autoimmune & hereditary pancreatitis

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Autoimmune & Hereditary Pancreatitis David C Whitcomb MD PhD AGAF Giant Eagle Foundation Professor of Cancer Genetics. Professor of Medicine, Cell Biology & Physiology, and Human Genetics Chief, Division of Gastroenterology, Hepatology and Nutrition. University of Pittsburgh PRINCIPLES OF GASTROENTEROLOGY for the NURSE PRACTITIONER AND PHYSICIAN ASSISTANT

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PRINCIPLES OF GASTROENTEROLOGY for the NURSE PRACTITIONER AND PHYSICIAN ASSISTANT. Autoimmune & Hereditary Pancreatitis. David C Whitcomb MD PhD AGAF Giant Eagle Foundation Professor of Cancer Genetics. Professor of Medicine, Cell Biology & Physiology, and Human Genetics - PowerPoint PPT Presentation

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Page 1: Autoimmune  & Hereditary Pancreatitis

Autoimmune & HereditaryPancreatitis

David C Whitcomb MD PhD AGAF Giant Eagle Foundation Professor of Cancer Genetics.

Professor of Medicine, Cell Biology & Physiology, and Human GeneticsChief, Division of Gastroenterology, Hepatology and Nutrition. University of Pittsburgh

PRINCIPLES OF GASTROENTEROLOGYfor the NURSE PRACTITIONER AND PHYSICIAN ASSISTANT

Page 2: Autoimmune  & Hereditary Pancreatitis

Disclosure

Professor Whitcomb has served as a consultant for Abbvie, Chicago, IL; Millennium Pharmaceuticals, Cambridge, MA, USA; SMART-MD, Pittsburgh, PA and Novartis, Basal, Switzerland. He is Editor, Pancreatic Diseases for UpToDate, Waltham, MA. He owns stock in Ambry Genetics and equity in SMART-MD. His research is supported by the Department of Defense, the National Institutes of Health, the National Pancreas Foundation, and the Wayne Fusaro Pancreatic Cancer Research Fund.

Page 3: Autoimmune  & Hereditary Pancreatitis

Pancreatitis

• Acute Pancreatitis• Recurrent Acute Pancreatitis*• Chronic Pancreatitis*• (Pancreatic cancer)

* Recurrent acute pancreatitis (RAP) and chronic pancreatitis (CP) are part of a continuum – the RAP/CP Syndrome

Page 4: Autoimmune  & Hereditary Pancreatitis

Etiology-based Classification of RAP/CP

• TIGAR-O classification– Toxic-metabolic

• Alcohol use• Smoking

– Idiopathic– Genetic– Autoimmune– Recurrent or Severe Acute – Obstructive

Etemad & Whitcomb. Gastroenterology, 2001.

Page 5: Autoimmune  & Hereditary Pancreatitis

Autoimmune Pancreatitis

Type 1Type 2

Tests and interpretation

Page 6: Autoimmune  & Hereditary Pancreatitis

Definition of AIP• Immunoglobulin G4-related disease (IgG4-RD) is a

syndrome of lymphocyte dysfunction comprised of a collection of disorders that share specific pathologic, serologic, and clinical features.– Tumor-like swelling of the involved organ– A lymphoplasmacytic infiltrate with IgG4-positive plasma

cells– Variable fibrosis with a “storiform” (swirling) pattern.– Elevated serum IgG4 levels in the majority of patients (60-

70%)• IgG4-RD of the pancreas = AIP type 1

Page 7: Autoimmune  & Hereditary Pancreatitis

Comparison of IAP type 1 & 2Type 1 AIP• Periductal lymphoplasmacytic

infiltrate, storiform fibrosis, and obliterative venulitis

• Older (62 +/- 14 years)• Common elevated IgG4* (80%)• Other organ involvement (60%):

– proximal biliary,– retroperitoneal,– renal, – salivary disease.

• Inflammatory bowel disease (6%)• High relapse rate after steroids

Type 2 AIP• Granulocytic epithelial lesions

(GEL)

• Younger (18 +/- 19 years)• Rare elevated IgG4* (17%)• Other organ involvement (0%):

• Inflammatory bowel disease (16%) • Relapse is rare

*Up to 7% of pancreatic ductal adenocarcinoma cases have elevated IgG4 levels

Sah, Gastroenterology, 2010.

Page 8: Autoimmune  & Hereditary Pancreatitis

Autoimmune Pancreatitis Case

59 yr retired coal miner, presents with 2 week history of

painless jaundice, dark urine, and 16 lb weight loss.

Past History: Diabetes for 8 years (uncontrolled in past few months), OsteoarthritisFamily History: UnremarkableSocial History: Does not drink or smokeMedications: Insulin, occasional analgesicsPhysical Exam: Icteric sclera, enlarged submandibular glands, otherwise normal.Labs: Total bilirubin - 4.2, Direct bilirubin - 3.1,

ALT - 306, AST - 140, ALP - 264, CA 19-9 – normal From Dhiraj Yadav MD MPH

Page 9: Autoimmune  & Hereditary Pancreatitis

FNA cytology: negative for malignant cells

Type 1 AIP

Pancreasfest 2009

Page 10: Autoimmune  & Hereditary Pancreatitis

Follow up

• Initial improvement on steroids• Developed extrapancreatic biliary strictures• ERCP with stents.• Added azathioprine, not tolerated• Treated with Mycophenolate Mofetil

(CellCept)– resolution of strictures, stents removed

From Dhiraj Yadav MD MPH

Page 11: Autoimmune  & Hereditary Pancreatitis

45 year old man with acute pancreatitis and PEI that did not resolve

Serum IgG4 was normal: EUS FNA demonstrated lymphoma.

Page 12: Autoimmune  & Hereditary Pancreatitis

AIP Evaluation and Treatment• Start prednisone 40 mg/day for 4 weeks. • After 4 weeks, assess response by clinical evaluation,

radiology, and serology (IgG4 levels).• If clinical, serologic, or radiographic response was

documented (and dramatic), then– Taper prednisone 5 mg/wk until gone.

• If limited response, consider biopsy and/or cancer evaluation.

• If AIP documented and recurrent, then consider adding immunosuppression (e.g. azathioprine)

Page 13: Autoimmune  & Hereditary Pancreatitis

Pancreatic Genetics

Mendelian geneticsComplex genetics

Genetic tests and interpretation

Page 14: Autoimmune  & Hereditary Pancreatitis

Genetics – Key Points• Pathogenic genetic variants act by:

– Altering protein expression – Altering protein location– Altering protein function

• Loss of function• Gain of function• Change of function

• Pathogenic genetic variants cause disease by:– Altering normal development (congenital)– Altering function (congenital or acquired)– Altering responses to stress or injury (acquired)

Page 15: Autoimmune  & Hereditary Pancreatitis

Pancreatitis – Genetic Risk• Pancreatitis is a complex genetic disease:

– Strong underlying genetic risk of recurrent acute pancreatic injury (susceptibility).

– Strong underlying genetic risk of progression to fibrosis, pain, diabetes, cancer. (disease modifiers)

– Environmental factors such as alcohol and smoking accelerate and worsen pancreatic disease

• Early knowledge of the basis of increased risk could be used to improve diagnostic certainty, identify syndromes and target therapy.

• Genetics is predicted to change pancreatic disease management from treating end-stage symptoms to minimizing the disease!

Page 16: Autoimmune  & Hereditary Pancreatitis

MENDELIAN GENETICS:CATIONIC TRYPSINOGENCYSTIC FIBROSIS TRANSMEMBERANE CONDUCTANCE REGULATOR

Pancreatic Genetics

Page 17: Autoimmune  & Hereditary Pancreatitis

Trypsinogen Regulation

• The master enzyme controlling all other digestive enzymes

• Trypsinogen controlled by:– Trypsin(2)

Calcium(2)– SPINK1

Modified from Whitcomb, Hereditary and Childhood Disorders of the Pancreas, Including Cystic Fibrosis. Sleisenger and Fordtran’s Gastrointestinal and Liver Diseases, 7th Edition, 2002

TAP

Trypsin

= calcium

Trypsin(ogen)CTRC

Page 18: Autoimmune  & Hereditary Pancreatitis

Trypsin/SPINK1

Mendelian: autosomal dominant• Hereditary pancreatitis (HP): multiple large pedigrees

– Acute Pancreatitis in 80% with the gene– Chronic Pancreatitis in 50% with acute pancreatitis– Pancreatic Cancer in >40% with chronic pancreatitis.

• Gene: cationic trypsinogen (PRSS1)*• Variants: “Gain of function”

– Increase activation – decreasing inactivation.

• HP – illustrated: – Acute Pancreatitis (first) – Chronic Pancreatitis and complications (later) – Suggested a “two hit” CP model (SAPE)**.

* Whitcomb et al, Nature Genetics, 1996** Whitcomb, Gut 1999

R122H

N29I

Page 19: Autoimmune  & Hereditary Pancreatitis

Hereditary Pancreatitis – Natural History

Howes et al. Clin Gastroenterol Hepatol. 2004;2(3):252-61

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Sentinel Acute Pancreatitis Event (SAPE)

Whitcomb, Gut 1999Whitcomb, Gastroenterology 2013;144:1292–1302

Page 21: Autoimmune  & Hereditary Pancreatitis

CFTR Molecule

Key Features• Regulated anion channel• Located in the apical

plasma membrane of epithelial cells

• Expressed in pancreatic duct cells close to the acinar cells.

• WINK1/SPAK activation changes CFTR from a chloride- to a bicarbonate-preferring channel.

CytoplasmLaRusch. PLoS Genetics, 2014

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Mendelian: recessive• Cystic Fibrosis (of the pancreas)

– Clinical syndrome(s)• Classic CF: pancreatic insufficiency, abnormal sweat chloride,

progressive lung disease, meconium ileus, male infertility (CBAVD), liver disease.

• Atypical CF: like CF but milder symptoms• CFTR-Related Disorders: (CFTR-RD)

– Recurrent acute & chronic pancreatitis (CFTR + SPINK1)*– Pancreatitis, male infertility, chronic sinusitis (CFTR-BD**)

– Genotype: CFTRx/CFTRX (x = CFTRsev, CFTRmv or CFTRBD)***

– Diagnosis: Clinical features, + Sweat chloride or nasal potential difference + abnormal CFTR genotype.

– Consider referral to a CF Center to make the diagnosis.* CFTR/SPINK1 genotypes represents a complex disorder** BD, bicarbonate conductance defective.*** functional effects on CFTR function, sev=severe, mv=mild variable

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COMPLEX GENETICSPancreatic Genetics

Page 24: Autoimmune  & Hereditary Pancreatitis

Complex Genetics

Pathogenic genetic variables that are neither sufficient nor necessary to cause a disease, but that come together with other factors (genetic or environmental) to increase susceptibility to a condition, or to modify its clinical features.• Gene x Environment: (e.g. CLDN2 + alcohol)• Gene x Gene: (e.g. CFTR + SPINK1)

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Genetic Variants Related to Trypsin

• Genes linked to CP susceptibility all regulate intra-pancreatic trypsin activity.• Both the acinar cells and duct cells are linked with pancreatitis-causing variations

Whitcomb DC. Annu Rev Med. 2010;61:413-24.

CASR = calcium sensing receptorCTRC = chymotrypsinogen CCFTR = cystic fibrosis trans-membrane conductance

regulatorPRSS1 = cationic trypsinogenSPINK1 = pancreatic secretory

trypsin inhibitor

Acinar cell

Duct cell

AIR = Acute inflammatory response (acute phase protein expression)

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GENETIC TESTS AND INTERPRETATIONPancreatic Genetics

Page 27: Autoimmune  & Hereditary Pancreatitis

Genetic Testing• Mendelian Disorders (HP, CF):

– Testing used to confirm or establish a diagnosis in the setting of disease symptoms.

– Genetic counseling is typically recommended prior to ordering the test, and to explain results

• Complex Disorders: (RAP/CP syndromes)*:– Increases or decreases the likelihood that an equivocal pancreatic

structural or functional test, or pancreatitis-like symptoms is a true positive.

– Helps identifies pathogenic pathways leading to RAP, and alters the likelihood that specific complications will occur (e.g. rapid fibrosis).

– May be useful in predictive disease modeling and personalized (individualized) medicine.* These points reflect the personal opinion of the author and have not been

agreed upon by any society or authoritative group.