Last night, a symposium on “Genetic Testing and the Future of Pediatric Gastroenterology” sponsored by Children’s Healthcare of Atlanta took place. The speakers included Dr. Ben Gold from our pediatric GI group (GI Care for Kids), Dr. Saul Karpen and Dr. Subra Kugasthasan (Emory), and Dr. Robert Heuckeroth (CHOP).
This blog entry has abbreviated/summarized the presentations. Though not intentional, some important material is likely to have been omitted; in addition, transcription errors are possible as well. All of the speakers had terrific presentations.
GI Genetic Testing –Subra Kugathasan
Reasons for genetic testing:
- Predicting prognosis: predicting stricturing/fibrosis in Crohn’s, predicting cancer in ulcerative colitis; BRCA1 in breast cancer
- Choosing the right medicine: pharmcogenomics
- Precision medicine: prevention of disease, slowing progression of disease.
Examples in current medicine:
- Recurrent pancreatitis –novel mutations identified in SPINK1. Also now hereditary pancreatitis may be due to mutations in CPA1, GGT1, CLDN2, MMP1, MTHFR in addition to CTRC, SPINK1, CFTR, and PRSS1.
- Inflammatory bowel disease (IBD):IL10 Receptor mutation , TTC7A –>VEO IBD; IPEX gene (can worsen with immunosuppression). Panel testing now available for 40 genes –4 of 22 patients identified with IBD. Identifying cause of VEO IBD may lead to treatment: bone marrow transplantation.
- IBD: CLIA/CAP certified Emory Genetics panel ~50 genes (genetics.emory.edu/egl/tests/view.php?testid=4420). Dr. Kugathasan indicated that this testing is likely to be a better 1st step then exome testing. Yield with exome sequencing (in highly selected populations) about 25% at this time but likely to increase. If negative, can proceed with whole exome sequence. Numerous problems with exome sequencing; for example, exome sequencing may identify genes of unknown significance and identifying genetic problems unrelated to clinical issue.
Who/When to test?
- Very early onset disease (<10 years), atypical presentation, perhaps treatment-refractory.
Take-home point: “All GI diseases have genetic testing in future.” Testing for highly selected patients for gene defects can be accomplished with gene panel and if negative, whole exome testing.
Related blog posts:
- Just the Beginning: Mutations in Very Early Onset …
- More Data on Early–Onset Pediatric Inflammatory Bowel …
Liver: Cholestatic & Metabolic Diseases of Infants and Children —Saul Karpen
Potential areas for genetic testing:
- Neonatal cholestasis: PFIC, Metaboic, Biliary Atresia
“Why bother…they all get transplanted anyway…” According to Dr. Karpen, this view needs to be reconsidered.
- (Front Pediatr 2014; 2: 65) 41% with biliary atresia, 13% idiopathic, and a lot of others. N=82. Other etiologies: Genetic disorders; Biliary disease (eg. Caroli), transporter defects (PFICs/BRICs), Metabolic (Niemann-Pick C, tyrosinemia, HFI, Peroxisomal, GSDs, Peroxisomal, Mitochondrial, A1AT). Thus, panels to identify these disorders can be very helpful.
- Emory Cholestasis 56+ Gene Panel. Testing is cheaper than endoscopy
PFIC: Progressive Familial Intrahepatic Cholestasis
- PFIC1: ATP8B1 (Byler) –besides cholestasis, patients often with diarrhea, hearing loss, very itchy; can have cirrhosis at 2 years of life
- PFIC2: ABCB11 (BSEP deficiency) –can have cirrhosis at 6 mo, prone to HCC (as early as 13 mo), very itchy
- PFIC3 (high GGT) ABCB4 –can have cirrhosis at 5 mo, can cause problems at later ages as well (eg. intrahepatic cholestasis of pregnancy, gallstones); increase risk for HCC/cholangiocarcinoma.
- Identifying PFIC (could mimic PSC) and BRIC (Benign Recurrent Intrahepatic Cholestasis)–is helpful in following patients for specific management when symptoms recur and to screen for complications (eg. HCC).
- No clear genetics in most
- Laterality defects in 5-10% -asplenia/polysplenia, cardiac defects
- GPC1 gene is a susceptibility gene in zebrafish
- ADD3 gene identified in Han Chinese OR 2.38 –may be a susceptibility gene. (30% of cases, 17% of controls)
NAFLD: Associated with increased mortality compared with matched controls. Patients develop thicker atherosclerotic plaques. PNPLA3 gene identified as a susceptibility gene for NAFLD and is highly prevalent in Hispanic populations. Similarly, PNPLA3 has been associated with NASH in Italian populations. If you have this genotype, this increases risk of liver fat in the face of increased sugar consumption.
Transplant medicine: Deoxyguanosine Kinase Deficiency (DGUOK) –rapid sequencing for this gene pretransplant –If positive, should not be transplanted. These individuals have systemic disease that cannot be cured with liver transplantation.
Who/When for genetic testing?: DGUOK in liver failure patients, and in infants without diagnosis after liver biopsy/exclusion of A1AT
Take-home message: Genetic testing has a role in pediatric liver disease and it is affordable.
Related blog posts:
- Mitochondrial Liver Disease – gutsandgrowth – WordPress
- Itchy and Scratchy | gutsandgrowth
- BRIC, PFIC, and nasobiliary drainage | gutsandgrowth
GI –Single Microbes to the Microbiome and GI Disease —Ben Gold
- Described why changes in our environment can trigger development of disease due to changes in microbiome (eg. immigrants/children with IBD in developed countries at much higher rate than at developing countries)
- Discussed Helicobacter pylori –‘how a single microbe which may have been good turned bad’
- Described pathogenesis. What you get exposed to early on may lead to an exaggerated response by T-cells/immune system. Healthy microbiota is critical to train the immune system via GALT to protect host and decrease the chances for immune overexpression.
- 100 trillion bacteria that live in our GI tract. 10x number of human cells in our body and 100x as many genes as there are in the human genome. Partnership between humans and their microbiome developed over thousands of years.
- Vaginal delivery is NOT sterile. Are there consequences to C-section? Food allergy for infant –OR 2.5 if Mom with food allergy delivers vaginally vs OR 7.8 if Mom has food allergy and delivers via C-section. Also, some data indicates increased risk of EoE if born via C-section. From DAY 1, microbiome can be influence by environmental factors.
- Influencing microbiome happens mainly during first three years of life.
Why the microbiome is so important/more pointers:
- Since 1950, there has been a huge decline in infectious diseases like measles, mumps, hepatitis A, tuberculosis, etc
- Coincident with these decreases there has been increased multiple sclerosis, Crohn’s disease, asthma, food allergy, autoimmune diseases
- Sanitized food supply, decrease in naturally fermented foods, urban lifestyle, antibiotics, C-section all lead to lower microbial exposure and altered intestinal microbiota. This in turn may lead to an inadequate immune response.
- Elie Metchnikoff 1845-1916: suggested ingested bacteria could be healthy. Probiotics/prebiotics are not a new idea!
- Obese patients had very high levels of Firmicutes and low Bacteroidetes.
- Fecal microbial transplantation (FMT)–reseeding GI microbiome. FMT may be beneficial to many diseases and is being studied.
Helicobacter pylori -evidence of H pylori as far back as 60,000 years ago and has evolved with humans. H pylori may have helped provided a positive immune response in children and adults.
Bottomline: Human genetic diseases may be heavily influenced by the 300 trillion bacteria and their genes; these bacteria are susceptible to environmental disease.
Related blog posts:
Genetic Basis of Motility —Robert Heuckeroth
- Basic machinery controlling motility described –enteric neurons, muscles, pacemaker cells.
- Very little clinical overlap between modern genetic testing and applicable motility disorders: achalasia, gastroparesis, pseudoobstruction, Hirschsprung’s or irritable bowel
- Focused testing for suspected diagnosis is being displaced by broader testing in serious disease, especially since more extensive genetic testing may be more cost-effective. When to do exome sequencing?
- 1:5000 children.
- 100X higher risk in Down Syndrome.
- Prenatal testing not helpful at this time. There may be >360 genes that increase risk (variable degree of risk) of Hirschsprung’s disease; hence prenatal testing not that helpful at this time.
- 30 associated genetic syndromes with Hirschsprung’s, >12 known gene defects. Hirschsprung’s disease: 25% with RET haploinsufficiency. RET haploinsufficiency –increases risk of Hirschsprung’s disease >2500-fold risk.
- Gene environment interactions can increase risk of developing Hirschsprung’s disease –if vitamin A deficient, mice with increased risk.
- RET gene –>too little RET increases risk of Hirschsprung’s
- RET gene –>too much RET increases risk of MEN2B, MEN2A. Though 7.5% of MEN2A have Hirschsprung’s –works out to be 1 in 100 kids with Hirschsprung’s have MEN2A mutations. ??test for this??
Pseudoobstruction genetic basis– a number of genes identified, including ACTG2 (smooth muscle actin gene). If you understand etiology, this may lead to prevention and treatment.
Take-home message: Currently biggest problem with genetic testing, especially with motility disorders, is identifying genetic defect of unknown significance. Thus, testing needs to be done as part of research studies.
Related blog posts:
- Reducing Diagnostic Uncertainty in Hirschsprung’s Disease …
- Primary Enteric Nervous System Disorders | gutsandgrowth