Abstract
BackgroundElabela/Toddler (ELA) is a novel endogenous ligand of the apelin receptor, whose signalling has emerged as a therapeutic target, for example, in cardiovascular disease and cancer. Shorter forms of ELA-32 have been predicted, including ELA-21 and ELA-11, but metabolism and stability of ELA-32 in humans is poorly understood. We, therefore, developed an LC–MS/MS assay to identify ELA-32 metabolites in human plasma and tissues. MethodHuman kidney homogenates or plasma were incubated at 37 °C with ELA-32 and aliquots withdrawn over 2−4 h into guanidine hydrochloride. Proteins were precipitated and supernatant solid-phase extracted. Peptides were extracted from coronary artery, brain and kidney by immunoprecipitation or solid-phase extraction following acidification. All samples were reduced and alkylated before analysis on an Orbitrap mass spectrometer in high and nano flow mode. ResultsThe half-life of ELA-32 in plasma and kidney were 47.2 ± 5.7 min and 44.2 ± 3 s, respectively. Using PEAKS Studio and manual data analysis, the most important fragments of ELA-32 with potential biological activity identified were ELA-11, ELA-16, ELA-19 and ELA-20. The corresponding fragments resulting from the loss of C-terminal amino acids were also identified. Endogenous levels of these peptides could not be measured, as ELA peptides are prone to oxidation and poor chromatographic peaks. ConclusionsThe relatively long ELA plasma half-life observed and identification of a potentially more stable fragment, ELA-16, may suggest that ELA could be a better tool compound and novel template for the development of new drugs acting at the apelin receptor.
Highlights
Elabela/Toddler (ELA), encoded by the gene Apela, for apelin re ceptor early endogenous ligand, was discovered independently by two groups in 2013 [1] and 2014 [2], respectively, as the second endogenous ligand of the apelin receptor
We have developed a tandem mass spectrometry-based assay to address the following aims: firstly, to characterise the degradation products generated following incubation of human plasma and tissue with exogenous ELA-32 and secondly, to identify those ELA isoforms that are endogenously produced in human tissues
A targeted parallel reaction monitoring method was built to specif ically target ELA peptides for quantitative analysis and to facilitate detection of endogenous peptides. This was performed in a single method in combination with an information-dependent acquisition (IDA) analysis, where the instrument targeted the highest abundant charge state for ELA-32 (m/z: 586.16, 7+ and 581.88, 7+), ELA-21 (m/z: 451.39, 6+) and ELA-11 (m/z: 447.55, 3+)
Summary
Elabela/Toddler (ELA), encoded by the gene Apela, for apelin re ceptor early endogenous ligand, was discovered independently by two groups in 2013 [1] and 2014 [2], respectively, as the second endogenous ligand of the apelin receptor. We have developed a tandem mass spectrometry-based assay to address the following aims: firstly, to characterise the degradation products generated following incubation of human plasma and tissue with exogenous ELA-32 and secondly, to identify those ELA isoforms that are endogenously produced in human tissues. This information would ascertain the most relevant ELA isoform to more accurately determine the pharmacological and physiological consequences of apelin receptor activation by its second endogenous peptide, ELA
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