TY - JOUR
T1 - Targeted next-generation sequencing
T2 - A novel diagnostic tool for primary immunodeficiencies
AU - Nijman, Isaac J.
AU - Van Montfrans, Joris M.
AU - Hoogstraat, Marlous
AU - Boes, Marianne L.
AU - Van De Corput, Lisette
AU - Renner, Ellen D.
AU - Van Zon, Patrick
AU - Van Lieshout, Stef
AU - Elferink, Martin G.
AU - Van Der Burg, Mirjam
AU - Vermont, Clementien L.
AU - Van Der Zwaag, Bert
AU - Janson, Esther
AU - Cuppen, Edwin
AU - Ploos Van Amstel, Johannes K.
AU - Van Gijn, Marielle E.
N1 - Funding Information:
Supported by the Vrienden van het Wilhelmina Kinderziekenhuis Foundation and Fonds Nuts Ohra (grant no. 16.13004 to M.E.v.G., J.M.v.M., L.v.d.C., and M.L.B.), NGI (Horizon Valorization grant no. 93515510 to M.E.v.G.), and the German Research Foundation (grant no. DFG RE2799/3-1 to E.D.R.).
Funding Information:
Disclosure of potential conflict of interest: E. Renner has received research support from the Wilhem Sander Foundation and the German Research Foundation (DFG) . The rest of the authors declare that they have no relevant conflicts of interest.
PY - 2014/2
Y1 - 2014/2
N2 - Background Primary immunodeficiency (PID) disorders are a heterogeneous group of inherited disorders caused by a variety of monogenetic immune defects. Thus far, mutations in more than 170 different genes causing PIDs have been described. A clear genotype-phenotype correlation is often not available, which makes a genetic diagnosis in patients with PIDs complex and laborious. Objective We sought to develop a robust, time-effective, and cost-effective diagnostic method to facilitate a genetic diagnosis in any of 170 known PID-related genes by using next-generation sequencing (NGS). Methods We used both targeted array-based and in-solution enrichment combined with a SOLiD sequencing platform and a bioinformatic pipeline developed in house to analyze genetic changes in the DNA of 41 patients with PIDs with known mutations and 26 patients with undiagnosed PIDs. Results This novel NGS-based method accurately detected point mutations (sensitivity and specificity >99% in covered regions) and exonic deletions (100% sensitivity and specificity). For the 170 genes of interest, the DNA coverage was greater than 20× in 90% to 95%. Nine PID-related genes proved not eligible for evaluation by using this NGS-based method because of inadequate coverage. The NGS method allowed us to make a genetic diagnosis in 4 of 26 patients who lacked a genetic diagnosis despite routine functional and genetic testing. Three of these patients proved to have an atypical presentation of previously described PIDs. Conclusion This novel NGS tool facilitates accurate simultaneous detection of mutations in 161 of 170 known PID-related genes. In addition, these analyses will generate more insight into genotype-phenotype correlations for the different PID disorders.
AB - Background Primary immunodeficiency (PID) disorders are a heterogeneous group of inherited disorders caused by a variety of monogenetic immune defects. Thus far, mutations in more than 170 different genes causing PIDs have been described. A clear genotype-phenotype correlation is often not available, which makes a genetic diagnosis in patients with PIDs complex and laborious. Objective We sought to develop a robust, time-effective, and cost-effective diagnostic method to facilitate a genetic diagnosis in any of 170 known PID-related genes by using next-generation sequencing (NGS). Methods We used both targeted array-based and in-solution enrichment combined with a SOLiD sequencing platform and a bioinformatic pipeline developed in house to analyze genetic changes in the DNA of 41 patients with PIDs with known mutations and 26 patients with undiagnosed PIDs. Results This novel NGS-based method accurately detected point mutations (sensitivity and specificity >99% in covered regions) and exonic deletions (100% sensitivity and specificity). For the 170 genes of interest, the DNA coverage was greater than 20× in 90% to 95%. Nine PID-related genes proved not eligible for evaluation by using this NGS-based method because of inadequate coverage. The NGS method allowed us to make a genetic diagnosis in 4 of 26 patients who lacked a genetic diagnosis despite routine functional and genetic testing. Three of these patients proved to have an atypical presentation of previously described PIDs. Conclusion This novel NGS tool facilitates accurate simultaneous detection of mutations in 161 of 170 known PID-related genes. In addition, these analyses will generate more insight into genotype-phenotype correlations for the different PID disorders.
KW - Primary immunodeficiency
KW - diagnosis
KW - genetics
KW - next-generation sequencing
UR - http://www.scopus.com/inward/record.url?scp=84895064425&partnerID=8YFLogxK
U2 - 10.1016/j.jaci.2013.08.032
DO - 10.1016/j.jaci.2013.08.032
M3 - Article
C2 - 24139496
AN - SCOPUS:84895064425
SN - 0091-6749
VL - 133
SP - 529-534.e1
JO - Journal of Allergy and Clinical Immunology
JF - Journal of Allergy and Clinical Immunology
IS - 2
ER -