Effects of the gout-causing Q141K polymorphism and a CFTR δF508 mimicking mutation on the processing and stability of the ABCG2 protein

Hajnalka Sarankó, Hedvig Tordai, Ágnes Telbisz, Csilla Özvegy-Laczka, Gábor Erdos, Balázs Sarkadi, Tamás Hegedus

Research output: Article

20 Citations (Scopus)

Abstract

ABCG2 is an important multidrug transporter involved also in urate transport, thus its mutations can lead to the development of gout and may also alter general drug absorption, distribution and excretion. The frequent ABCG2 polymorphism, Q141K, is associated with an elevated risk of gout and has been controversially reported to reduce the plasma membrane expression and/or the transport function of the protein. In the present work we examined the stability and cellular processing of the Q141K ABCG2 variant, as well as that of the δF142 ABCG2, corresponding to the δF508 mutation in the CFTR (ABCC7) protein, causing cystic fibrosis. The processing and localization of full length ABCG2 variants were investigated in mammalian cells, followed by Western blotting and confocal microscopy, respectively. Folding and stability were examined by limited proteolysis of Sf9 insect cell membranes expressing these ABCG2 constructs. Stability of isolated nucleotide binding domains, expressed in and purified from bacteria, was studied by CD spectroscopy. We find that the Q141K variant has a mild processing defect which can be rescued by low temperature, a slightly reduced activity, and a mild folding defect, especially affecting the NBD. In contrast, the δF142 mutant has major processing and folding defects, and no ATPase function. We suggest that although these mutations are both localized within the NBD, based on molecular modeling their contribution to the ABCG2 structure and function is different, thus rescue strategies may be devised accordingly.

Original languageEnglish
Pages (from-to)140-145
Number of pages6
JournalBiochemical and biophysical research communications
Volume437
Issue number1
DOIs
Publication statusPublished - júl. 19 2013

ASJC Scopus subject areas

  • Biophysics
  • Biochemistry
  • Molecular Biology
  • Cell Biology

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