Nonsense variant of ATP8B1 gene in heterozygosis and benign recurrent intrahepatic cholestasis: A case report and review of literature

Mariano Piazzolla,Nicola Castellaneta,Michele Barone,Enzo Ierardi,Alfredo Di Leo,Section of Gastroenterology,Department of Emergency and Organ Transplantation,University of Bari,Bari 70124,Italy

Antonio Novelli,Emanuele Agolini,Dario Cocciadiferro,Laboratory of Medical Genetics,Ospedale Pediatrico Bambino Gesù,Rome 00165,Italy

Leonardo Resta,Loren Duda,Section of Pathology,Department of Emergency and Organ Transplantation,University of Bari,Bari 70124,Italy

Abstract

Key words: Benign recurrent intrahepatic cholestasis;ATP8B1/ABCB11 genes;Jaundice;Heterozygous variant of ATP8B1 gene (c.1558A>T);Familial inheritance;Case report

INTRODUCTION

Benign recurrent intrahepatic cholestasis (BRIC) is a rare genetic disorder characterized by recurrent episodes of cholestatic jaundice that undergo spontaneous resolution within a period lasting from few weeks to some months without an evolution towards chronic liver disease[1].The first case of BRIC was described by Summerskillet al[2]in 1956.Its exact prevalence remains unknown,but estimated incidence is approximately 1 in 50000 to 100000 people worldwide.BRIC is an autosomal recessive disorder.Two subtypes have been described according to associated gene mutations.BRIC-1 is associated with a mutation in theATP8B1gene(chromosome 18q21-22) that encodes a protein called familial intrahepatic cholestasis 1 (FIC1)[3].BRIC-2 is caused by a mutation in theABCB11gene (chromosome 2q24)encoding bile salt export pump protein[4].Consequent impaired function of these hepato-canalicular transporters,responsible for the secretion of bile components,induces an intrahepatic cholestasis.Mutations inATP8B1andABCB11genes are also present in progressive familial intrahepatic cholestasis (PFIC - type 1 and 2,respectively).Despite both are due to mutations in the same gene,phenotypes of BRIC and PFIC differ,since PFIC is characterized by a progressive liver damage up to end-stage liver disease[5].

BRIC diagnostic criteria have been proposed by Luketicet al[1];at the moment,they represent the basics in the diagnosis of the disorder.They include:(1) At least two episodes of jaundice separated by a symptom-free interval lasting several months to years;(2) Laboratory values consistent with intrahepatic cholestasis;(3) Gammaglutamyltranspeptidase (GGT) either normal or only minimally elevated;(4) Severe pruritus secondary to cholestasis;(5) Liver histology demonstrating centrilobular cholestasis;(6) Normal intra- and extra-hepatic bile ducts by cholangiography(endoscopic retrograde cholangiopancreatography,magnetic resonance cholangiography);and (7) Absence of factors known to be associated with cholestasis(i.e.,drugs,pregnancy)[1].

On these bases,we believe of interest to report the case of a young adult patient with clinical,biochemical and histological features of BRIC,where we have,at the best of our knowledge,firstly provided the evidence of a heterozygous pathogenic nonsense variant in theATP8B1gene (c.1558A＞T).

CASE PRESENTATION

Chief complaints

A 29-year-old male was admitted into our Gastroenterology Unit for jaundice,severe pruritus,dark colored urine,clay colored stool and weight loss.

History of present illness

Patient symptoms started one month before the admission in our Unit.He had undergone two previous hospitalizations without clinical benefit.No infections or fever were reported.

History of past illness

The patient had a free previous medical history.In the past,he had never suffered from jaundice.

Personal and family history

There was no history of drug exposure,blood transfusions or alcohol intake.Family history was negative for similar complaints.Mother had never reported intrahepatic cholestasis of pregnancy during his two pregnancies.

Physical examination upon admission

On physical examination,the patient showed an evident jaundice,widespread scratch marks over the whole body,hepatomegaly (1 cm below the right costal margin)without clinical signs of liver failure (ascites,edema,encephalopathy).

Laboratory examinations

Laboratory investigations showed low hemoglobin (10 g/dL) and mean corpuscular volume (78.1 fl) with normal white blood cell (6330/microL) and platelet(295000/microL) count.Aspartate aminotransferase (AST) and alanine aminotransferase (ALT) were normal.Markers of cholestasis showed normal GGT,alkaline phosphatase (ALP) 2.9 times upper normal limit and total bilirubin value of 32.70 mg/dL (conjugated fraction:28.59 mg/dL).Markers of hepatic parenchymal activity showed hypoalbuminemia (1.9 g/dL) with normal values of international normalized ratio of prothrombin time (0.94),Partial thromboplastin time (ratio:1.03;normal:＜ 1.20),coagulation factor V,ammonium,cholinesterase,blood sugar and cholesterol levels.Other altered biochemical tests were:low vitamin D level (14 ng/mL;normal:30-100 ng/mL),mild elevation of amylase and lipase (1.1 times and 1.4 times upper normal limit,respectively),reduced renal function test (estimated Glomerular filtration rate - eGFR 67 mL/min),reduced serum potassium (3.1 mmol/L).

Serological investigations excluded viral,metabolic and autoimmune causes of acute and chronic liver diseases.Negative results were found for the following parameters:IgM antibodies to hepatitis A virus,hepatitis B surface antigen,hepatitis B virus DNA,hepatitis C virus RNA,antibodies to hepatitis C virus,serum levels of iron,transferrin,and ferritin,serum copper and ceruloplasmin levels,alpha1-antitrypsin,anti-nuclear,anti-smooth muscle,anti-liver kidney microsomal antimitochondrial antibodies,serum protein electrophoresis and immunoglobulins (IgG,IgA,IgM).

Imaging examinations

Ultrasonographic abdominal investigation revealed mild hepatomegaly with normal echogenicity.Magnetic resonance cholangiopancreatography showed normal intraand extra-hepatic biliary tree and pancreatic ductal system.

Histological examination

Liver biopsy showed:severe cholestasis in the centrilobular hepatocytes,involvement of intermediate zone with evidence of bile plugs as well as intra-hepatocyte bile pigment (Figure1A),activation and hyperplasia of Kupffer's cells (Figure1B) and preserved biliary ducts in portal areas (Figure1C).

Genetic analyses

Being satisfied BRIC diagnostic criteria,ATP8B1andABCB11gene analysis was performed.After obtaining the informed consent for the genetic analyses,targeted enrichment and panel parallel sequencing were performed on genomic DNA extracted from circulating leukocytes of the affected subject.Patient library preparation and targeted re-sequencing were performed by using the NimbleGenSeqCap Target Enrichment kit (Roche,Pleasanton,CA,United States) on a NextSeq550 (Illumina Inc,San Diego,CA,United States) platform,according to the manufacture's protocol.The BaseSpace pipeline (Illumina,https://basespace.illumina.com/) and the TGex software LifeMap Sciences (http://tgex.genecards.org/)were used for the variant calling and annotating variants,respectively.Sequencing data have been aligned to the hg19 human reference genome.The variants were analyzed in silico by using Scale-Invariant Feature Transform and Polymorphism Phenotyping v2 (http://genetics.bwh.harvard.edu/pph2) for the prediction of deleterious non-synonymous SNVs for human diseases.Based on the guidelines of the American College of Medical Genetics and Genomics[6],a minimum mean depth coverage of 30 × was considered suitable for analysis.Variants were examined for coverage and Qscore (minimum threshold of 30),and visualized by the Integrative Genome Viewer.Clinical investigations and genetic analyses were approved by the institutional scientific board of the institutes involved,and were conducted in accordance with the Helsinki Declaration.

FINAL DIAGNOSIS

Sequencing analysis identified a heterozygous nonsense variant,c.1558A＞T,in exon14 ofATP8B1gene (NM_005603).This variant has never been described before,and is not present in dbSNP,Exome Variant Server,or ExAC databases.The finding was confirmed by Sanger sequencing following a standard protocol (BigDye Terminator v3.1 Cycle Sequencing Kit,Applied Biosystems by Life Technologies) and tested for familial segregation,showing a maternal inheritance.According to the American College of Medical Genetics and Genomics criteria,the c.1558A＞T (p.Lys520Ter)variant can be classified as likely pathogenic.Figure2 reports pedigrees and electropherograms ofATP8B1c.1558A＞T variant,which were identified in the patient family.

Figure2 Pedigree and electropherograms of ATP8B1 c.1558A>T variant identified in the family of the BRIC patient.

To confirm the pathogenetic role of observed mutation,immunohistochemical study was performed with anti-ATP8B1 Antibody (rabbit polyclonal antibody -HPA018674,1:20 working dilution,Atlas Antibodies,Stockholm,Sweden).This antibody has a specific affinity for the protein codified byATP8B1gene(https://www.atlasantibodies.com/products/antibodies/primary-antibodies/triplea-polyclonals/atp8b1-antibody-hpa018674/).The protein expression in the liver of the patient with c.1558A＞T mutation was significantly reduced (Figure1D) as compared to that of a healthy control (Figure1E).

TREATMENT

The patient was treated with ursodeoxycholic acid 300 mg thrice daily (15 mg/kg per day) and colestyramine 4 g twice daily with a clinical improvement.After 15 d,total bilirubin decreased to 12.38 mg/dL which was near to normal values after 2 mo of therapy (1.99 mg/dL) with a complete normalization at the 6thand 12thmon.

OUTCOME AND FOLLOW-UP

A 24-mo follow up did not develop any further episode of jaundice;laboratory investigations showed normal values of hemoglobin (13 g/dL),AST,ALT,GGT,ALP and total bilirubin (1.32 mg/dL) at this time.Figure3 summarizes the course of most significant laboratory tests and a trend chart with the therapeutic process.

DISCUSSION

BRIC is a self-limiting disorder.There is no progression to cirrhosis:liver histology remains normal during remission.Therefore,it does not cause chronic liver disease.The knowledge of this entity is crucial as an early recognition can suggest the optimal prognostic and therapeutic approach.

Review of the literature:general overview

The first report of BRIC dates back to 1956.Its estimated incidence is approximately 1 in 50000 to 100000 people worldwide[1].It is due to an autosomal recessive disorder even if two subtypes are known according to respective associated gene mutations,i.e.,BRIC-1 (mutation in theATP8B1gene)[3]and BRIC-2 (mutation in theABCB11gene)[4].These mutations induce an impaired function of hepato-canalicular transporters for the secretion of bile components with a consequent intrahepatic cholestasis.Mutations inATP8B1andABCB11genes are also involved in a PFIC -type 1 and 2 characterized by a liver damage up to end-stage liver disease[5].BRIC diagnostic criteria proposed by Luketic and Shiffman represent the basics in the diagnosis of the disorder[1].Indeed,rare cases of BRIC that subsequently transitioned to a persistent progressive form of the disease (PFIC) have been described,thus suggesting the possibility of a clinical continuum among the different phenotypic expressions due to gene defect[7].Since both diseases (BRIC and PFIC) are referred toATP8B1andABCB11deficiency,as described by van der Woerdet al[5],the central role of genetic abnormalities is evident and molecular analysis may be useful both to predict the disease phenotype and determine a tailored treatment strategy.

Our case in the context of recent advances about genetic scenario

BRIC clinical,biochemical and histological pattern of our patient fully agreed with the criteria of Luketic and Shiffman[1].The finding of the nonsense variant (c.1558A＞T),in exon14 ofATP8B1gene,associated with immunohistochemical demonstration of FIC1 deficiency,confirmed our diagnostic hypothesis.At the best of our knowledge,the mutation we found (c.1558A＞T) has not been described in the scientific literature and international databases (ClinVar,Human Gene Mutation Database,Leiden Open Variation Database).Indeed,even if BRIC is an autosomal recessive disease,a single heterozygous variant in theATP8B1gene has been found in a single case of this disorder[8].This unexpected finding has induced to hypothesize that a counter allele could be present but not detected,since some mutations (such as large deletions) may be undetectable by common methods or involve not analyzed regions (untranslated regions,upstream regulatory sequences,introns)[9].On the other hand,the state of art demonstrates that the most commonATP8B1mutation identified in European BRIC patients (I661T) shows an incomplete penetrance in homozygous form,while its compound heterozygous form has been even associated to a case of PFIC-1[9].In addition,mutation type or location correlate with disease severity[9].

In this multifaceted setting of hepato-canalicular transporter genetic disorders,an apparently autosomal dominant transmission in a family with BRIC has been recently reported[10].These data suggest the likehood of an additional unmapped locus for autosomal recessive BRIC and PFIC[11].To support this possibility,biallelicMYO5Bmutations has been recently reported in patients with isolated low-GGT cholestasis[12].This finding suggests that patients lacking mutations in bothATP8B1andABCB11genes should be screened for additional gene mutations involved in bile secretion and transport pathways[13].Indeed,at this regard,a recent systematic review highlighted the “expanded PFIC disorders” thus suggesting the possible involvement of genes other than already known ones,such as those related toTJP2,NR1H4(FXR protein),MYO5B,USP53andLSRdefects,being these genes are all involved in bile transport physiology[14].

Differently from the other sequence variants ofATP8B1gene found in heterozygous form,we observed a “nonsense” mutation able to induce the insertion of a premature stop codon (p.Lys520Ter) and impair the production of FIC1.Additionally,this variant has never been described at the best of our knowledge,being not present in dbSNP,Exome Variant Server,or ExAC databases.Finally,a mechanistic study of its biological effect was performed by immunohistochemistry for gene codified protein deficiency and unquestionably confirmed that FIC1 level was severely lacking[15].

In this context,the mutation found in our patient perfectly fits with what known about the complex genetic scenario.Additionally,the nonsense variant was confirmed by Sanger sequencing and tested for familial segregation,showing a maternal inheritance,thus supporting the known familiarity of the disorder.

CONCLUSION

FIC refers to a heterogeneous group of autosomal recessive liver disorders,which occur worldwide.In all cases of FIC,a wide range of variations in clinical phenotypes has been observed,possibly due to the variability of the mutations and type of segregation,which have even been sporadically found as compound heterozygosity.Molecular analysis is mandatory for a correct and complete diagnosis and our case provides the novelty that the finding of a single nonsense heterozygous mutation does not exclude an inherited disorder.In this case,however,immunostaining for the corresponding encoded protein is recommended to confirm a cause-effect relationship.Therefore,the genetic heterogeneity and the complexity of the mechanisms related to the biliary flow suggest that inherited abnormalities other than those already known,could be not only at the basis of the spectrum of familial intrahepatic cholestatic disorders,but also of specific pro-cholestatic genetic predisposition,thus encouraging further investigations in this field.