis. More recently, experiments with adult diapause in Drosophila melanogaster and the mosquito Culex pipiens, and pupal diapause in the flesh fly Sarcophaga crassipalpis provide strong evidence that insulin signaling is also an important component of the regulatory pathway leading to the diapause phenotype. Insects produce many different insulin-like peptides (ILPs), and not all are involved in the diapause response; ILP-1 appears to be the one most closely linked to diapause in C. pipiens. Many steps in the pathway leading from perception of daylength (the primary environmental cue used to program diapause) to generation of the diapause phenotype remain unknown, but the role for insulin signaling in mosquito diapause appears to be upstream of JH, as evidenced by the fact that application of exogenous JH can rescue the effects of knocking down expression of ILP-1 or the Insulin Receptor. Fat accumulation, enhancement of stress tolerance, and other features of the diapause phenotype are likely linked to the insulin pathway through the action of a key transcription factor, FOXO. This review highlights many parallels for the role of insulin signaling as a regulator in insect diapause and dauer formation in the nematode Caenorhabditis elegans.

Lustigman S et al. (1992) J Biol Chem "Molecular cloning and characterization of onchocystatin, a cysteine proteinase inhibitor of Onchocerca volvulus."

Huima T, Brotman B, McKerrow JH, Prince AM, Lustigman S

[J Biol Chem, 1992]

A cDNA clone designated OV7 encodes a polypeptide that corresponds to a highly antigenic Onchocerca volvulus protein. OV7 has significant amino acid sequence homology to the cystatin superfamily of cysteine proteinase inhibitors. In this report we establish that the OV7 recombinant protein is active as a cysteine proteinase inhibitor, and we have named it onchocystatin. It contains a cystatin-like domain that inhibits the activity of cysteine proteinases at physiological concentrations. Recombinant glutathione S-transferase-OV7 (GST-OV7, 1 microM) and maltose-binding protein-OV7 (MBP-OV7, 4 microM) fusion polypeptides inhibit 50% of the enzymatic activity of the bovine cysteine proteinase cathepsin B. Neither fusion polypeptide inhibits serine or metalloproteinases activity. The Ki for GST-OV7 fusion polypeptide is 170 nM for cathepsin B and 70 pM or 25 nM for cysteine proteinases purified from a protozoan parasite Entamoeba histolytica or the free living nematode Caenorhabditis elegans, respectively. The 5' end of the OV7 clone was isolated by polymerase chain reaction and sequenced, thus extending the previous cDNA clone to 736 base pairs. This represents the complete coding sequence of the mature onchocystatin (130 amino acids). A hydrophobic leader sequence of 32 amino acids was found, indicating a possible extracellular function of the onchocerca cysteine proteinase inhibitor.

Fodor A et al. (1989) General & Comparative Endocrinology "Effects of precocene analogs on the nematode Caenorhabditis remanei (var. Bangaloreiensis). 2. Competitions with a juvenile hormone analog (methoprene)."

Timar T, Fodor A

[General & Comparative Endocrinology, 1989]

Fourteen 7-alkoxy-2,2-dimethylchromenes were synthetized and studied in JH competition experiments: prococenes (Ps) PI and PII, and synthetic analogs (PAs) including (i) three with both antiallatal and P-like activities: 7-ethoxy-PII (7-EPII); 7-(prop-2-ynyloxy)-2,2-dimethylchromene (PPI); and 6-methoxy-7-(prop-2-yynyloxy)-2,2-dimethylchromene (PPIII); (ii) six without antiallatal activity, exerting P-like activity in nematodes; and (iii) three without either antiallatal or P-like activity, but with a strong nematocidal effect. Within the dose range 8-1000 ug/ml, different concentrations of each PA were applied to nematode growth medium which did or did not contain 1000 ug methoprene (a juvenile hormone analog JHA)/ml. Plates inoculated with Caenorhabditis embryos were incubated and scored for developmentally affected survivors. The JHA did not compete with any PA mentioned as (iii). It competed moderately with some nonantiallatal PAs (8-Me-PPI, 8-MeO-PPI, and 3,4-diCl-PPI) with strong P-like and nematocidal activities. The JHA competed most efficiently with all Ps, antiallatal PAs, and two nonantiallatal PAs (PPII and thio-PI) which exerted severe P-like activities in nematodes. Parameters assumed to be indicators of the P-like (rather than nematocidal) activity of the PAs proved more sensitive to the JHA than those of nematocidal activity. Whether the JH-compensable P-like activity of some PAs can be regarded as a real anti-JH action needs further clarification.

Landis GN et al. (2020) J Gerontol A Biol Sci Med Sci "Metabolic Signatures of Life Span Regulated by Mating, Sex Peptide and Mifepristone/RU486 in Female Drosophila melanogaster."

Wang I, Promislow DEL, Lee S, Landis GN, Curran SP, Patel P, Yen CA, Shen J, Fan Y, Tower J, Wang L, Wu J, Doherty DV, Abdelmesieh M, Wang T, Vroegop J

[J Gerontol A Biol Sci Med Sci, 2020]

Mating and transfer of male Sex Peptide (SP), or transgenic expression of SP, causes inflammation and decreased life span in female Drosophila. Mifepristone rescues these effects, yielding dramatic increases in life span. Here targeted metabolomics data were integrated with further analysis of extant transcriptomic data. Each of seven genes positively correlated with life span were expressed in the brain or eye, and involved regulation of gene expression and signaling. Genes negatively correlated with life span were preferentially expressed in midgut and involved protein degradation, amino acid metabolism, and immune response. Across all conditions, life span was positively correlated with muscle breakdown product 1/3-methylhistadine and purine breakdown product urate, and negatively correlated with tryptophan breakdown product kynurenic acid, suggesting a SP-induced shift from somatic maintenance/turnover pathways to the costly production of energy and lipids from dietary amino acids. Some limited overlap was observed between genes regulated by mifepristone and genes known to be regulated by ecdysone, however, mifepristone was unable to compete with ecdysone for activation of an ecdysone-responsive transgenic reporter. In contrast, genes regulated by mifepristone were highly enriched for genes regulated by Juvenile Hormone (JH), and mifepristone rescued the negative effect of JH analog methoprene on life span in adult virgin females. The data indicate that mifepristone increases life span and decreases inflammation in mated females by antagonizing JH signaling downstream of male SP. Finally, mifepristone increased life span of mated, but not unmated, C. elegans, in two of three trials, suggesting possible evolutionary conservation of mifepristone mechanisms.

Britton C et al. (1999) Mol Biochem Parasitol "Identification of promoter elements of parasite nematode genes in transgenic Caenorhabditis elegans."

Knox DP, Barry JD, Redmond DL, McKerrow JH, Britton C

[Mol Biochem Parasitol, 1999]

Transformation of the free-living nematode Caenorhabditis elegans with promoter/reporter gene constructs is a very powerful technique to examine and dissect gene regulatory mechanisms. No such transformation system is available for parasitic nematode species. We have exploited C. elegans as a heterologous transformation system to examine activity and specificity of parasitic nematode gene promoters. Using three different parasite promoter/lac Z reporter constructs strict tissue-specific expression is observed. Upstream sequences of the Haemonchus contortus gut pepsinogen gene pep-1 and cysteine protease gene AC-2 direct expression exclusively in gut cells, while promoter sequence of the Ostertagia circumcincta cuticular collagen gene colost-1 directs hypodermal-specific expression. Mutation analysis indicates that AC-2 promoter function is dependent on a GATA-like motif close to the translation start site, similar to our findings with the C. elegans cpr-1 cysteine protease gene. While the spatial expression of these parasite promoters in C. elegans correlates with their expression in the parasite, the exact timing of expression does not. This suggests that regulatory mechanisms influencing the timing of expression may have evolved more rapidly than those controlling spatial expression of structural genes.

Fodor A et al. (1989) Gen Comp Endocrinol "Effects of precocene analogs on the nematode Caenorhabditis remanei (var. Bangaloreiensis). I. Structure/activity relations."

Hosztafi S, Sebok P, Soos J, Kiss I, Varga E, Fodor A, Timar T

[Gen Comp Endocrinol, 1989]

Precocenes (PI and PII) and 114 of their analogs (PAs) were synthetized and tested on C. remanei embryos for their precocene-like (P-like) activities resulting in unusual development at sublethal doses. The P-like activity was quantitated by plotting the probit of the percentage of the developmentally affected survivors against the (log) dose to obtain the EC plot and the half effective concentration (EC50). All five PAs (PI, PII, 7-ethoxy-PII, 7-(prop-2-ynyloxy)-PI, and 6-methoxy-7-(prop-2-ynyloxy)-PII) which exert both antiallatal activity in insects and P-like activity in nematodes are 7-alkoxy-substituted 2,2-dimethylchromenes. Both activities can be enhanced by an additional 6-MeO-substitution or by an asymmetric 6,7-dialkoxy-substitution, on condition that R-7 is longer than R-6. There are many more similarities than dissimilarities in the structural requirements needed for antiallatal and P-like activities. All but three nonantiallatal PAs effective in nematodes are 7-prop-2-ynyloxy-substituted; two are symmetrically 6,7-disubstituted, and one is heterosubstituted (thio-PI). All PAs with antiallatal but without P-like activity are 7-monosubstituted with a relatively long alkoxy group. Certain substitutions favor antiallatal activity and others P-like activity. The severe nematocidal effect of 6,7-methylenedioxy-2,2-dimethylchromene (inert in insects) is not accompanied by P-like activity. The present findings lend some indirect support to the supposition that JH-producing cells and/or JH-dependent function(s) might