70 research outputs found
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Do RARA/PML fusion gene deletions confer resistance to ATRA-based therapy in patients with acute promyelocytic leukemia?
Acute promyelocytic leukemia (APL) is characterized by the translocation t(15;17)(q22;q21), resulting in the promyelocytic leukemia (PML)-retinoic acid receptor alpha (RARA) fusion protein in 95% cases whereas variant translocations involving PLZF (11q23), NPM (5q35), NUMA (11q13) and STAT5b (17q23) account for the rest. Leukemias with PML-RARA translocations respond well to all-trans retinoic acid (ATRA) or arsenic trioxide (ATO) therapy whereas those with PLZF-RARA fusions respond poorly. Although primary resistance to ATRA is rare, secondary or acquired resistance is frequently observed in patients treated with ATRA alone or in combination with other chemotherapy regimens. However, molecular abnormalities mediating resistance to ATRA therapy are underexplored. Here, we report two cases of APL with RARA-PML deletions on der(17) or der(15), which displayed clinical evidence of primary and secondary resistance to therapy, respectively
An Age-Dependent Pharmacokinetic Study of Intravenous and Oral Mycophenolate Mofetil in Combination with Tacrolimus for GVHD Prophylaxis in Pediatric Allogeneic Stem Cell Transplantation Recipients
Acute graft-versus-host disease (aGVHD) still remains a major limiting factor following allogeneic stem cell transplantation (AlloSCT) in pediatric recipients. Mycophenolate mofetil (MMF), an uncompetitive selective inhibitor of inosine monophosphate dehydrogenase, is a new immunosuppressant agent without major mucosal, hepatic, or renal toxicity compared to other prophylactic aGVHD immunosuppressant drugs. Although there has been an extensive pharmacokinetic (PK) experience with MMF administration following solid organ transplantation in children, there is a paucity of PK data following its use in pediatric AlloSCT recipients. We investigated the safety and PK of MMF as GVHD prophylaxis following intravenous (i.v.) and oral (p.o.) administration (900 mg/m2 every 6 hours) in conjunction with tacrolimus, after myeloablative (MA) and nonmyeloablative (NMA) conditioning and AlloSCT in 3 distinct age groups of pediatric AlloSCT recipients (0-6 years, 6-12 years, and 12-16 years). Mycophenolic acid (MPA) in plasma samples was measured either by high-performance liquid chromatography (HPLC) or liquid chromatography/mass spectrometry (LC/MS/MS) as we have previously described. Plasma samples were obtained at baseline and at 0.5, 1, 2, 3, 4, and 6 hours after i.v. dosing on days +1, +7, +14, and at 2 time points between day +45 and +100 after p.o. administration post AlloSCT. MPA PK analysis included AUC (0-6 hours), Cmax, Tmax, Css, Vss, C trough (C0), CL, and T½. Thirty-eight patients, with a median age of 8 years (0.33-16 years), 20/18 M:F ratio, 21/17 malignant/nonmalignant disease, 17/21 MA: NMA conditioning, 16 of 22 related/unrelated allografts. Median time to myeloid and platelet engraftment was 18 and 31 days, respectively. Mean donor chimerism on day +60 and +100 was 83% and 90%, respectively. Probability of developing aGVHD grade II-IV and extensive chronic GVHD (cGVHD) was 54% and 34%, respectively. There was significant intra- and interpatient MMF PK variability. There was a significant increase in i.v. MPA area under the curve (AUC)0-6hour and Cmax (P < .0003) and a significant decrease in CLss (P < .002) and Vss (P < .001) on day +14 versus day +7. Children <12 years of age had a significant increase in i.v. MPA Tmax (P = .01), Vss (P = .028), and CLss (P < .001) compared to the older age group. There was a trend in increased i.v. MPA CLss following MA versus NMA conditioning (P < .054); i.v. and p.o. MMF administration (900 mg/m2 every 6 hours) in combination with tacrolimus was well tolerated in pediatric AlloSCT recipients. There was a significant increase in MPA exposure on day +14 versus day +7, suggesting improved enterohepatic recirculation at day +14 post-AlloSCT. Children <12 years of age appear to have a significantly different MPA PK profile compared to older children and adolescents and may require more frequent dosing
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PCDH10 Promoter Hypermethylation is Frequent in most Histologic Subtypes of Mature Lymphoid Malignancies and Occurs Early in Lymphomagenesis
PCDH10 is epigenetically inactivated in multiple tumor types; however, studies in mature lymphoid malignancies are limited. Here, we have investigated the presence of promoter hypermethylation of the PCDH10 gene in a large cohort of well-characterized subsets of lymphomas. PCDH10 promoter hypermethylation was identified by methylation-specific PCR in 57 to 100% of both primary B- and T-cell lymphoma specimens and cell lines. These findings were further validated by Sequenom Mass-array analysis. Promoter hypermethylation was also identified in 28.6% cases of reactive follicular hyperpla- sia, more commonly occurring in states of immune deregulation and associated with rare presence of clonal karyotypic aberrations, suggesting that PCDH10 methylation occurs early in lymphomagenesis. PCDH10 expression was down regu- lated via promoter hypermethylation in T- and B-cell lymphoma cell lines. The transcriptional down-regulation resulting from PCDH10 methylation could be restored by pharmacologic inhibition of DNA methyltransferases in cell lines. Both T- and B-cell lymphoma cell lines harboring methylation-mediated inactivation of PCDH10 were resistant to doxorubicin treatment, suggesting that hypermethylation of this gene might contribute to chemotherapy response
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Pathobiological signatures of dysbiotic lung injury in pediatric patients undergoing stem cell transplantation.
Hematopoietic cell transplantation (HCT) uses cytotoxic chemotherapy and/or radiation followed by intravenous infusion of stem cells to cure malignancies, bone marrow failure and inborn errors of immunity, hemoglobin and metabolism. Lung injury is a known complication of the process, due in part to disruption in the pulmonary microenvironment by insults such as infection, alloreactive inflammation and cellular toxicity. How microorganisms, immunity and the respiratory epithelium interact to contribute to lung injury is uncertain, limiting the development of prevention and treatment strategies. Here we used 278 bronchoalveolar lavage (BAL) fluid samples to study the lung microenvironment in 229 pediatric patients who have undergone HCT treated at 32 childrens hospitals between 2014 and 2022. By leveraging paired microbiome and human gene expression data, we identified high-risk BAL compositions associated with in-hospital mortality (P = 0.007). Disadvantageous profiles included bacterial overgrowth with neutrophilic inflammation, microbiome contraction with epithelial fibroproliferation and profound commensal depletion with viral and staphylococcal enrichment, lymphocytic activation and cellular injury, and were replicated in an independent cohort from the Netherlands (P = 0.022). In addition, a broad array of previously occult pathogens was identified, as well as a strong link between antibiotic exposure, commensal bacterial depletion and enrichment of viruses and fungi. Together these lung-immune system-microorganism interactions clarify the important drivers of fatal lung injury in pediatric patients who have undergone HCT. Further investigation is needed to determine how personalized interpretation of heterogeneous pulmonary microenvironments may be used to improve pediatric HCT outcomes
Allogeneic Stem Cell Transplant for Children With Sickle Cell Disease Reduces Healthcare Utilization
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