PLoS ONE (Jan 2013)

Urotensin-II system in genetic control of blood pressure and renal function.

  • Radoslaw Debiec,
  • Paraskevi Christofidou,
  • Matthew Denniff,
  • Lisa D Bloomer,
  • Pawel Bogdanski,
  • Lukasz Wojnar,
  • Katarzyna Musialik,
  • Fadi J Charchar,
  • John R Thompson,
  • Dawn Waterworth,
  • Kijoung Song,
  • Peter Vollenweider,
  • Gerard Waeber,
  • Ewa Zukowska-Szczechowska,
  • Nilesh J Samani,
  • David Lambert,
  • Maciej Tomaszewski

DOI
https://doi.org/10.1371/journal.pone.0083137
Journal volume & issue
Vol. 8, no. 12
p. e83137

Abstract

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Urotensin-II controls ion/water homeostasis in fish and vascular tone in rodents. We hypothesised that common genetic variants in urotensin-II pathway genes are associated with human blood pressure or renal function. We performed family-based analysis of association between blood pressure, glomerular filtration and genes of the urotensin-II pathway (urotensin-II, urotensin-II related peptide, urotensin-II receptor) saturated with 28 tagging single nucleotide polymorphisms in 2024 individuals from 520 families; followed by an independent replication in 420 families and 7545 unrelated subjects. The expression studies of the urotensin-II pathway were carried out in 97 human kidneys. Phylogenetic evolutionary analysis was conducted in 17 vertebrate species. One single nucleotide polymorphism (rs531485 in urotensin-II gene) was associated with adjusted estimated glomerular filtration rate in the discovery cohort (p = 0.0005). It showed no association with estimated glomerular filtration rate in the combined replication resource of 8724 subjects from 6 populations. Expression of urotensin-II and its receptor showed strong linear correlation (r = 0.86, p<0.0001). There was no difference in renal expression of urotensin-II system between hypertensive and normotensive subjects. Evolutionary analysis revealed accumulation of mutations in urotensin-II since the divergence of primates and weaker conservation of urotensin-II receptor in primates than in lower vertebrates. Our data suggest that urotensin-II system genes are unlikely to play a major role in genetic control of human blood pressure or renal function. The signatures of evolutionary forces acting on urotensin-II system indicate that it may have evolved towards loss of function since the divergence of primates.