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Inborn Errors of Bile Acid Metabolism

James E. Heubi, M.D.Professor, Department of Pediatrics

Associate Dean for Clinical and Translational ResearchDirector of Center for Clinical and Translational Science and 

TrainingTraining University of Cincinnati College of Medicine

Financial DisclosuresFinancial Disclosures

• Equity interest in AsklepionEquity interest in Asklepion Pharma, LLC. 

• Funding: NCATS, NIDDK, NICHD, and CFFand CFF

• Consultant to Nordmark, Retrophin, Alnylamp y

Outline

• Causes and evaluation for neonatal cholestasis• Role of bile acids in cholestasis and fat/fat soluble vitamin absorption

• Pathophysiology of inborn errors of BA metabolism• Diagnosis of inborn errors of BA metabolismg• Commonly identified defects• Treatment 

Differential Differential --““Neonatal CholestasisNeonatal Cholestasis”” 19731973

2525%% 5555%%

77%% 3%55%% 5555%%

1010%%

"Neonatal Hepatitis" A-1-AT deficiencyBiliary Atresia Miscellaneous*Biliary Atresia Miscellaneous*"Viral" (TORCH)

Differential Differential --“N t l Ch l t i ”“N t l Ch l t i ” 20162016

1515%%55%%

“Neonatal Cholestasis”“Neonatal Cholestasis” 201620161515%% 1010%%55%%

2525%%

2020%% 2525%%

"Neonatal Hepatitis" A-1-AT deficiencyNeonatal Hepatitis A 1 AT deficiency"PFIC" & Alagille Metabolic DiseaseBiliary Atresia Viral

Role of Bile AcidsRole of Bile Acids• Major metabolic pathway for elimination of j p ycholesterol

• Promote formation/ secretion of bile• Fat and fat soluble vitamin absorption• Cathartic action‐induce water and electrolyte ysecretion

• Bacteriostatic properties• Role in signaling pathways

EHC and BA Metabolism 101

Biochemical Anomalies/ Hepatotoxicity of Bile Acid Synthesis Disorders1-3Bile Acid Synthesis Disorders1-3

f f• Lack of, or markedly diminished synthesis of primary bile acids, CA and CDCA→ poor bile flow

• Concomitant production and accumulation of precursors in the pathway proximal to enzyme defect→metabolites may be directly toxicbe directly toxic

1. Bove KE, et al. Pediatr Dev Pathol. 2000;3(1):1-16. 2. Witzleben CL, et al. Pediatr Pathol. 1992;12(2):269-274. 3. Setchell KD, Heubi JE. J Pediatr Gastroenterol Nutr. 2006;43(suppl 1):S17-S22.

8

Clinical Sequelae of BASD: qSED vs PD

Sterol-Ring Modifications

HSD3B7 (3β-HSD)

AKR1D1 (5β-reductase)

(CYP7B1) Oxysterol 7α-hydroxylase

Side Chain Modifications

Rapid onset of liver failure, high mortality1

Single-enzyme

Side-Chain Modifications

(CYP27A1) Sterol-27 hydroxylase (CTX)(AMARC) 2-methylacyl-CoA racemase

(BAAT) Bile acid CoA: amino acid N-acyl-

Multiorgan disease of varying severity, complicated clinical

defects2

transferase, (SLC27A5) Bile acid CoA ligase

Secondary BASD (PEX)

Peroxisomal biogenesis defects (Zellweger)

presentation with high mortality rate2,3

Peroxisomal spectrum

disorders4

Clinical phenotype is highly variable ― high index of suspicion based on physical examination and laboratory evaluation

Diagnosis of Inborn Errors of gBile Acid Metabolism

Di i fi d i C i l l b• Diagnosis confirmed in Commercial lab• www.genetests.org

• CCHMC (formerly jaundice chip)CCHMC (formerly jaundice chip)• www.cincinnatichildrens.org/service/h/hereditary‐liver/tests/

E• Emory• http://geneticslab.emory.edu/tests/MM340

• Supported by RetrophinSuppo ted by et op• http://testcholestasis.com

3ß-OH steroid dehydrogenase/ y gisomerase deficiency

• Presents with cholestasis in infancy• Presents with cholestasis in infancy• Fat soluble vitamin deficiency (rickets, bleeding)• Older siblings of affected infants/children• Older siblings of affected infants/children• Low serum gamma GT concentration• Indolent coursecirrhosisIndolent coursecirrhosis• May have rapidly progressive coursetransplantation

• May present in later childhood/ adulthood

Ursodeoxycholic acid may improveUrsodeoxycholic acid may improve ALT/AST but not suppress synthesis and prevent liver injury

Pathology in 3-HSDgy

www.newedu.com

4-3-oxosteroid-5-reductase d fi ideficiency

• Initial description of monochorionic twins presentingInitial description of monochorionic twins presenting with neonatal cholestasis

• Presented with jaundice and varying severity of liver j y g ydysfunction

• Rapidly progressive disease leading to cirrhosis in infancy: Previously presumed affected sibling died in infancy 

Effect of Therapy on Bile Acid E tiExcretion

Biochemical Response to Therapy

Clinical History Index PatientClinical History-Index Patient A i l ( t 1st i ) f ll t• Asian male (parents 1st cousins), full term pregnancy, BW 2.6 kg

• At 8 weeks, prolonged jaundice, pale stoolsAt 8 weeks, prolonged jaundice, pale stools• Serum bilirubin 4.9 mg/dl, albumin 3.9 gm/dl, AST 275 u/L, ALP 1281 U/L

• Cholic acid startedCholic acid started• Age 3 months, poor growth, weight 3%ile, hepatosplenomegaly

• Serum AST 260 U/L, ALT 212 U/L, GGT 95 U/L, ALP 2555 U/L

Clinical History Index PatientClinical History Index Patient

• Impression:  Neonatal hepatitis • Age 4 months: jaundice↓, pruritusAge 4 months: jaundice ↓, pruritus• Age 5 months: resolved jaundice, pruritus improved, BW at 50th%ile

• Age 8 months: LFT’s normal• Age 13 months: seizuresg

Disorders of PeroxisomalFunction

Z ll d N t l• Zellweger syndrome, Neonatal Adrenoleukodystrophy, Refsum syndrome 

• Profound muscular weakness, liver disease, fatal Profound muscular weakness, liver disease, fatalearly in life

• Characterized by absent peroxisomes or defects of i ienzymes in peroxisomes

• BA and defects of FA metabolism:• Accumulation of VLCFA, Pipecolic Acid, Phytanic, Pristanic Acids, p , y ,• Di‐ and Trihydroxycholestanoic acid

Effect of peroxisomal disorders on BA psynthetic pathway

Effect of CA in Peroxismal DisordersEffect of CA in Peroxismal Disorders

Response to Cholic AcidResponse to Cholic Acid

Berendse K, et al. J Inherit Metab Dis DOI 10.1007/s10545-016-9962-9

Safety/Efficacy of Cholic Acid

• Bile acid therapy singled out as curative  for BA defects by IOM*IOM*

• No drug‐related adverse events in > 20 year use• Impressive clinical responsep p

• Normalization of liver chemistries• Resolution of histologic abnormalities• Improved growthImproved growth

• Treatment failures only in advanced ESLD• Exceptions (Cholic acid does not work!)

• Oxysterol 7α‐hydroxylase deficiency• Conjugation defects (treated with glycocholic acid)

*IOM Report on Rare Diseases and Orphan Products 2010

Acknowledgements• William K Schubert, M.D.• Bill Balistreri, M.D. 

• Collaborating MDs• Ron Sokol• Carol Potter• Ben Shneider

• Donna Buckley• Nancy O’Connell• Linda Nechemias

• Ben Shneider• Rob Squires• Saul Karpen• Simon HorslenD id S ki d• Linda Nechemias

• Pinky Jha• Wujuan Zhang

• David Suskind• Phil Rosenthal

• CRC Staff• Nurses, dietitians

• Stephanie Galandi• Kevin Bove, M.D. • Laura Woollett, Ph.D.

Nurses, dietitians• Andrea Smith

• Patients/families• Sponsors,

• David Russell, Ph.D. • NIH (NCRR, NIDDK), FDA (OPG), CCHMC, Asklepion Pharm

Gracias

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