Seven‐up facilitates insect counter‐defense by suppressing cathepsin B expression

Ahn, Ji-Eun; Guarino, Linda A.; Zhu‐Salzman, Keyan

doi:10.1111/j.1472-4658.2007.05816.x

Cited by 21 publications

(25 citation statements)

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“…Probes P6 to P8 resulted from annealing two complementary oligonucleotides. These oligonucleotides were first end-labeled separately with 0.73 M [␥-32 P]ATP using T4 DNA polynucleotide kinase, then mixed in complementary pairs as previously described (12). After annealing, the double-stranded oligonucleotide probes were purified with QIAquick Nucleotide Removal kit (Qiagen).…”

Section: Methodsmentioning

confidence: 99%

“…We detected retarded bands of different mobility in control (scN-unadapted) and scN-fed (-adapted) insects, which implies that different binding proteins might be interacting with the CmCatB promoter in the two insect groups. In unchallenged control insects, we demonstrated that specific association of a COUP-element and CmSvp, a homolog of the COUP-interacting transcription factor (COUP-TF), resulted in repression of CmCatB (12). Its high abundance in unadapted insects and reduced expression in adapted insects supported the repressor function.…”

mentioning

confidence: 86%

“…Expression Plasmid Construction-All the chloramphenicol acetyltransferase (CAT) reporter plasmids, pAc-CatB/CAT, pAc-CatB⌬COUP/CAT, pAc3075, and pAc-IE1/CAT, as well as the expression plasmid pAc5-CmSvp, have been previously described (12). To make the pAc5-CmHNF-4 construct, the entire coding region of CmHNF-4 was amplified by PCR (95°C for 30 s, 68°C for 2 min for 35 cycles) using the following primers: sense, 5Ј-AAGCTGAATTCCAAAAGATGCCTTC-CTCGT-3Ј; and antisense, 5Ј-GCTCACTCGAGAAAAC-TATGCTGCTCCTCCTT-3Ј.…”

Section: P5mentioning

confidence: 99%

“…Transient Transfection and CAT Assays-Transfection experiments were performed as previously described (12). Drosophila Schneider 2 (S2) cells were maintained in Shields and Sang M3 insect medium (Sigma) with supplements at 27°C.…”

Section: P5mentioning

confidence: 99%

“…In an effort to understand CmCatB transcriptional regulation, we cloned a CmCatB promoter and adopted electrophoretic mobility shift assays (EMSAs) to identify potential regulatory elements using nuclear extracts from bruchid midgut tissue (12). We detected retarded bands of different mobility in control (scN-unadapted) and scN-fed (-adapted) insects, which implies that different binding proteins might be interacting with the CmCatB promoter in the two insect groups.…”

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confidence: 99%

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Coordination of Hepatocyte Nuclear Factor 4 and Seven-up Controls Insect Counter-defense Cathepsin B Expression

Ahn

Guarino

Zhu‐Salzman

2010

Journal of Biological Chemistry

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CmCatB, a cathepsin B-type cysteine protease, is insensitive to inhibition by the soybean cysteine protease inhibitor (scN). Cowpea bruchids dramatically induce CmCatB expression when major digestive proteases are inactivated by dietary scN, which is presumably an adaptive strategy that insects use to minimize effects of nutrient deficiency. In this study, we cloned the cowpea bruchid hepatocyte nuclear factor 4 (CmHNF-4) and demonstrated its involvement in transcriptional activation of CmCatB in the digestive tract of scN-adapted bruchids. Electrophoretic mobility shift assays demonstrated that CmHNF-4 binds to a CmCatB promoter region containing two tandem chicken ovalbumin upstream promoter (COUP) sites, which is also the cis-element for Seven-up (CmSvp), a previously identified transcriptional repressor of CmCatB. Although CmSvp is predominantly expressed in unadapted insect midgut, CmHNF-4 is more abundant in adapted bruchids. The battle between plants and herbivorous insects employs a variety of defense and counter-defense strategies. Insect feeding elicits synthesis of a wide array of plant-defensive compounds, which in turn induce insect counteractive tactics to minimize the impact of plant defense. Analysis of these plantpest interactions has become a research hotspot for understanding insect counter-defense mechanisms. Many insect survival mechanisms involve remodeling of the insect digestive system. Adjustments in cells lining the digestive tract allow pests to deal with a variety of plant toxins and anti-nutritional metabolites and are crucial for insect survival.A number of studies on insect response to plant protease inhibitors indicate that one of the tactics used by insects is activation of inhibitor-insensitive digestive enzymes (1-7). Under regular growth conditions, these inhibitor-insensitive enzymes are often in low abundance, accounting for only a minor portion of the entire proteolytic activity. They can be strongly induced, however, and play an important role in protein degradation once the major digestive enzyme function is blocked. The cowpea bruchid (Callosobruchus maculatus) cathepsin B-like cysteine protease (CmCatB) 2 has been shown to be such an enzyme. The cowpea bruchid is a grain storage insect pest; its larvae feed and develop inside seeds. Adults no longer feed after emergence from infested seeds but mate and lay eggs on the surface of cowpea seeds. Multiple generations of the insect per year lead to severe grain damage.CmCatB, which is solely expressed in larvae (6), was identified as one of the midgut genes that was most highly induced by dietary scN in a cDNA microarray, although it was undetectable in insects feeding on regular diet (8). Expression of CmCatB protein revealed that it possesses cathepsin B-like cysteine protease activity. Interestingly, this proteolytic activity was unaffected by scN, in marked contrast to the major cathepsin L-like digestive enzymes that share similar tertiary structures with CmCatB (6, 9). Most likely, the occluding loop in CmCatB blocked ...

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Section: Methodsmentioning

confidence: 99%

mentioning

confidence: 86%

Section: P5mentioning

confidence: 99%

Section: P5mentioning

confidence: 99%

mentioning

confidence: 99%

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