The angiotensin converting enzyme inhibitor captopril reduces oviposition and ecdysteroid levels in Lepidoptera

Vercruysse, Lieselot; Gelman, Dale B.; Raes, Elke; Hooghe, Bart; Vermeirssen, Vanessa; Camp, John Van; Smagghe, Guy

doi:10.1002/arch.20023

Cited by 14 publications

(18 citation statements)

References 36 publications

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“…Similarly, when adults were treated with captopril (75 μL; 10 μg/μL) dissolved in the honey‐water diet, a significant reduction in oviposition was also observed. Therefore, we may conclude that captopril can penetrate through the gut epithelium layer as well as through the skin 4. These results are in agreement with those reported for Anopheles stephensi ,2 but are in contrast with the reports concerning the interaction between ACE, ACE inhibitors, and trypsin‐modulating oostatic factor (TMOF) 5…”

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confidence: 90%

ACE Inhibitor Captopril Reduces Ecdysteroids and Oviposition in Moths

Vercruysse

Gelman²,

Velde

et al. 2005

Annals of the New York Academy of Sciences

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By using the selective ACE inhibitor captopril, we studied the effect of the angiotensin converting enzyme (ACE) on larval growth, metamorphosis, and reproduction in a lepidopteran species, the cotton leafworm, Spodoptera littoralis. Captopril was detrimental to adult formation and oviposition, and in female moths it elicited decreasing ecdysteroid levels, but increasing trypsin activities. Our results suggest that captopril downregulates oviposition by two independent pathways. Apparently, oviposition is influenced by a complex interaction of ACE, trypsin activity, and ecdysteroid levels.

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confidence: 90%

ACE Inhibitor Captopril Reduces Ecdysteroids and Oviposition in Moths

Vercruysse

Gelman²,

Velde

et al. 2005

Annals of the New York Academy of Sciences

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“…This peptidyl dipeptidase is strongly expressed as a glycosylated protein of 72 kDa in several tissues, including male reproductive tissues, the larval and adult midgut, larval trachea and adult salivary gland2627. Other insect species also express ACE in reproductive tissues of both sexes, suggesting a broader physiological role for the enzyme in insect reproduction19282930313233343536. Insect ACE not only resembles the mammalian enzyme in its substrate specificity, but also in susceptibility to inhibitors such as captopril, lisinopril, fosinoprilat, enalapril and trandolaprilat, but apart from captopril these inhibitors can be far less potent towards insect ACE compared to mammalian ACE2223.…”

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confidence: 99%

“…Nevertheless, ACE inhibitors can be acutely toxic to insects, which contrasts with their life-span extending properties in rodents37 and the nematode, Caenorhabditis elegans 38. They have been useful in confirming important roles for ACE in reproduction, growth and development in several insect species30343539. In the mosquito Anopheles stephensi , females fed with ACE inhibitors in the blood meal or females mated with males supplied with ACE inhibitors in their sugar diet, lay significantly fewer eggs than normal323540.…”

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The toxicity of angiotensin converting enzyme inhibitors to larvae of the disease vectors Aedes aegypti and Anopheles gambiae

Hasan

Williams

Ismail

et al. 2017

Sci Rep

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The control of mosquitoes is threatened by the appearance of insecticide resistance and therefore new control chemicals are urgently required. Here we show that inhibitors of mosquito peptidyl dipeptidase, a peptidase related to mammalian angiotensin-converting enzyme (ACE), are insecticidal to larvae of the mosquitoes, Aedes aegypti and Anopheles gambiae. ACE inhibitors (captopril, fosinopril and fosinoprilat) and two peptides (trypsin-modulating oostatic factor/TMOF and a bradykinin-potentiating peptide, BPP-12b) were all inhibitors of the larval ACE activity of both mosquitoes. Two inhibitors, captopril and fosinopril (a pro-drug ester of fosinoprilat), were tested for larvicidal activity. Within 24 h captopril had killed >90% of the early instars of both species with 3rd instars showing greater resistance. Mortality was also high within 24 h of exposure of 1st, 2nd and 3rd instars of An. gambiae to fosinopril. Fosinopril was also toxic to Ae. aegypti larvae, although the 1st instars appeared to be less susceptible to this pro-drug even after 72 h exposure. Homology models of the larval An. gambiae ACE proteins (AnoACE2 and AnoACE3) reveal structural differences compared to human ACE, suggesting that structure-based drug design offers a fruitful approach to the development of selective inhibitors of mosquito ACE enzymes as novel larvicides.

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“…The importance of ACE towards a successful metamorphosis is suggested by high ACE activities during last larval stage and early pupal stage in D. melanogaster and Lacanobia oleracea (Siviter et al, 2002b;Ekbote et al, 2003). Evidence from another view, studying the detrimental effect of ACE inhibitors like captopril and fosinopril on growth and development, has been shown for Spodoptera littoralis and Manduca sexta (Vercruysse et al, 2004;Isaac et al, 2007).…”

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confidence: 95%