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Original article
Functional analysis of ABCB4 mutations relates clinical outcomes of progressive familial intrahepatic cholestasis type 3 to the degree of MDR3 floppase activity
  1. Raquel Gordo-Gilart1,
  2. Sara Andueza1,
  3. Loreto Hierro1,2,
  4. Pilar Martínez-Fernández1,3,
  5. Daniel D'Agostino4,
  6. Paloma Jara1,2,
  7. Luis Alvarez1
  1. 1La Paz University Hospital Health Research Institute-IdiPAZ, Madrid, Spain
  2. 2Pediatric Liver Service, La Paz Children's University Hospital, Madrid, Spain
  3. 3Institute of Medical and Molecular Genetics (INGEMM), La Paz University Hospital, Madrid, Spain
  4. 4Paediatric Gastroenterology-Hepatology Division, Liver-Intestinal Transplantation Center, Hospital Italiano de Buenos Aires, Buenos Aires, Argentina
  1. Correspondence to Dr Luis Alvarez, La Paz University Hospital Health Research Institute-IdiPAZ, Paseo de La Castellana, 261, Madrid 28046, Spain; luis.alvarez{at}salud.madrid.org

Abstract

Objective Progressive familial intrahepatic cholestasis type 3 (PFIC3) is a potentially lethal autosomal recessive liver disease associated with mutations in ABCB4, the gene encoding the canalicular translocator of phosphatidylcholine MDR3. While some affected children benefit from ursodeoxycholic acid (UDCA) therapy, others evolve to end-stage liver disease. We aimed to evaluate whether these different outcomes are related to the impact of ABCB4 mutations.

Design Six children with PFIC3 were investigated by sequencing of ABCB4 exons and flanking intron-exon boundaries and by immunohistochemistry. ABCB4 missense mutations were phenotyped in vitro by assessing their effects on MDR3 expression, subcellular localisation, and phosphatidylcholine-translocating activity. The resulting data were contrasted with the clinical outcomes.

Results Eight distinct ABCB4 mutations were identified: one nonsense, one splicing and six missense mutations, four of which (G68R, T201M, P479L, D459H) affected MDR3 expression level. G68R and D459H also led to retention of the protein in endoplasmic reticulum. Phosphatidylcholine efflux assays indicated that T201M, P479L, S978P and E1118K mutations impaired MDR3 activity to variable degrees. Three children with mutations that caused a total loss of MDR3 expression/function manifested progressive liver disease refractory to UDCA treatment. This was also the case in a patient carrying two different mutations that, in combination, resulted in a 90% reduction in total MDR3 activity. A favourable response to UDCA was achieved in two patients with estimated MDR3 activities of 50% and 33%, respectively.

Conclusions These data provide experimental evidence of the correlation between the degree of MDR3 floppase activity and the clinical outcomes of PFIC3.

  • Cholestatic Liver Diseases
  • Inherited Metabolic Disease
  • Paediatric Liver Disease
  • Gene Mutation
  • Liver Transplantation

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