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Molecular and Physiological Characterization of a Receptor for d-Amino Acid-Containing Neuropeptides. | LitMetric

AI Article Synopsis

  • Neuropeptides in various animals can undergo isomerization, changing from l-stereoisomers to d-stereoisomers, which often enhances their biological activity.
  • The study focused on the signaling of d-amino acid-containing peptides (DAACPs) derived from the Aplysia californica neuropeptide precursor, examining their interaction with the achatin-like neuropeptide receptor (apALNR).
  • Results indicate that the apALNR receptor has diverse physiological roles in the central nervous system and that native DAACPs have increased stability against breakdown, which could prolong their effectiveness in neural signaling.

Article Abstract

Neuropeptides in several animals undergo an unusual post-translational modification, the isomerization of an amino acid residue from the l-stereoisomer to the d-stereoisomer. The resulting d-amino acid-containing peptide (DAACP) often displays biological activity higher than that of its all-l-residue analogue, with the d-residue being critical for function in many cases. However, little is known about the full physiological roles played by DAACPs, and few studies have examined the interaction of DAACPs with their cognate receptors. Here, we characterized the signaling of several DAACPs derived from a single neuropeptide prohormone, the Aplysia californica achatin-like neuropeptide precursor (apALNP), at their putative receptor, the achatin-like neuropeptide receptor (apALNR). We first used quantitative polymerase chain reaction and in situ hybridization experiments to demonstrate receptor ( apALNR) expression throughout the central nervous system; on the basis of the expression pattern, we identified novel physiological functions that may be mediated by apALNR. To gain insight into ligand signaling through apALNR, we created a library of native and non-native neuropeptide analogues derived from apALNP (the neuropeptide prohormone) and evaluated them for activity in cells co-transfected with apALNR and the promiscuous Gα subunit Gα-16. Several of these neuropeptide analogues were also evaluated for their ability to induce circuit activity in a well-defined neural network associated with feeding behavior in intact ganglia from Aplysia. Our results reveal the specificity of apALNR and provide strong evidence that this receptor mediates diverse physiological functions throughout the central nervous system. Finally, we show that some native apALNP-derived DAACPs exhibit enhanced stability toward endogenous proteases, suggesting that the d-residues in these DAACPs may increase the peptide lifetime, in addition to influencing receptor specificity, in the nervous system. Ultimately, these studies provide insight into signaling at one of the few known DAACP-specific receptors and advance our understanding of the roles that l- to d-residue isomerization play in neuropeptide signaling.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5962930PMC
http://dx.doi.org/10.1021/acschembio.8b00167DOI Listing

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