Progressive decline of T and B cell numbers and function in a patient with CDC42 deficiency.

Single allele mutations in the Cell Division Control protein 42 homolog (CDC42) gene were recently shown to cause Takenouchi-Kosaki syndrome with diverse manifestations. These include persistent mild thrombocytopenia with large platelet size, severe developmental delay, growth retardation, facial dysmorphism, and other neurodevelopmental and hematological anomalies. CDC42 deficiency might also cause myelofibrosis, myeloproliferation, and severe autoinflammation. CDC42 closely interacts with the Wiskott-Aldrich Syndrome Protein, but little is still known about the immune abnormalities associated with CDC42 deficiency. Detailed immune evaluations were performed in a patient diagnosed with a CDC42 Tyr64Cys mutation. The 19-year-old female suffered from recurrent pneumonia, otitis media, and bacteremia, which resolved at 10 years of age, concordant with the initiation of amoxicillin prophylaxis. In addition, the patient had frequent viral upper respiratory tract infections, which resolved without need for medical interventions. Immune evaluations demonstrated decreased immunoglobulin levels, inability to maintain antibody responses, progressive decline in the number of CD19+ B cells, and decreased switched memory B cells. There was also a decrease in CD4+ and CD8+ T cells, markedly reduced naïve T cells, and intermittent depressed proliferation of T cells to stimulation. Natural killer cells' number and functions were normal. However, no opportunistic infections were observed, nor was there evidence for autoinflammation. CDC42 deficiency might also be associated with decline in T and B cell function. Therefore, immunity in patients with CDC42 defects should be closely monitored, particularly among those with frequent infections or systemic autoinflammation.