Rare Diseases: Genetic Testing and Targeted Therapy

Rare Diseases: Genetic Testing and Targeted Therapy Meral Özgüç Hacettepe University Faculty of Medicine Department of Medical Biology & DNA/Cell Bank

RDs Definition! Low prevalence (Less than 5/10000)! ~30 M EU, ~30 M USA, ~250 M worldwide patients! 6000-8000 diseases! Many unknown genes, no therapy for most RDs! 80% genetic background- all Mendelian disorders are rare! Rare cancers and infectious diseases

Classification! Lack of specific codes in international classification systems! Only 500 RDs in the WHO - ICD-10! Lack of interoperability between individual databases Hum Mutat 2012; 33: 803-808.

Challenges in RDs! Timely and accurate diagnosis! Lack of information and experience in the healthcare system! Fragmented research! Slow drug development and treatments! Limited number of patients for clinical trials

Delay in Diagnosis In a group of RDs, 25% of patients waited for 5 to 30 for a diagnosis and initial diagnosis was wrong in 40% of the cases (EURORDIS 2007)

Governance Rare diseases is a priority area where global approach and multinational strategies is needed Together for Health: A Strategic Approach for the EU 2008-2013! National Plans for Rare Diseases! IRDiRC-International Rare Diseases Research Consortium, 2012 (EU-NIH) Cooperation and coordination in RDs research Vision 2020- to develop 200 new therapies and diagnose most RDs http://www.irdirc.org/

Road Map for Diagnosis Gene Identification! Candidate gene approach! Linkage analysis - large families with multiple affecteds! Homozygosity mapping -consanguineous families, AR Mendelian diseases! Whole exom sequencing (WES) - only protein coding regions! Whole genome sequencing (WGS)

1 05-981 2 05-982 3 05-983 4 05-988 5 05-985 6 05-987 7 05-984 8 05-986 9 05-989 10 05-990 11 05-991 Biobanks are essential infrastructures for family collections for gene identification V:18 V:19 V:25 V:26 VI:15 VI:16 VI:17 VI:18 VI:19 VI:20 VI:21 VI:22 VI:25 VI:27 VI:28 VII:1 VII:3 VII:4 VII:5

GENETIC TESTING Genetic testing is testing for variations in germline DNA sequences, or for products/effects arising from changes in heritable sequences, which are predictive of significant health effects. OECD! Diagnostic Testing! Newborn Screening! Carrier detection! Presemptomatic Testing! Predictive Testing! Pharmacogenetics

Genetic Testing in Rare Diseases Identification of the genetic variation in the causative gene Assessment of the phenotype Confirmation of diagnosis Counseling and therapy *Today ~2000 genetic tests are available for rare diseases *Genomic Testing. Fact Sheet: Identifying Opportunities to Improve Health and Transform Healthcare. CDC 24/7.

Bottlenecks in Designing Genetic Tests! One gene - one universal mutation - sickle cell anemia! Ethnic groups - Tay Sachs (Ashkenazi Jews) Mutation Frequency 1278insTATC ~82% IVS12 +1 ~15% 99% G269S ~2% *Data from the International TSD Data Collection Network, 2007

Bottlenecks in Designing Genetic Tests! Phenotypic heterogeneity many gene variants-single phenotype different mutations-same gene-different phenotypes LGMD mutations at more than 50 loci have been reported, making accurate diagnosis and genetic counseling a challenge Gene Reviews 2012! Modifiers MBL (Mannose Binding Lectin) protein is a possible modulator of CF (Cystic Fibrosis) phenotype Glycobiology 2011; 21;3: 271 282 Dominant modifier DFNM1 suppresses recessive deafness DFNB26 Nature Genetics 2000; 26: 431-434

Next Generation Technologies Advantages of whole genome sequencing (WGS)! Identification of de novo mutations in dominant monogenic diseases Nature Reviews 2012; 13: 565-575! Identification of de novo mutations in common diseases Nat Genetics 2011; 43: 585-589! Identification of variations in noncoding regions that may affect the expression of the disease phenotype The Encyclopedia of DNA Elements (ENCODE) Consortium

Next Generation Biobanks! Human Biobanks and Genetic Research Databases are structured resources. and which include: (a) human biological materials and/or information generated from the analysis of the same; and (b) extensive associated information. (OECD)! Keepers of WGS data for future clinical use

Whole Genome Sequencing From data to clinical application Association of the allele with human pathology! model organisms,! biochemical studies,! in silico algorithms,! patient derived ips cells Nature Reviews 2013; 14: 415-424.

WGS Newborn Screening A new NIH Programme Hundreds of US babies will be pioneers in genomic medicine through a US$ 25 million programme to sequence their genomes soon after they are born Nature News Blog 04 Sep 2013

Genomics Medicine Personalised Medicine Personal omics profiles Data management and clinical bioinformatics Disease description at cellular and molecular level Understand biological mechanisms Patient stratification Deep phenotyping * Targeted therapy *Hum Mutat 2012; 33: 777-780.

Orphan Drug Policies! Orphan Drug Act 1983, USA! EMA - Committee for Orphan Medicinal Products, 2000! Creating Hope Act 2010 Bill Priority Review Voucher System to Rare Pediatric Diseases

Therapy for RDs! Pharmaceutical drugs! Diet restriction - PKU! Vitamins as cofactors! Suppression of toxicity Wilson s Disease (copper accumulation)

Therapy for RDs Advance products for therapy! Monogenic protein replacement therapies (MPRT) *(88% approval for clinical trials)! Cell and gene therapy products! Oligonucleotides! Fusion proteins! Monoclonal antibodies *Sci Transl Med 2013; 5: 178fs10.

Targeting the Cause of Disease (CF) I II III IV V No synthesis Block in processing Block in regulation Altered conductance Reduced synthesis G542X, R553X, W1282X, R1162X, 621-1G T, 1717-1G A, 1078DT, 3659DC DF508, DI507, N1303K, S549N VX-809 Corrector G551D, R560T Kalydeco (Ivacaftor) Potentiator R117H, R334W, G85E, R347P 3849+10KbC T, 2789+5G A, A455E http://www.vrtx.com/

From Research to Genetic Test in the Healthcare Environment! Decrease in cost/ increase in resolution! Decrease in sample size and non invasive techniques (prenatal diagnosis) cell free DNA in maternal blood! Turn-around time of the test! High quality sample (biobank)! Clinical bioinformatics/literacy in data interpretation

Rare Disorders Provide Insight for Common Disorders Type I Gaucher s Disease (GD) patients (Deficient glucocerebrosidase (GBA) gene) share clinical features similar to Parkinson patients (PD-GBA phenotype) Cell Metabolism 2013; 17: 941-953.

RARE DISORDERS COMMON DISORDERS Bridging the gap

Education for all in the PPPM Era! Public! Funding agencies! Healthcare providers! Nurses and genetic counsellers! Funding agencies! Ethics review committees Genomics divide between countries: capacity building activities to aid diagnosis and management is required (Consanguinity belt countries - high prevalence of AR monogenic diseases)

Acknowledgements Prof. Dr. Meral Özgüç mozguc@hacettepe.edu.tr Hacettepe Rare Diseases Study Groups Department of Medical Biology, Center for Biological Resources and Genomics, Departments of Pediatrics and Internal Medicine Department of Medical Genetics, Department of Pathology

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