Background Dedicator of cytokinesis 8 (DOCK8) deficiency can be cured by allogeneic hematopoietic stem cell transplantation (HSCT). Reports of outcome are still limited. Objective To analyze the results of HSCT in patients with DOCK8 deficiency and report whether approaches resulting in mixed chimerism result in clinically relevant immune reconstitution. Methods We performed retrospective chart review of 11 patients with DOCK8 deficiency, and measured DOCK8 expression and cytokine production. Results Of 11 patients, 7 received HSCT from related and 4 from unrelated donors; nine patients received busulfan-based conditioning regimens. Survival was excellent (10/11 patients alive, 91%), including a patient who had undergone liver transplantation. Patients showed significant improvements in the frequency and severity of infections. While eczema resolved in all, food allergies and high IgE levels persisted in some patients. Lymphopenia, eosinophilia, low numbers of naïve CD8+ T cells and switched memory B cells, and Th1/Th2 cytokine imbalance improved in most patients. While the 8 matched related or unrelated donor recipients had full donor chimerism, all 3 recipients of mismatched unrelated donor HSCT had high levels of donor T cell chimerism, and low B and myeloid chimerism (0–46%). Almost all switched memory B cells were of donor origin. All patients including those with mixed chimerism mounted robust antibody responses to vaccination. Conclusion Allogeneic HSCT ameliorated the infectious and atopic symptoms of DOCK8 deficiency. In patients with mixed chimerism, selective advantage for donor-derived T cells and switched memory B cells promoted restoration of cellular and humoral immunity and protection against opportunistic infection.
BACKGROUND: Biallelic variations in the dedicator of cytokinesis 8 (DOCK8) gene cause a combined immunodeficiency with eczema, recurrent bacterial and viral infections, and malignancy. Natural disease outcome is dismal, but allogeneic hematopoietic stem cell transplantation (HSCT) can cure the disease. OBJECTIVE:To determine outcome of HSCT for DOCK8 deficiency and define possible outcome variables. METHODS:We performed a retrospective study of the results of HSCT in a large international cohort of DOCK8-deficient patients. RESULTS:We identified 81 patients from 22 centers transplanted at a median age of 9.7 years (range, 0.7-27.2 years) between 1995 and 2015. After median follow-up of 26 months (range, 3-135 months), 68 (84%) patients are alive. Severe acute (III-IV) or chronic graft versus host disease occurred in 11% and 10%, respectively. Causes of death were infections (n = 5), graft versus host disease (5), multiorgan failure (2), and preexistent lymphoma (1). Survival after matched related (n = 40) or unrelated (35) HSCT was 89% and 81%, respectively. Reduced-toxicity conditioning based on either treosulfan or reduced-dose busulfan resulted in superior survival compared with fully myeloablative busulfan-based regimens (97% vs 78%; P = .049). Ninety-six percent of patients younger than 8 years at HSCT survived, compared with 78% of those 8 years and older (P = .06). Of the 73 patients with chimerism data available, 65 (89%) had more than 90% donor Tcell chimerism at last follow-up. Not all disease manifestations responded equally well to HSCT: eczema, infections, and mollusca resolved quicker than food allergies or failure to thrive. CONCLUSIONS:HSCT is curative in most DOCK8-deficient patients, confirming this approach as the treatment of choice. HSCT using a reduced-toxicity regimen may offer the best chance for survival.Aydin et al.
Summary Using a protein microarray, a broad spectrum of autoantibodies were demonstrated in patients with either Wiskott-Aldrich syndrome (WAS) or with X-linked thrombocytopenia (XLT), indicating that immune dysregulation is an integral component of both diseases.
Background Wiskott-Aldrich syndrome (WAS) is a rare X-linked disorder characterized by combined immunodeficiency, eczema, microthrombocytopenia, infections, autoimmunity and lymphoma. Gene therapy (GT) using autologous CD34+ cells is an emerging alternative treatment with advantages over standard allogeneic hematopoietic stem cell transplant for patients who lack well matched donors, avoiding graft-versus-host-disease. An initial experience with gene therapy using a γ-retroviral vector showed correction of hematological defects in 9/10 patients, but was aggravated by development of leukemia in 7 of them. We report the outcomes of a phase I/II clinical trial in which 5 WAS patients underwent GT using a self-inactivating lentiviral (SIN-LV) vector expressing the human WAS cDNA under the control of a 1.6kB fragment of the human WAS promoter. Subjects and Methods Five patients with severe WAS (clinical score 3-5) were enrolled at a median age of 1.8 years (1.4 - 8 years) at a single pediatric tertiary care center. WAS protein (WASP) was absent or markedly decreased in 2 and 3 subjects, respectively. Purified CD34+ cells from mobilized peripheral blood (n = 4) or both mobilized peripheral blood and bone marrow (n = 1) were transduced ex-vivo with the SIN-LV vector and re-infused after conditioning with busulfan (target AUC of 70-80 mg*h/L) and fludarabine (120mg/m2). The median dose of CD34+ cells infused was 9.8 x 106 cells/kg (6.3 - 24.9 x 106 cells/kg) with a mean vector copy number (VCN) of 1.7 copies/cell in CD34+ cells (0.54 - 3.37). In addition to eczema, thrombocytopenia and WAS-related infections in all patients, two subjects also had autoimmunity pre-GT, manifested as skin vasculitis and autoimmune cytopenias. Results All 5 subjects were alive and well at median follow-up of 4.8 years (2.5 - 5.9 years). Multi-lineage vector gene marking was sustained over time. All subjects had improvement or resolution of eczema and none have had any intercurrent severe infectious events. WASP expression measured by flow cytometry in T cells was increased over baseline in all patients, but remained below normal levels and correlated with VCN and cell dose received. Proliferation of T cells in response to anti-CD3, which was initially defective in 4/5 patients, improved post-GT. Humoral immune deficiency was also ameliorated, as evidenced by independence from Ig replacement and vaccine responses in those tested. All subjects remained platelet transfusion-free and none have had severe bleeding events. Platelet levels increased to >50 x 103 cells/uL in two patients with a VCN ≥2 in transduced stem cells and myeloid VCN ~1 copy/cell in neutrophils; the other 3 subjects sustained platelet counts <50 x 103 cells/uL. Cytoskeleton function was highly abnormal in myeloid cells pre-GT, as shown by the near absence of podosome formation in monocyte-derived dendritic cells. At 12 months post-GT, the % of podosome-forming cells was improved in all subjects, and reached the level of healthy controls in the 2 patients with highest VCN in myeloid cells. Both subjects with pre-existing autoimmunity had post-GT autoimmunity: patient 4 had a flare of autoimmune cytopenias at 18 months post-GT, and patient 5 developed refractory autoimmune hepatitis and hemolytic anemia at 8 months post-GT. While all subjects had WASP expression in lymphocytes, those with autoimmunity had poor recovery of T cells, Tregs, and transitional B cells at the time of clinical symptoms. IL-10 producing regulatory B cells were deficient pre-GT and recovered to varying degrees in all subjects. No severe GT-related adverse events have occurred to date. Replication-competent lentivirus was not detected. Analysis of integration site distributions in five subjects showed reconstitution to be highly polyclonal, with no clones expanded to >20% of the transgene-marked cell population. To date, there have been no malignancies reported, either related to GT or WAS itself. Conclusion In summary, our data confirm and extend the safety and efficacy of GT in correcting disease manifestations associated with WAS, as seen in other studies using SIN-LV. Higher VCN in the drug product and in transduced stem cells correlated with better reconstitution of platelets and myeloid function. In contrast to other groups, we found in our study that patients with poor lymphocyte reconstitution post-GT may be at risk of ongoing autoimmunity despite high-level gene marking. Disclosures London: ArQule, Inc: Consultancy; United Therapeutics: Consultancy. Despotovic:Novartis: Research Funding; Amgen: Research Funding; Dova: Honoraria. Forbes:Takeda: Consultancy. Galy:Genethon: Employment. Williams:Novartis: Membership on an entity's Board of Directors or advisory committees; bluebird bio: Other: License of certain IP relevant to hemoglobinopathies. Potential for future royalty/milestone income. Received payment in past through BCH institutional licensing agreement., Research Funding; Orchard Therapeutics: Membership on an entity's Board of Directors or advisory committees, Other: Co-founder, potential for future royalty/milestone income, Research Funding; Alerion Biosciences: Membership on an entity's Board of Directors or advisory committees, Other: Co-founder. OffLabel Disclosure: CliniMACS technology for CD34+ cell selection
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