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Comparison of insect kinin analogs with cis-peptide bond, type VI-turn motifs identifies optimal stereochemistry for interaction with a recombinant arthropod kinin receptor from the southern cattle tick Boophilus microplus

The multifunctional ‘insect kinins’ share the evolutionarily conserved C-terminal pentapeptide motif Phe-X 1-X 2-Trp-Gly-NH 2, where X 1 = His, Asn, Ser, or Tyr and X 2 = Ser, Pro, or Ala; and are associated with the regulation of diuresis in a variety of species of insects. We previously reported t...

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Bibliographic Details
Published in:Peptides (New York, N.Y. : 1980) N.Y. : 1980), 2008-02, Vol.29 (2), p.295-301
Main Authors: Taneja-Bageshwar, S., Strey, A., Kaczmarek, K., Zabrocki, J., Pietrantonio, P.V., Nachman, R.J.
Format: Article
Language:English
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Summary:The multifunctional ‘insect kinins’ share the evolutionarily conserved C-terminal pentapeptide motif Phe-X 1-X 2-Trp-Gly-NH 2, where X 1 = His, Asn, Ser, or Tyr and X 2 = Ser, Pro, or Ala; and are associated with the regulation of diuresis in a variety of species of insects. We previously reported the functional expression of a southern cattle tick ( Boophilus microplus) G protein-coupled receptor that is activated by insect kinins. Four different stereochemical variants of each of the 4-aminopyroglutamic acid (APy) and tetrazole moieties, mimics of a cis-peptide bond, type VI β-turn in insect kinins were now evaluated on the expressed tick receptor using a calcium bioluminescence plate assay. This study represents the first investigation of the interaction of restricted-conformation analogs incorporating components that mimic specific conformations and/or peptide bond orientations in an expressed arthropod neuropeptide receptor. Analog Ac-RF[APy]WGa (2 R,4 S) was at least 10-fold more active than the other analogs, thus identifying the optimal stereochemistry for tick receptor interaction. The optimal stereochemistry for the tetrazole insect kinin analogs in the tick receptor assay was identified as ( d, l). The APy is superior to the tetrazole as a scaffold for the design of mimetic insect kinin analogs. These biostable analogs provide new tools for arthropod endocrinologists and potential leads in the development of selective, environmentally friendly arthropod pest control agents capable of disrupting insect kinin regulated processes.
ISSN:0196-9781
1873-5169
DOI:10.1016/j.peptides.2007.09.024