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©The Author(s) 2021.
World J Hepatol. Jan 27, 2022; 14(1): 98-118
Published online Jan 27, 2022. doi: 10.4254/wjh.v14.i1.98
Published online Jan 27, 2022. doi: 10.4254/wjh.v14.i1.98
Table 1 Genotype, phenotype and histopathological differentiation of the various types of progressive familial intrahepatic cholestasis
| PFIC1 | PFIC2 | PFIC 3 | |
| Locus/gene/protein | 18q21-22/ATP8B1/FIC1 | 2q24/ABCB11/BSEP | 7q21/ABCB4/MDR3 |
| Known mutations (n)1 | 50 | 200 | 300 |
| Clinical profile | |||
| Onset | Early onset | Early onset | Second decade |
| Age of presentation pruritus | 60% by 3 mo | 72% by 3 mo | 2-3 yr |
| Jaundice | Severe | Severe | Mild to none |
| Cirrhosis | Severe; By end of first decade | Severe; Majority within first 2 yr of life | Mild to moderate; By end of first decade |
| Growth failure | Present 90% | Present 59% | |
| Others | Diarrhea 61%; Pneumonia 13%; Pancreatitis 12%; Deafness 31% | Gall stones in 32% | Delayed puberty |
| Progression | Moderate rate of progression | Rapidly progressive | Highly variable rate of progression |
| Associations with other cholestatic presentations | BRIC; ICP | BRIC, DIC; ICP, HCC | DIC, LPAC; ICP |
| Laboratory profile | |||
| TBA | High | Very high | High |
| GGT | Low to normal | Low to normal | High |
| AST/ALT | Mild elevation | Moderate elevation | Mild elevation |
| AFP | Normal | High | Normal |
| Histopathology | As disease progresses, periportal & pericentrilobular fibrosis develops; Leads to bridging fibrosis and micronodular cirrhosis | Canalicular cholestasis, lobular/portal fibrosis and inflammation with giant cells; Severe hepatocellular necrosis | Portal inflammation, portal fibrosis, cholestasis, ductular proliferation |
| Immunohistochemistry | Canalicular BSEP is normal or faint and MDR3 is normal bland intralobular cholestasis | BSEP expression decreased to absent in the canalicular membrane | MDR3 decreased to absent in the canalicular membrane |
Table 2 Drugs used for control of pruritus in progressive familial intrahepatic cholestasis: Mechanism of action, dose, adverse effects
| Drug | Mechanism of action | Dose | Adverse effects |
| Ursodeoxycholic acid | Protection of cholangiocytes from the hydrophobic bile acids; Choleretic action through both bile acid dependent (cholehepatic shunt) and independent pathway; Protection of hepatocytes from bile acid induced apoptosis; Direct membrane stabilizing effect in cholangiocytes; Up-regulate synthesis, apical insertion & activation of BSEP & Mrp2 via Ca2+ and PKC-dependent mechanisms or via activation of p38 MAPK and Erk-1/2–dependent mechanisms in animal models | 10-30 mg/kg/d | Adverse effects rare: Severe vomiting or diarrhoea |
| Rifampicin | Activates pregnane X receptor leading to decrease in autotoxin level thus leading to decrease in lysophosphatidic acid synthesis and down-regulation of TRP vanilloid 1; Upregulates multidrug-resistance protein 2; Activates enzymes UDP-glucuronosyltransferase-1A and cytochrome P450-3A4 and stimulates 6α-hydroxylation of bile acids, promoting urinary excretion of dihydroxy and monohydroxy bile acids | 5-10 mg/kg/d | Adverse effects rare: Hepatotoxicity, vomiting |
| Bile acid sequestrants: Cholestyramine, colestipol, colesevelam | Non-absorbable anion exchange resins that bind bile acids, cholesterols and other compounds in the intestinal lumen and prevent their enterohepatic circulation | 240-500 mg/kg/d; Usually administered mixed with juice | Palatability, steatorrhoea, constipation, intestinal obstruction from inspissations, hyperchloremic metabolic acidosis; Growth failure; Decreased absorption of other drugs (e.g., UDCA) if not spaced; Need to be spaced from food |
| Opioid antagonists: Naltrexone | Reduces central opioidergic tone, believed to be raised in patients with cholestatic pruritus; Decreasing plasma levels of endogenous opioids like enkephalins | Gradually increment starting at 12.5 mg/d increasing every 3-7 d till pruritus reduces | Opioid withdrawal-like symptoms including abdominal pain, tachycardia and hypertension |
| Selective serotonin reuptake inhibitors: Sertraline | Exact mechanism of action not elucidated; Mediates its effect through serotonergic signals in the central nervous system that provide inhibitory signals to the itch pathways; Neuropharmacologic inhibition of stress | Adults: 75-100 mg/d; Children: 2.2 mg/kg/d | Adverse effects: Allergic reaction, behavioural issues, diarrhoea, insomnia, dizziness, high first pass metabolism-risk of hepatotoxicity |
Table 3 Recent studies describing outcome and complications with biliary diversion surgeries in progressive familial intrahepatic cholestasis
| Study | Type of biliary diversion | No of patients | Median follow up | Outcome | Adverse events |
| Yang et al[54] (2009) | PEBD | 14 (11-PFIC) | 3.1 yr (2-5.7) | Resolution of pruritus: 50%; Decrease in pruritus: 21%; Decrease in serum bile acids; Improvement in growth; Improved quality of life; No response in 2 patients with advanced fibrosis; 21.4% were listed for LT at mean follow-up 3.2 yr (all had advanced fibrosis pre-PEBD) | 3 developed stoma prolapse; Post-op bleed and wound dehiscence in 1 each |
| Schukfeh et al[55] (2012) | PEBD | 24 | 9.8 yr (1.6-14.3) | Resolution of pruritus with normalization of bile acids in 54%; 37.5% received LT at mean 1.9 yr; All of them had failed PEBD & 78% of them had cirrhosis pre-PEBD | Stomal prolapse in 2; Cholangitis, dyselectrolytemia, GI bleed and intestinal obstruction in 1 each |
| Wang et al[50] (2017) | PEBD; IE; PIBD | 39; 11; 7; (38 PFIC & 20 alagillesyndrome) | 24 mopostsurgery | Decrease in severe pruritus-54% in PFIC1 and 30% in PFIC2; Trend towards decreased pruritus after IE and PIBD; PEBD but not IE led to decrease in bilirubin and ALT in PFIC1; 23.7% of PFIC underwent LT post diversion | PEBD: Dehydration/dyselectrolytemia in 4; Stoma prolapse in 3; Intestinal ischemia & bowel obstruction in 1 each; IE; Dyselectrolytemia-2; PIBD: Dyselectrolytemia in 2, intestinal ischemia & intussusception-1 each |
| Cielecka-Kuszyk et al[47] (2019) | PEBD | 4 (all PFIC2) | > 10 yr | Resolved cholestasis in 3; Reversal of fibrosis in 2 | |
| Bull et al[48](2018) | PEBD; IE | 57; 6 | Sustained improvement in pruritus: PFIC1-57%; PFIC2 (D482G/E297G mutations)-76%; PFIC2 other mutations-33%; Improvement in bilirubin and bile acids; Improvement in growth; 27% of PFIC1 & 31% of PFIC2 were listed or received LT (less often in D482G/E297G) | Dehydration/dyselectrolytemia due to high stoma output seen in 6 patients (1 died); Cholangitis in 3; Bile stagnation in 2; Stoma bleed in 1 | |
| Van Wessel et al[20] (2020) | PEBD; IE; PIBD | 47; 13; 1; (all PFIC2) | 8.4 yr (1.6-12) | Relief in pruritus – sustained: 54%; Transient: 17%; None: 29%; Relief in pruritus more common in BSEP1 mutations (66%) vs BSEP2 (36%) & BSEP3 (0%); Decrease in serum bile acids, bilirubin, AST & ALT; A 75% reduction in bile acids or decrease to a level < 102 µmol/L post diversion predicts long term NLS of > 15 yr; Biliary diversion associated with higher NLS: HR 0.51; 95%CI: 0.29-0.91, P = 0.02 | |
| Bjørnland et al[49] (2021) | PEBD | 33; (25 PFIC) | 10 yr (0.6-25.2) | Decrease in bile acids 1 wk post-op predictive of successful drainage; 39% received LT or were listed LT at a median follow up of 10 yr | 42% early post op complications; Long term stoma related complications in 55%-20% secondary surgeries |
| Van Vaisberg et al[51] (2020) | IE | 11 | 5 yr | Significant relief in pruritus: 8 (72.7%); 2/11 (18.2%) progressed to ESLD within a year and were listed for LT | Intussusception in 1; No diarrhoea |
| Foroutan et al[53] (2020) | PIBD | 44 | 54 mo (10-105) | Significant decrease in jaundice and pruritus | Ascending cholangitis in 19.2%; No difference in cholangitis between standard procedure and PIBD with anti-reflux valve |
| Chen et al[52](2018) | PIBD | 34; (PFIC1-10, PFIC2-14, PFIC3-5) | - | Decreased bilirubin and bile acids; Improved growth; 2 (5.9%) underwent LT at 20 & 39 mo post PIBD | Dyselectrolytemia/dehydration in 2; Relapse of symptoms in 4 |
| Agarwal et al[38] (2016) | PIBD; PEBD | 3; 1 | 2 yr (1-2) | PIBD: Decrease in pruritus score, improved growth & decreased serum bile acids; PEBD: Failed; One with failed PEBD needed LT in 7 yr; Rest all survived with native liver at mean follow up 8 yr | No complications with PIBD |
| Bull et al[48](2018) | PEBD; IE | 57; 6 | Sustained improvement in pruritus: PFIC1-57%; PFIC2 (D482G/E297G mutations)-76%; PFIC2 other mutations-33%; Improvement in bilirubin and bile acids; Improvement in growth; 27% of PFIC1 & 31% of PFIC2 were listed or received LT (less often in D482G/E297G) | Dehydration/dyselectrolytemia due to high stoma output seen in 6 patients (1 died); Cholangitis in 3; Bile stagnation in 2; Stoma bleed in 1 |
Table 4 Potential novel therapeutic drugs for treatment of progressive familial intrahepatic cholestasis
| Drug | Mechanism of action | Clinical trials and current status | Notes |
| Maralixibat/LUM001 | Apical sodium-dependent bile acid transporter inhibitor | NCT04185363: Open label phase III trial; Recruiting patients; NCT03905330: MARCH-PFIC trial; Randomized controlled trial, recruiting patients; NCT04729751: RISE trial in infants; Open label phase II safety study; NCT04168385: Long term safety study; NCT02057718; Open label phase II trial; Completed | Orphan drug designation by FDA; Breakthrough therapy for PFIC2 |
| Odevixibat/A4250 | Selective inhibitor of ileal bile acid transporter | NCT03566238: PEDFIC 1 study; Phase III, open label, randomized controlled trial; Ongoing; NCT04483531: Expanded access study including patients not enrolled in PEDFIC 1 study | Orphan drug designation by FDA; Fast track designation for PFIC |
| 4-PB/GPA | Prolongs degradation rate & increases cell surface expression of BSEP & functions as a chemical chaperone to correct the misfolded proteins | Leads to long term reduction in serum BA, improvement in liver biochemistry as well as relief of pruritus; Increased canalicular localization of E297G and D482G BSEP mutants; GPA more palatable, has lower sodium, doesn’t interact with rifampicin; Doses: 4-PB: 500 mg/kg/d; GPA: 8 g/m2/d | 4-PB FDA approved for urea cycle defect |
| Ivacaftor | Rescues the function of missense mutations in the nucleotide binding domains of BSEP & MDR3 | In vitro correction of binding domain missense mutation (T463I) of BSEP; Improved phospholipid secretion activity in mutant ABCB4 | In vitro studies; Animal studies |
| Oxcarbazepine | Nerve stabilizing effect; Enzyme inducer – possible role in potentiating action of 4-PB | Single case report on its combined use with 4-PB and maralixibat | |
| Gentamicin | Induce readthrough in nonsense mutation | In vitro increased readthrough in 6 common nonsense mutation of BSEP leading to increased canalicular expression of bile salt transporter | |
| FXR agonist (Obeticholic acid) | Farsenoid X receptor agonist | No trials in PFIC; Safe and efficacious in treatment of PSC and non-alcoholic steatohepatitis | FDA approved for PSC |
| Nor-UDCA | Side-chain-shortened derivative of UDCA; Increases cholehepatic shunt | No trials in PFIC; NCT03872921: Ongoing phase III randomized controlled trial in PSC | |
| Steroids | Possible upregulation of BSEP transporter? Up-regulation of sodium taurocholate copeptide transporterproviding increased gradient for BSEP | Only case reports and animal studies | |
| NGM282 | FGF19 analogue | NGM282 inhibited bile acid synthesis and decreased fibrosis markers, without change in alkaline phosphatise level | |
| Bezafibrate | Peroxisome proliferator activated receptor agonist | Bezafibrate reduced pruritus and cholestasis in 2 out of 3 children with PFIC1 and improved lipid profile in all |
- Citation: Alam S, Lal BB. Recent updates on progressive familial intrahepatic cholestasis types 1, 2 and 3: Outcome and therapeutic strategies. World J Hepatol 2022; 14(1): 98-118
- URL: https://www.wjgnet.com/1948-5182/full/v14/i1/98.htm
- DOI: https://dx.doi.org/10.4254/wjh.v14.i1.98