Role of Flow Cytometry in the Diagnosis of Chronic Granulomatous Disease: the Egyptian Experience

Autoři	HAWARY Rabab El MESHAAL Safa DESWARTE Caroline GALAL Nermeen ABDELKAWY Mahitab ALKADY Radwa ELAZIZ Dalia Abd FREIBERGER Tomáš RAVCUKOVA Barbora LITZMAN Jiří BUSTAMANTE Jacinta BOUTROS Jeannette GAAFAR Taghrid ELMARSAFY Aisha
Rok publikování	2016
Druh	Článek v odborném periodiku
Časopis / Zdroj	Journal of Clinical Immunology
Fakulta / Pracoviště MU	Lékařská fakulta
Citace
Doi	http://dx.doi.org/10.1007/s10875-016-0297-y
Obor	Epidemiologie, infekční nemoci a klinická imunologie
Klíčová slova	Chronic granulomatous disease; Flowcytometry; NCF1; NCF2; CYBA; CYBB
Přiložené soubory	EL_1350088.pdf
Popis	Introduction: Chronic granulomatous disease (CGD) is an inherited mutational defect in any of the NADPH oxidase complex, CYBB (gp91-phox), NCF1 (p47-phox), CYBA (p22-phox), NCF2 (p67-phox), or NCF4 (p40-phox) leading to inability of phagocytes to perform effective respiratory burst and thus diminished killing of bacteria and fungi. The identification of defective proteins aids in establishing a diagnosis prior to genetic analysis, which is rather labor-intensive, expensive, and time-consuming. Aim: The present study aims at assessing the NADPH proteins by performing the intracellular staining with specific monoclonal antibodies and their assessment on flow cytometry. The use of flow cytometry is less laborious and faster to perform than western blot. It also confirms the diagnosis of CGD and detects the affected components allowing proper management of patients. Materials and Methods: Twenty-eight patients from 25 different kindred, clinically suspected as CGD were recruited in Egypt. Dihydrorhodamine test was performed to confirm the diagnosis of the patients. Intracellular staining of NADPH components using specific monoclonal antibodies was performed followed by flow cytometric analysis. Results: The present study revealed that the most common defective protein in our cohort is p22-phox, found in 13 patients (46.4 % of cases) followed by p47-phox in 8 patients (28.6 %), gp91-phox in 5 patients (17.9 %), and finally p67-phox in 2 patients (7.1 %). Conclusion: In countries with limited resources and yet large number of CGD patients, the analysis of the defective proteins by flow cytometry is an optimum solution for confirming the diagnosis and is a step for targeted sequencing in families seeking prenatal diagnosis.