Gut Immunomodulation with Vedolizumab prior to Allogeneic Hematopoietic Stem Cell Transplantation in Pediatric Patients with Inflammatory Bowel Disease.

Inborn errors of immunity (IEI) are often associated with inflammatory bowel disease (IBD). IEI can be corrected by allogeneic hematopoietic stem cell transplantation (HSCT); however, peritransplantation intestinal inflammation may increase the risk of gut graft-versus-host disease (GVHD). Vedolizumab inhibits the homing of lymphocytes to the intestine and may attenuate gut GVHD, yet its role in preventing GVHD in pediatric patients with IEI-associated IBD has not been studied. Here we describe a cohort of pediatric patients with IEI-associated IBD treated with vedolizumab before and during allogeneic HSCT. The study involved a retrospective chart review of pediatric patients with IEI-associated IBD treated with vedolizumab at 6 weeks, 4 weeks, and 1 week before undergoing HSCT. The conditioning regimen consisted of treosulfan, fludarabine, and cyclophosphamide with rabbit antithymocyte globulin, and GVHD prophylaxis included tacrolimus and steroids. Eleven patients (6 females) with a median age of 5 years (range, 0.4 to 14 years) with diverse IEI were included. IBD symptoms were characterized by abdominal pain, loose stools, and blood in stools. Four patients had developed a perianal fistula, and 1 patient had a rectal prolapse. One patient had both a gastrostomy tube and a jejunal tube in situ. Treatment of IBD before HSCT included steroids in 11 patients, anakinra in 2, infliximab in 4, sulfasalazine in 2, mesalazine in 2, and vedolizumab. IBD symptoms were considered controlled in the absence of abdominal pain, loose stools, or blood in stools. Graft sources for HSCT were unrelated donor cord in 5 patients (2 with a 5/8 HLA match, 2 with a 7/8 match, and 1 with a 6/8 match), peripheral blood stem cells in 5 patients (2 haploidentical, 1 with a 9/10 HLA match, and 2 with a 10/10 match), and bone marrow in 1 patient (10/10 matched sibling donor). The median number of vedolizumab infusions was 4 (range, 3 to 12) before HSCT and 1 (range, 1 to 3) after HSCT, and all were reported to be uneventful. All patients had engrafted. Acute GVHD occurred in 4 patients and was limited to grade I skin GVHD only. Chronic GVHD occurred in 1 patient and again was limited to the skin. There was no gut GVHD. Three patients experienced cytomegalovirus viremia, and 2 patients had Epstein-Barr virus viremia. At the time of this report, all patients were alive with no evidence of IBD at a median follow-up of 15 months (range, 3 to 39 months). Administration of vedolizumab pre- and post-HSCT in pediatric patients with IEI-associated IBD is well tolerated and associated with a low rate of gut GVHD. These findings provide a platform for the prospective study and use of vedolizumab for GVHD prophylaxis in pediatric patients with known intestinal inflammation as a pre-HSCT comorbidity.

Disease Progression of WHIM Syndrome in an International Cohort of 66 Pediatric and Adult Patients.

Warts, hypogammaglobulinemia, infections, and myelokathexis (WHIM) syndrome (WS) is a combined immunodeficiency caused by gain-of-function mutations in the C-X-C chemokine receptor type 4 (CXCR4) gene. We characterize a unique international cohort of 66 patients, including 57 (86%) cases previously unreported, with variable clinical phenotypes. Of 17 distinct CXCR4 genetic variants within our cohort, 11 were novel pathogenic variants affecting 15 individuals (23%). All variants affect the same CXCR4 region and impair CXCR4 internalization resulting in hyperactive signaling. The median age of diagnosis in our cohort (5.5 years) indicates WHIM syndrome can commonly present in childhood, although some patients are not diagnosed until adulthood. The prevalence and mean age of recognition and/or onset of clinical manifestations within our cohort were infections 88%/1.6 years, neutropenia 98%/3.8 years, lymphopenia 88%/5.0 years, and warts 40%/12.1 years. However, we report greater prevalence and variety of autoimmune complications of WHIM syndrome (21.2%) than reported previously. Patients with versus without family history of WHIM syndrome were diagnosed earlier (22%, average age 1.3 years versus 78%, average age 5 years, respectively). Patients with a family history of WHIM syndrome also received earlier treatment, experienced less hospitalization, and had less end-organ damage. This observation reinforces previous reports that early treatment for WHIM syndrome improves outcomes. Only one patient died; death was attributed to complications of hematopoietic stem cell transplantation. The variable expressivity of WHIM syndrome in pediatric patients delays their diagnosis and therapy. Early-onset bacterial infections with severe neutropenia and/or lymphopenia should prompt genetic testing for WHIM syndrome, even in the absence of warts.

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.

Morbidity in an adenosine deaminase-deficient patient during 27 years of enzyme replacement therapy.

INTRODUCTION: Adenosine deaminase (ADA) deficiency causes severe immunodeficiency that is lethal in infancy. Enzyme replacement therapy (ERT) can improve the metabolic, immune and non-immune abnormalities in patients prior to transplantation, however, its benefits over extended periods are not well characterized. We describe a 28-year-old female who received ERT for 27 years. She suffered from EBV negative B cell lymphoma of the hip at 14 years of age and Guillian-Barre Syndrome 2 years later. At 22 years of age, she experienced a gastrointestinal infection with Mycobacterium genavense. At 26 years of age, lymphoma reoccurred with multiple liver lesions followed by Mycobacterium genavense infection with dissemination to the brain. Throughout this period, ADA activity in the plasma was within the therapeutic range. Repeated evaluations demonstrated very low lymphocyte counts and impaired T cell function. CONCLUSIONS: ERT might be insufficient to maintain normal immunity over extended periods in some ADA-deficient patients.

Long-Term Outcome of Adenosine Deaminase-Deficient Patients-a Single-Center Experience.

PURPOSE: Inherited defects in the adenosine deaminase (ADA) enzyme can cause severe combined immune deficiency (SCID) and systemic abnormalities. Management options for ADA-deficient patients include enzyme replacement therapy (ERT), hematopoietic stem cell transplantation (HSCT), and gene therapy (GT). Here, we describe the long-term benefits of these treatments. METHODS: Survival, infections, systemic sequelae, and laboratory assessments were recorded for all ADA-deficient SCID patients, managed at a single center since 1985, who survived 5 or more years following treatment. RESULTS: Of 20 ADA-deficient patients, the 8 (40%) who survived 5 or more years (range 6-29.5 years, median 14 years) were included in the study. Among the long-term survivors, two patients were treated exclusively with ERT, five underwent HSCT (three from HLA-matched sibling donors, two from HLA-mismatched related donors), and one received GT. The long-term survivors often suffered from recurrent respiratory infections; however, opportunistic infections occurred in only one patient. Systemic sequelae included lung disease such as bronchiectasis and asthma (four patients), neurologic abnormalities (six patients), metabolic disturbances (two patients), allergy and autoimmunity (six patients), and neoplasms (three patients). Normal CD4+ T cell numbers and function, as well as antibody production, were usually observed after HSCT and GT, but not after ERT. Late deaths occurred in two patients at 15 and 25 years after HSCT, respectively, and were attributed to respiratory failure. CONCLUSIONS: ADA-deficient patients commonly suffer from long-term complications, emphasizing the need for improved management and for multi-disciplinary follow-up.

Novel Combined Immune Deficiency and Radiation Sensitivity Blended Phenotype in an Adult with Biallelic Variations in ZAP70 and RNF168.

With the advent of high-throughput genomic sequencing techniques, novel genetic etiologies are being uncovered for previously unexplained Mendelian phenotypes, and the underlying genetic architecture of disease is being unraveled. Although most of these "mendelizing" disease traits represent phenotypes caused by single-gene defects, a percentage of patients have blended phenotypes caused by pathogenic variants in multiple genes. We describe an adult patient with susceptibility to bacterial, herpesviral, and fungal infections. Immunologic defects included CD8+ T cell lymphopenia, decreased T cell proliferative responses to mitogens, hypogammaglobulinemia, and radiation sensitivity. Whole-exome sequencing revealed compound heterozygous variants in ZAP70. Biallelic mutations in ZAP70 are known to produce a spectrum of immune deficiency that includes the T cell abnormalities observed in this patient. Analyses for variants in genes associated with radiation sensitivity identified the presence of a homozygous RNF168 variant of unknown significance. RNF168 deficiency causes radiosensitivity, immunodeficiency, dysmorphic features, and learning difficulties syndrome and may account for the radiation sensitivity. Thus, the patient was found to have a novel blended phenotype associated with multilocus genomic variation: i.e., separate and distinct genetic defects. These findings further illustrate the clinical utility of applying genomic testing in patients with primary immunodeficiency diseases.