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Molecular evolution of the hyaluronan synthase 2 gene in mammals: implications for adaptations to the subterranean niche and cancer resistance.

Abstract
The naked mole-rat (NMR) Heterocephalus glaber is a unique and fascinating mammal exhibiting many unusual adaptations to a subterranean lifestyle. The recent discovery of their resistance to cancer and exceptional longevity has opened up new and important avenues of research. Part of this resistance to cancer has been attributed to the fact that NMRs produce a modified form of hyaluronan--a key constituent of the extracellular matrix--that is thought to confer increased elasticity of the skin as an adaptation for living in narrow tunnels. This so-called high molecular mass hyaluronan (HMM-HA) stems from two apparently unique substitutions in the hyaluronan synthase 2 enzyme (HAS2). To test whether other subterranean mammals with similar selection pressures also show molecular adaptation in their HAS2 gene, we sequenced the HAS2 gene for 11 subterranean mammals and closely related species, and combined these with data from 57 other mammals. Comparative screening revealed that one of the two putatively important HAS2 substitutions in the NMR predicted to have a significant effect on hyaluronan synthase function was uniquely shared by all African mole-rats. Interestingly, we also identified multiple other amino acid substitutions in key domains of the HAS2 molecule, although the biological consequences of these for hyaluronan synthesis remain to be determined. Despite these results, we found evidence of strong purifying selection acting on the HAS2 gene across all mammals, and the NMR remains unique in its particular HAS2 sequence. Our results indicate that more work is needed to determine whether the apparent cancer resistance seen in NMR is shared by other members of the African mole-rat clade.
AuthorsChristopher G Faulkes, Kalina T J Davies, Stephen J Rossiter, Nigel C Bennett
JournalBiology letters (Biol Lett) Vol. 11 Issue 5 Pg. 20150185 (May 2015) ISSN: 1744-957X [Electronic] England
PMID25948568 (Publication Type: Journal Article, Research Support, Non-U.S. Gov't)
Copyright© 2015 The Author(s) Published by the Royal Society. All rights reserved.
Chemical References
  • Soil
  • Glucuronosyltransferase
Topics
  • Adaptation, Biological
  • Animals
  • Disease Resistance (genetics)
  • Eulipotyphla (genetics, physiology)
  • Evolution, Molecular
  • Glucuronosyltransferase (genetics, metabolism)
  • Molecular Sequence Data
  • Neoplasms (genetics)
  • Rodent Diseases (enzymology, genetics)
  • Rodentia (genetics, physiology)
  • Sequence Alignment (veterinary)
  • Sequence Analysis, Protein (veterinary)
  • Soil

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