Zahra Aadam1,2, Nadia Kechout3, Abdelhamid Barakat4, Koon-Wing Chan5, Meriem Ben-Ali6, Imen Ben-Mustapha6, Fethi Zidi7, Fatima Ailal8, Nabila Attal3, Fatouma Doudou3, Mohamed-Cherif Abbadi3, Chawki Kaddache9, Leila Smati10, Nabila Touri9, Jalel Chemli11, Tahar Gargah12, Ines Brini13, Amina Bakhchane2, Hicham Charoute2, Leila Jeddane8, Sara El Atiqi8, Naïma El Hafidi14, Mustapha Hida15, Rachid Saile1, Hanane Salih Alj1, Rachida Boukari16, Mohamed Bejaoui17, Jilali Najib8, Mohamed-Ridha Barbouche6, Yu-Lung Lau5, Fethi Mellouli17, Ahmed Aziz Bousfiha8. 1. Laboratory of Biology and Health URAC34-Metabolic and Immunologic pathology Research Team, Faculty of Science of BenM'sik, King Hassan II University, Casablanca, Morocco. 2. Institut Pasteur, Human Molecular Genetic Laboratory, Casablanca, Morocco. 3. Department of Immunology, Institut Pasteur d'Algérie, Faculty of Medicine, Algiers, Algeria. 4. Institut Pasteur, Human Molecular Genetic Laboratory, Casablanca, Morocco. abdelhamid.barakat@pasteur.ma. 5. Departments of Pediatrics and Adolescent Medicine, The University of Hong Kong, Pokfulam, Hong Kong. 6. Laboratory of Transmission, Control and Immunobiology of Infections (LR11IPT02), Institut Pasteur de Tunis, and University Tunis El Manar, Tunis, Tunisia. 7. Department of Pediatrics, Regional Hospital of Tozeur, Tozeur, Tunisia. 8. Clinical Immunology Unit, Ibn Rochd Hospital, King Hassan II University-AinChok, Casablanca, Morocco. 9. Department of Pediatrics, CHU Blida, Blida, Algeria. 10. Department of Pediatrics, EPH Bologhine, Faculty of Medicine, Algiers, Algeria. 11. Department of Pediatrics, Sahloul Hospital, Sousse, Tunisia. 12. Department of Pediatrics, Charles Nicolle Hospital, Tunis, Tunisia. 13. Department of Pediatrics B, Children's Hospital of Tunis, Tunis, Tunisia. 14. Department of Pediatric Infectious Diseases, Avicenne University Hospital, Rabat, Morocco. 15. Department of Pediatrics, Hassan II University Hospital, Fez, Morocco. 16. Department of Pediatrics, CHU Mustapaha Bacha, Faculty of Medicine, Algiers, Algeria. 17. National Bone Marrow Transplantation Center, Jebel Lakhdar, Tunis, Tunisia.
Abstract
PURPOSE: X-linked agammagobulinemia (XLA) is a primary immunodeficiency caused by Bruton's tyrosine kinase (BTK) gene defect. XLA patients have absent or reduced number of peripheral B cells and a profound deficiency in all immunoglobulin isotypes. This multicenter study reports the clinical, immunological and molecular features of Bruton's disease in 40 North African male patients. METHODS: Fifty male out of 63 (male and female) patients diagnosed with serum agammaglobulinemia and non detectable to less than 2% peripheral B cells were enrolled. The search for BTK gene mutations was performed for all of them by genomic DNA amplification and Sanger sequencing. RESULTS: We identified 33 different mutations in the BTK gene in 40 patients including 12 missense mutations, 6 nonsense mutations, 6 splice-site mutations, 5 frameshift, 2 large deletions, one complex mutation and one in-frame deletion. Seventeen of these mutations are novel. This large series shows a lower frequency of XLA among male patients from North Africa with agammaglobulinemia and absent to low B cells compared with other international studies (63.5% vs. 85%). No strong evidence for genotype-phenotype correlation was observed. CONCLUSIONS: This study adds to other reports from highly consanguineous North African populations, showing lower frequency of X-linked forms as compared to AR forms of the same primary immunodeficiency. Furthermore, a large number of novel BTK mutations were identified and could further help identify carriers for genetic counseling.
PURPOSE:X-linked agammagobulinemia (XLA) is a primary immunodeficiency caused by Bruton's tyrosine kinase (BTK) gene defect. XLA patients have absent or reduced number of peripheral B cells and a profound deficiency in all immunoglobulin isotypes. This multicenter study reports the clinical, immunological and molecular features of Bruton's disease in 40 North African male patients. METHODS: Fifty male out of 63 (male and female) patients diagnosed with serum agammaglobulinemia and non detectable to less than 2% peripheral B cells were enrolled. The search for BTK gene mutations was performed for all of them by genomic DNA amplification and Sanger sequencing. RESULTS: We identified 33 different mutations in the BTK gene in 40 patients including 12 missense mutations, 6 nonsense mutations, 6 splice-site mutations, 5 frameshift, 2 large deletions, one complex mutation and one in-frame deletion. Seventeen of these mutations are novel. This large series shows a lower frequency of XLA among male patients from North Africa with agammaglobulinemia and absent to low B cells compared with other international studies (63.5% vs. 85%). No strong evidence for genotype-phenotype correlation was observed. CONCLUSIONS: This study adds to other reports from highly consanguineous North African populations, showing lower frequency of X-linked forms as compared to AR forms of the same primary immunodeficiency. Furthermore, a large number of novel BTK mutations were identified and could further help identify carriers for genetic counseling.
Entities:
Keywords:
BTK; XLA; north african population; novel mutations
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